ABSTRACT
Assessment of viral load levels in various biological samples taken from the respiratory tract can be an indicator of an ongoing process of active viral replication and may be used to monitor severe respiratory viral infections. The study of the relationship between SARS-CoV-2 viral load and immunological laboratory parameters is an important step in the search for clinical markers of COVID-19. The aim of this research was to quantify viral load in patients with COVID-19 and to identify the relationship between viral load and changes in the parameters of the cellular component of the immune system. A laboratory examination was carried out on 74 patients diagnosed with COVID-19, they were divided into 3 groups based on the severity of the disease: mild, moderate, severe. Total viral load in clinical samples was determined by the number of SARS-CoV-2 RNA copies per 100 copies of the reference RNaseP gene. A comprehensive assessment of the cellular component of the immune system was performed using flow cytometry and direct monoclonal antibodies, and the IL-6, and C-reactive protein concentrations were determined. We revealed a relationship between the development of serious clinical conditions in the patients with COVID-19, and the levels of viral load. High levels of viral RNA in biological samples correlate with main indicators of the T cell component of the immune system associated with disease severity. In a subgroup of patients with an extremely high viral load, strong positive correlations were found between the relative numbers of cytotoxic lymphocytes (CD3+CD8+), activated T lymphocytes (CD3+HLA-DR+), as well as absolute and relative numbers of activated B lymphocytes and NK cells (CD3-CD25+). Laboratory monitoring of the cellular component of the immune system, along with the assessment of viral loads, should improve early assessment of clinical condition in the patients with COVID-19. Changes in expression levels of activation markers on immune cells can be potentially viewed as indicators of recovery during COVID-19.Copyright © Nikitin Yu.V. et al., 2023 The article can be used under the Creative Commons Attribution 4.0 License.
ABSTRACT
Background: Severe COVID-19 outcomes have been reported in people living with HIV (PLWH). High SARS-CoV-2 RNAemia has emerged as a hallmark of severe COVID-19, yet its pathogenic role in the context of COVID-19 in PLWH is currently unknown. We hereby measured SARS-CoV-2 RNAemia and explored its association with T-cell/humoral responses and clinical severity in PLWH. Method(s): Unvaccinated PLWH and age/sex-matched people living without HIV (PLWOH) hospitalized for radiologically-confirmed COVID-19 pneumonia were consecutively enrolled (March 2020-January 2021). We measured: SARS-CoV-2 RNAemia (RT-qPCR);T-cell activation (HLA-DR+CD-38+), cytotoxic T-cells [granzyme-B(GRZB)+perforin(PRF)+], GRZB/PRF production (MFI) by cytotoxic T-cells (flow cytometry);SARS-CoV-2-specific cytokines (IFN-gamma/ TNF-alpha/IL-2/IL-4/IL-17A)-producing T-cells, after SARS-CoV-2 spike peptides challenge (flow cytometry);anti-RBD antibodies (ELISA), Spike-ACE2 binding inhibition (receptor binding inhibition assay). Statistics: Mann-Whitney test and Spearman's correlation. Result(s): 18 PLWH (16 on cART;median CD4 361.5/mL;HIV-RNA< 50 cp/ mL in 15/18) and 18 PLWOH were included at a median of 10 days from symptoms onset (Fig.1A). PLWH had lower PaO2/FiO2 [140 (122-151.5) vs. 207 (156.3-309.3);P=0.0005] and higher SARS-CoV-2 RNAemia (Fig.1B). While humoral responses were comparable between groups ( Fig.1C-D), as was T-cell activation, PLWH showed skewed T-cell responses: higher perforin production by cytotoxic T-cells (Fig.1E);fewer SARS-CoV-2-specific IFN-gamma+ and IL-4+ CD4 T-cells (Fig.1F);lower Th1 tri-functional (IFN-gamma+TNF-alpha+IL-2+) and bi-functional (IFN-gamma+TNF-alpha+) CD4 T-cells (Fig.1G);reduced TNF-alpha+ CD8 T-cells (Fig.1H). Interestingly, SARS-CoV-2 RNAemia correlated negatively with PaO2/FiO2 nadir and SARS-CoV-2-specific T-cells, yet positively with perforin production by cytotoxic T-cells (Fig.1I-M). No correlations between RNAemia and humoral responses were found. Conclusion(s): As compared to HIV-uninfected patients, PLWH hospitalized for COVID-19 pneumonia feature high SARS-CoV-2 RNAemia which is linked to respiratory failure and skewed T-cell responses, with higher perforin production by cytotoxic T-cells, and yet fewer polyfunctional SARS-CoV-2-specific T-cells. Our data suggest a link between HIV-related T-cell dysfunction and poor control over circulating SARS-CoV-2 that may in turn influence COVID-19 severity in PLWH. (Figure Presented).
ABSTRACT
Background: COVID-19 is a viral disease affecting mostly respiratory system with variable severity of the clinical course. Several clinical and laboratory parameters are associated with poor outcome. Progression of the clinical stage is associated with the exaggerated immune response and the cytokine storm. Method(s): We focused on the search of potential prognostic markers of fatal outcome among immune parameters. To this end, we examined the immune profile in 823 COVID-19 patients hospitalized in University Teaching Hospital in Martin (Slovakia) on admission and its changes over time during the first week of hospitalization. The examined immune profile consisted of the differential blood cell counts, serum concentration of immunoglobulins and basic complement compounds C4 and C3, flow cytometric lymphocyte subsets phenotyping and the measurement of selected activation and inhibition markers. Result(s): Although none of examined parameters alone had sufficient AUC value to be considered as a marker of (un)favourable outcome, we found several significant differences among different severity groups of patients, as well as between survivors and non-survivors. Severity of COVID-19 correlated with the severity of neutrophilia, thrombocytopenia, depletion of leukocyte (except for neutrophils) and lymphocyte subsets. In comparison to the fatal outcome, survival was associated with higher concentration of C3 and IgM, lower proportion of CD8+CD38+ cells, higher proportion of CD8+NKG2A+ and NK NKG2A+ cells on admission and with the significant increase in the expression on HLA-DR on both CD3+ and CD8+ cells over the first week. Conclusion(s): Our results point out to the dysregulated functional status of depleted CD8+ cells with their over-activation and possibly insufficient compensatory inhibition in COVID-19 non-survivors. Based on our results, the increase in HLA-DR expression on CD3+ and CD8+ cells is necessary for recovery.
ABSTRACT
We found a higher incidence of myocarditis in young males who had received Pfizer-BioNTech BNT162b2 vaccinations as compared with historical controls and unvaccinated individuals. The analyses focused on risk following the first and second vaccine in adults and adolescents, as well as risk in adults following the third (booster) vaccine. Males, mainly aged 12-30 years, were found to be at higher risk. However, the question remains what causes lead one specific young male, but not another, to develop post-vaccination myocarditis. The HLA molecule is known to play an important role in infectious and auto-inflammatory diseases. We hypothesized that differences in HLA alleles could lead to either protection or susceptibility to vaccination-induced myocarditis. On this basis, HLA typing was performed using next-generation sequencing technology for the HLA-A, -B, -C, -DRB1, -DQB1 and -DPB1 loci, in 21 wellcharacterized patients who developed myocarditis after the second Pfizer BNT162b2 vaccination. The HLA genotypes were compared with high-resolution HLA data of 272 healthy controls from the Hadassah Bone Marrow registry samples, who are representative of HLA frequencies in the Israeli population. Our findings demonstrated that in HLA class II, DRB1*14:01 (19.04% vs. 5.3%, Pcorr = 0.028, OR = 4.17), HLA-DQB1*05:03 (19.04% vs. 6.06%, Pcorr = 0.034, OR = 3.64) and DRB1*15:03 (7.14% vs. 0.0%, Pcorr = 0.003, OR = 41.76) were significantly associated with disease susceptibility. We further discovered susceptibility motifs in the HLA-DR peptidebinding grooves: His60 (Pcorr0.01, OR = 3.52) and Arg70 (Pcorr = 0.0047, OR = 3.43). Our findings suggest that immunogenetic fingerprints in HLA peptide-binding grooves may have changed the binding affinity of different peptides derived from the Pfizer-BioNTech BNT162b2 vaccination, and induced myocarditis.
ABSTRACT
The pathogenesis of severe coronavirus infection COVID-19 is associated with activation of immune system, cytokine storm, impaired blood clotting, microvascular thrombosis, organ ischemia and multiple organ dysfunction syndrome. The role of various lymphocyte subpopulations in COVID-19 is still debated. The aim of our study was to analyze the subpopulational profile of peripheral blood lymphocytes in COVID-19 patients as compared with healthy donors. The study included 20 COVID-19 patients (11 males and 9 females,) and 26 healthy donors. Average age of the patients was 52 and 56 years, respectively. Clinical examinations were performed by standard laboratory methods. Peripheral blood lymphocytes were isolated in the Ficoll gradient. The cells were stained with antibodies to specific antigens of main lymphocyte populations, endothelial cells, and apoptotic cell markers. The analysis was performed by flow cytometry. The results showed that all patients had elevated C-reactive protein (14- to 35-fold), ferritin (1.2- to 13-fold), D-dimers (1.2- to 90-fold). 55% of men had a decrease in the absolute number of lymphocytes, in women this index was at the low normal limit. Cytometric analysis showed that, among peripheral blood lymphocytes, the proportion of functional cells expressing the CD45 marker ranged from 2 to 12% in 70% of patients, as compared with 80-99% among the donors. The proportion of CD45+ lymphocytes significantly correlated with the level of hemoglobin, but not with the levels of inflammatory biochemical markers. Among the functional lymphocytes of patients, there was a decrease in the proportion of CD3+, CD4+, CD8+T cells, increased proportion of natural killer CD56+ and the apoptotic (AnnexinV+) cell contents, but the proportion of CD19 and HLA-DR+B cells was not changed. Analysis of the lymphocyte (LC) subpopulations that did not express CD45 marker showed that this fraction contained different lymphocyte subsets with reduced expression of CD4, CD8, CD19, CD56 etc. in the blood of patients and donors. Higher percentage of endothelial cells expressing CD62P marker made the difference between patients and donors. Laboratory determination of lymphocyte subsets in blood samples of COVID-19 patients does not reflect the real severity pattern of the disease, thus requiring studies of the CD45-expressing functional cell populations.Copyright © Svirshchevskaya E.V. et al., 2023 The article can be used under the Creative Commons Attribution 4.0 License.
ABSTRACT
Assessment of viral load levels in various biological samples taken from the respiratory tract can be an indicator of an ongoing process of active viral replication and may be used to monitor severe respiratory viral infections. The study of the relationship between SARS-CoV-2 viral load and immunological laboratory parameters is an important step in the search for clinical markers of COVID-19. The aim of this research was to quantify viral load in patients with COVID-19 and to identify the relationship between viral load and changes in the parameters of the cellular component of the immune system. A laboratory examination was carried out on 74 patients diagnosed with COVID-19, they were divided into 3 groups based on the severity of the disease: mild, moderate, severe. Total viral load in clinical samples was determined by the number of SARS-CoV-2 RNA copies per 100 copies of the reference RNaseP gene. A comprehensive assessment of the cellular component of the immune system was performed using flow cytometry and direct monoclonal antibodies, and the IL-6, and C-reactive protein concentrations were determined. We revealed a relationship between the development of serious clinical conditions in the patients with COVID-19, and the levels of viral load. High levels of viral RNA in biological samples correlate with main indicators of the T cell component of the immune system associated with disease severity. In a subgroup of patients with an extremely high viral load, strong positive correlations were found between the relative numbers of cytotoxic lymphocytes (CD3+CD8+), activated T lymphocytes (CD3+HLA-DR+), as well as absolute and relative numbers of activated B lymphocytes and NK cells (CD3-CD25+). Laboratory monitoring of the cellular component of the immune system, along with the assessment of viral loads, should improve early assessment of clinical condition in the patients with COVID-19. Changes in expression levels of activation markers on immune cells can be potentially viewed as indicators of recovery during COVID-19.Copyright © Nikitin Yu.V. et al., 2023 The article can be used under the Creative Commons Attribution 4.0 License.
ABSTRACT
Current review presents a brief overview of the immune system dysregulation during acute COVID-19 and illustrates the main alterations in peripheral blood CD4+ T-cell (Th) subsets as well as related target cells. Effects of dendritic cell dysfunction induced by SARS-CoV-2 exhibited decreased expression of cell-surface HLA-DR, CCR7 as well as co-stimulatory molecules CD80 and CD86, suggesting reduced antigen presentation, migratory and activation capacities of peripheral blood dendritic cells. SARS-CoV-2-specific Th cells could be detected as early as days 2-4 post-symptom onset, whereas the prolonged lack of SARS-CoV-2-specific Th cells was associated with severe and/or poor COVID-19 outcome. Firstly, in acute COVID-19 the frequency of Th1 cell was comparable with control levels, but several studies have reported about upregulated inhibitory immune checkpoint receptors and exhaustion-associated molecules (TIM3, PD-1, BTLA, TIGIT etc.) on circulating CD8+ T-cells and NK-cells, whereas the macrophage count was increased in bronchoalveolar lavage (BAL) samples. Next, type 2 immune responses are mediated mainly by Th2 cells, and several studies have revealed a skewing towards dominance of Th2 cell subset in peripheral blood samples from patients with acute COVID-19. Furthermore, the decrease of circulating main Th2 target cells - basophiles and eosinophils - were associated with severe COVID-19, whereas the lung tissue was enriched with mast cells and relevant mediators released during degranulation. Moreover, the frequency of peripheral blood Th17 cells was closely linked to COVID-19 severity, so that low level of Th17 cells was observed in patients with severe COVID-19, but in BAL the relative number of Th17 cells as well as the concentrations of relevant effector cytokines were dramatically increased. It was shown that severe COVID-19 patients vs. healthy control had higher relative numbers of neutrophils if compared, and the majority of patients with COVID-19 had increased frequency and absolute number of immature neutrophils with altered ROS production. Finally, the frequency of Tfh cells was decreased during acute COVID-19 infection. Elevated count of activated Tfh were found as well as the alterations in Tfh cell subsets characterized by decreased "regulatory" Tfh1 cell and increased "pro-inflammatory" Tfh2 as well as Tfh17 cell subsets were revealed. Descriptions of peripheral blood B cells during an acute SARS-CoV-2 infection werev reported as relative B cell lymphopenia with decreased frequency of "naive" and memory B cell subsets, as well as increased level of CD27hiCD38hiCD24- plasma cell precursors and atypical CD21low B cells. Thus, the emerging evidence suggests that functional alterations occur in all Th cell subsets being linked with loss-of-functions of main Th cell subsets target cells. Furthermore, recovered individuals could suffer from long-term immune dysregulation and other persistent symptoms lasting for many months even after SARS-CoV-2 elimination, a condition referred to as post-acute COVID-19 syndrome.Copyright © 2022 Saint Petersburg Pasteur Institute. All rights reserved.
ABSTRACT
Increasing number of severe COVID 19 patients develop pulmonary Fibrosis, but the management of this complication is still unclear due to a lack of clinical trials. Aim of this study was to characterize mesenchymal cells (MC) isolated from 10 broncho-alveolar lavage (BAL, at 2 months after discharge) from patients with COVID19 fibrosis (COVID19-f) and to compare them with those isolated from 8 patients with collagen tissue diseaseassociated interstitial fibrosis(CTD-ILD). BAL fluid (BALf) levels of TGFbeta, VEGF, TIMP2, RANTES, IL6, IL8, and PAI1 were assessed by ELISA. Primary MC foci were cultured and expanded in D-MEM +10% FBS, characterized by flow cytometry and osteogenic and adipogenic differentiation. Collagen 1 production (+/-TGF-beta) was tested by WB and mRNA expression. BALf cytokine and GF levels were comparable in the two groups. Efficiency of MC isolation from BAL was 100% in COVID-f compared to 65% in CTD-ILD. MC antigen surface expression of CD105, CD73, CD90 (>90%, respectively), CD45, CD34, CD19 and HLA-DR (<5%, respectively) was comparable. None of MC samples differentiated in adipocytes, while COVID19-f were positive for calcium deposition. COVID19-f MC showed at WB, higher Collagen 1 production with respect to CTD-ILD with TGF-beta stimulation. Our preliminary data suggest MC from COVID19-f share several features with CTD-ILD but might have a higher response to fibrogenic and differentiation signals.
ABSTRACT
Current review presents a brief overview of the immune system dysregulation during acute COVID-19 and illustrates the main alterations in peripheral blood CD4+ T-cell (Th) subsets as well as related target cells. Effects of dendritic cell dysfunction induced by SARS-CoV-2 exhibited decreased expression of cell-surface HLA-DR, CCR7 as well as co-stimulatory molecules CD80 and CD86, suggesting reduced antigen presentation, migratory and activation capacities of peripheral blood dendritic cells. SARS-CoV-2-specific Th cells could be detected as early as days 2–4 post-symptom onset, whereas the prolonged lack of SARS-CoV-2-specific Th cells was associated with severe and/or poor COVID-19 outcome. Firstly, in acute COVID-19 the frequency of Th1 cell was comparable with control levels, but several studies have reported about upregulated inhibitory immune checkpoint receptors and exhaustion-associated molecules (TIM3, PD-1, BTLA, TIGIT etc.) on circulating CD8+ T-cells and NK-cells, whereas the macrophage count was increased in bronchoalveolar lavage (BAL) samples. Next, type 2 immune responses are mediated mainly by Th2 cells, and several studies have revealed a skewing towards dominance of Th2 cell subset in peripheral blood samples from patients with acute COVID-19. Furthermore, the decrease of circulating main Th2 target cells — basophiles and eosinophils — were associated with severe COVID-19, whereas the lung tissue was enriched with mast cells and relevant mediators released during degranulation. Moreover, the frequency of peripheral blood Th17 cells was closely linked to COVID-19 severity, so that low level of Th17 cells was observed in patients with severe COVID-19, but in BAL the relative number of Th17 cells as well as the concentrations of relevant effector cytokines were dramatically increased. It was shown that severe COVID-19 patients vs. healthy control had higher relative numbers of neutrophils if compared, and the majority of patients with COVID-19 had increased frequency and absolute number of immature neutrophils with altered ROS production. Finally, the frequency of Tfh cells was decreased during acute COVID-19 infection. Elevated count of activated Tfh were found as well as the alterations in Tfh cell subsets characterized by decreased "regulatory” Tfh1 cell and increased "pro-inflammatory” Tfh2 as well as Tfh17 cell subsets were revealed. Descriptions of peripheral blood B cells during an acute SARS-CoV-2 infection werev reported as relative B cell lymphopenia with decreased frequency of "naïve” and memory B cell subsets, as well as increased level of CD27hiCD38hiCD24– plasma cell precursors and atypical CD21low B cells. Thus, the emerging evidence suggests that functional alterations occur in all Th cell subsets being linked with loss-of-functions of main Th cell subsets target cells. Furthermore, recovered individuals could suffer from long-term immune dysregulation and other persistent symptoms lasting for many months even after SARS-CoV-2 elimination, a condition referred to as post-acute COVID-19 syndrome.
ABSTRACT
In the context of the COVID-19 pandemic, scientific interest is growing in studying the impact of the proposed vaccination on women's reproductive health. As is known, alterations in the state of the immune system and activation of an autoimmune response can lead to reproductive failure in women and potential complications of subsequent pregnancy. Objective(s): to evaluate the effect of the "Gam-COVID-Vac" on the immune status parameters, the relationship of their changes and the specific immune response to vaccination with the dynamics of the level of autoantibodies in women of reproductive age. The prospective study included 120 women who were vaccinated against COVID-19 with the "Gam-COVID-Vac". The criteria for inclusion in the study were: the age from 18 to 49 years, the absence of COVID-19 in the anamnesis, a negative result of a study on SARS-CoV-2 by PCR and negative results of tests for antibodies of classes G and M to SARS-CoV-2 before vaccination, the absence of pregnancy and serious somatic diseases. The patients were examined twice: immediately before vaccination and 90-100 days after the introduction of the 1st component of the vaccine. The level of IgG antibodies to SARS-CoV-2 after vaccination was assessed using ELISA. Before and after vaccination, the levels of antiphospholipid, anti-nuclear, organ-specific and antihormonal autoantibodies were determined, peripheral blood lymphocytes were immunophenotyped to determine the main subpopulations (CD3, CD4, CD8, CD19, CD5, CD16, CD56), as well as the expression of activation markers of lymphocytes (HLA-DR, CD25, CD147) using monoclonal antibodies. The effectiveness and safety of the combined vector vaccine against COVID-19 were high. Specific IgG antibodies to SARS-CoV-2 were produced in 98.3% of vaccinated women, no serious adverse reactions were observed. After vaccination, there was an increase in the level of some autoantibodies within the reference ranges, only IgM antibodies to phosphatidylethanolamine (PE) and IgG antibodies to DNA increased above the reference values. However, this increase was transient. After vaccination, the following changes in the parameters of the immunogram were observed: an increase in the content of cells with CD3+CD25+, CD19+ phenotype in peripheral blood and a decrease in the content of cells with CD56+CD16+ phenotype within the reference ranges, a decrease in CD147+/CD3+. Weak correlations were noted between these changes in immunogram parameters and the levels of some autoantibodies. The specific antiviral immune response to vaccination did not correlate with the autoimmune response. Vaccination with "Gam-COVID-Vac" is effective and safe and does not lead to disorders in the immune system. The observed increase in the level of autoantibodies to PE and DNA is transient. Changes in the parameters of the immune status within the reference ranges may be due to vaccination and the development of a specific antiviral immune response. Copyright © 2022, SPb RAACI.
ABSTRACT
In the context of the COVID-19 pandemic, scientific interest is growing in studying the impact of the proposed vaccination on women's reproductive health. As is known, alterations in the state of the immune system and activation of an autoimmune response can lead to reproductive failure in women and potential complications of subsequent pregnancy. Objective: to evaluate the effect of the "Gam-COVID-Vac” on the immune status parameters, the relationship of their changes and the specific immune response to vaccination with the dynamics of the level of autoantibodies in women of reproductive age. The prospective study included 120 women who were vaccinated against COVID-19 with the "Gam-COVID-Vac”. The criteria for inclusion in the study were: the age from 18 to 49 years, the absence of COVID-19 in the anamnesis, a negative result of a study on SARS-CoV-2 by PCR and negative results of tests for antibodies of classes G and M to SARS-CoV-2 before vaccination, the absence of pregnancy and serious somatic diseases. The patients were examined twice: immediately before vaccination and 90-100 days after the introduction of the 1st component of the vaccine. The level of IgG antibodies to SARS-CoV-2 after vaccination was assessed using ELISA. Before and after vaccination, the levels of antiphospholipid, anti-nuclear, organ-specific and antihormonal autoantibodies were determined, peripheral blood lymphocytes were immunophenotyped to determine the main subpopulations (CD3, CD4, CD8, CD19, CD5, CD16, CD56), as well as the expression of activation markers of lymphocytes (HLA-DR, CD25, CD147) using monoclonal antibodies. The effectiveness and safety of the combined vector vaccine against COVID-19 were high. Specific IgG antibodies to SARS-CoV-2 were produced in 98.3% of vaccinated women, no serious adverse reactions were observed. After vaccination, there was an increase in the level of some autoantibodies within the reference ranges, only IgM antibodies to phosphatidylethanolamine (PE) and IgG antibodies to DNA increased above the reference values. However, this increase was transient. After vaccination, the following changes in the parameters of the immunogram were observed: an increase in the content of cells with CD3+CD25+, CD19+ phenotype in peripheral blood and a decrease in the content of cells with CD56+CD16+ phenotype within the reference ranges, a decrease in CD147+/CD3+. Weak correlations were noted between these changes in immunogram parameters and the levels of some autoantibodies. The specific antiviral immune response to vaccination did not correlate with the autoimmune response. Vaccination with "Gam-COVID-Vac” is effective and safe and does not lead to disorders in the immune system. The observed increase in the level of autoantibodies to PE and DNA is transient. Changes in the parameters of the immune status within the reference ranges may be due to vaccination and the development of a specific antiviral immune response. © 2022, SPb RAACI.
ABSTRACT
Os bancos de sangue de cordao umbilical e placentario (BSCUP), os laboratorios de processamento de medula ossea/ sangue periferico para transplante e os centros de tecnologia celular, passaram a receber a denominacao comum de Centros de Processamento Celular - CPC. O pais tem BSCUP 14 unidades publicas e 19 de natureza privada, totalizando 33 BSCUP. Uma analise retrospectiva dos relatorios da ANVISA identifica que em 2003 foram coletadas 26 unidades, com desqualificacao de 15,38% delas, o crescimento da coleta foi exponencial e dez anos depois, em 2013, foram coletadas 13.995 unidades (5,82% de desqualificacao). Em 2020, houve uma diminuicao expressiva de coletas, reflexo da pandemia de COVID-19: 4.918 unidades (desqualificacao de 12,69%). Este tipo de produtividade compromete a viabilidade financeira destes servicos, e encontrar formas de otimizar bolsas desqualificadas por volume ou quantidade de celulas para demais finalidades e uma vertente de gestao que deve ser estabelecida. O objetivo deste projeto foi a coleta de segmentos de cordao umbilical das unidades ja previamente validadas pelos BSCUP para extracao de celulas tronco, caracterizacao imunofenotipica e producao de meio condicionado isento de soro fetal bovino. A obtencao do meio condicionado (MC) da cultura de celulas tronco. Tem crescido cada vez mais o interesse pelo uso dos fatores de crescimento, citocinas e moleculas sinalizadoras livres no MC alem das vesiculas extracelulares, que se tornaram relevantes, tanto para diagnostico como para terapeutica, inclusive para aplicacoes oftalmologicas. Neste campo, identificamos a DOS que impacta profundamente a qualidade de vida das pessoas. Ha 15 anos o Laboratorio de Biologia Celular tem desenvolvido o soro autologo, para atendimento dos pacientes refratarios aos tratamentos convencionais e farmacologicos disponiveis, em especial aqueles pacientes submetidos ao Transplante de Medula Ossea e que desenvolveram DOS2ario a doenca de enxerto versus hospedeiro. No entanto, existem pacientes com impossibilidade de acesso venoso ou com sorologias reagentes para doencas infecciosas que sao impedidos de utilizar o produto. Diante disto, optou-se por produzir o MC de celulas tronco de cordao umbilical de parturientes jovens e sem comorbidades para obtencao do secretoma das celulas para avaliacao terapeutica na DOS. Um segmento do cordao umbilical foi retirado e processado seguido de plaqueamento e expansao para posterior identificacao de adesao ao plastico, caracterizacao imunofenotipica por citometria de fluxo utilizando marcadores como CD11b, CD13, CD14, CD34, CD31, CD36, CD45,CD73, CD90, CD 105, CD106 e HLA-DR. Todas as amostras tiveram adesao ao plastico com aspecto fibroblastoides e perfil imunofenpotipico corrobora com o determinado pela SITC. Para a obtencao de MC foram semeadas CTMcup ate 70% de confluencia e foram submetidas ao wash out, recebendo meio de cultura DMEM-F12 aditivado por 48 horas. Apos isto, foi coletado 60mL do secretoma das celulas para o experimento especificos in vitro. Copyright © 2022
ABSTRACT
Introducao: A Leucemia Mieloide Aguda (LMA) e uma doenca agressiva, e em geral, de prognostico reservado. O tratamento com intuito curativo e realizado com altas doses de quimioterapia, seguido ou nao por transplante de medula ossea (TMO) alogenico. Porem, a recidiva ainda representa um desafio a ser superado, levando a busca de novas opcoes terapeuticas, como o inibidor de bcl-2, Venetoclax. Objetivo: Relatar o caso de um paciente jovem com LMA recidivada com resposta ao tratamento baseado em Venetoclax, seguido por TMO alogenico. Metodo: Levantamento de dados do prontuario e revisao da literatura. Relato do caso: VSV, sexo masculino, 21 anos, diagnosticado com LMA em 18/02/2020, mielograma com 60,4% blastos, com fenotipo CD45+ intermediario;CD34+;CD13+;CD33 parcial;CD64 parcial;HLA-DR parcial;MPO parcial e cariotipo 46, XY [20]. Sem possibilidade de avaliacao molecular da doenca. O paciente recebeu tratamento de inducao padrao (D3A7) atingindo remissao completa apos um ciclo e seguindo com consolidacao com 3 ciclos de ARA-C 3g/m2 ate maio de 2020 (optou-se por nao realizar o 4ciclo devido a pandemia por COVID19). Apresentava doenca residual minima (DRM) negativa em reavaliacao medular de agosto de 2020, mantendo-se ate junho de 2021, quando apresentou recidiva com 33,8% de blastos em imunofenotipagem de reavaliacao. Internado em julho de 2021 para QT de resgate com FLAG, evoluiu com choque septico e insuficiencia respiratoria, sendo necessario suporte em unidade de terapia intensiva. Apos recuperacao clinica, obteve novamente DRM negativa, sendo encaminhado para TMO alogenico aparentado (irma "full match"). Entretanto, enquanto aguardava o transplante, apresentou nova recidiva (IF com 5,4% de blastos), sendo optado por tratamento com Venetoclax + Azacitidina, com reducao de DRM para 1,5%. Recebeu o segundo ciclo de Venetoclax combinado com citarabina, devido a indisponibilidade da Azacitidina, seguido por DRM negativa. O paciente foi submetido ao TMO alogenico em 31/03/22, com avaliacao medular no D+60 com quimerismo de 100%, mantendo DRM negativa no D+120. Discussao: O uso do inibidor de BCL-2 (Venetoclax), em combinacao com agentes hipometilantes ou doses baixas de citarabina, foi aprovado para pacientes recem-diagnosticados com LMA inelegiveis para quimioterapia intensiva, revolucionando o tratamento da doenca. Publicacoes recentes vem demonstrando novos beneficios dessa associacao, tanto previamente ao TMO (em primeira linha ou com doenca recidivada), como na terapia de resgate para recidiva pos-TMO. Tambem tendo sido evidenciado sucesso terapeutico em faixas etarias menores (incluindo criancas). Esses novos estudos motivaram o uso de terapia baseada em venetoclax nesse paciente jovem, com doenca recidivada, conseguindo atingir e manter DRM negativa. Conclusao: O caso relatado demonstra eficacia do Venetoclax (em combinacao com hipometilante ou citarabina) em promover remissao profunda da doenca, tornando o paciente habil para o transplante e aumentando a probabilidade de sobrevida a longo prazo. Copyright © 2022
ABSTRACT
Introducao: A remissao espontanea de leucemia mieloide aguda e um evento muito raro, e suas descricoes na literatura medica geralmente envolvem um evento infeccioso grave. Mais recentemente, a COVID-19 tambem foi descrita como um dos fatores associados a tal fenomeno, e a hipotese mais aceita para o mesmo e de que ha uma hiperativacao imune que tambem apresenta efeito antitumoral. Relato de caso: Paciente feminina, de 54 anos, foi admitida no Hospital Brigadeiro com historia de alteracao de nivel de consciencia e lesao em pododactilo direito que motivou a procura do pronto socorro. No hemograma da admissao, apresentava hemoglobina 8,2 g/dL VCM 87, plaquetometria 11.000/mm3, leucocitos 99560 com 88% de celulas de medio a grande tamanho, alta relacao nucleo citoplasma nucleolos evidentes e presenca frequente de bastonete de Auer. A imunofenotipagem de sangue periferico,22,4% destas celulas revelaram marcacao CD13, CD15++, CD33++/+++, CD34 par, CD38+++, CD64+, CD71+, CD117, CD123+, HLA-DR, MPO par, alem de 18,6% de monocitos maduros, com diagnostico de leucemia mieloide aguda. Foi colhido teste rapido para COVID-19 antes da internacao, com resultado positivo. Nos 3 dias que se seguiram, a paciente evoluiu com desconforto respiratorio, taquipneia, e a tomografia de torax revelou ainda broncopneumonia sobreposta a COVID-19, o que resultou em intubacao orotraqueal por insuficiencia respiratoria. Durante a intubacao, a paciente evoluiu com parada cardiorrespiratoria em atividade eletrica sem pulso, com retorno a circulacao espontanea apos 10 minutos. Dada a gravidade do quadro, foi optado por nao iniciar inducao quimioterapica. Ao longo da internacao em UTI, a paciente fez uso de piperacilina tazobactam com vancomicina nos primeiro 7 dias de internacao, teve Pseudomonas aeruginosa multissensivel isolada de aspirado traqueal, e recebeu meropenem e teicoplanina por novo evento de choque septico, por 7 dias. Sua internacao em UTI durou 41 dias, contudo, ao longo dos primeiros 30 dias de internacao houve clareamento de blastos em sangue periferico, e parametros como hemoglobina e plaquetometria tambem evoluiram com melhora. Ao final do 42degree dia, quando recebeu alta da UTI para a enfermaria, foi feita avaliacao medular, quel nao revelou blastos com as caracteristicas imunofenotipicas previamente descritas. A paciente se encontra atualmente internada e com remissao citomorfologica e sem doenca residual minima pela imunofenotipagem. Nao foi administrada qualquer terapia antineoplasica, somente hidroxiureia para fins de citorreducao, nos primeiros 7 dias do quadro. Discussao: O caso evidencia uma rara e ainda nao compreendida remissao de leucemia mieloide aguda apos infeccao por COVID-19 e complicacoes infecciosas bacterianas graves. Casos semelhantes ja foram descritos em sepse grave e COVID-19 isoladamente, mas a evolucao natural do quadro envolve a recaida da doenca apos alguns meses do quadro agudo. A terapia antineoplasica, por sua vez, e indispensavel para a remissao sustentada. A explicacao mais aceita para o fenomeno e de que um mecanismo imunologico ativado e producao excessiva de citocinas pro-inflamatorias, sobretudo na COVID-19, destruiria as celulas neoplasicas, que poderiam inclusive ser infectadas pelo virus. Conclusao: Apesar de o mecanismo exato da remissao ser desconhecido, o caso apresentado reforca o papel da imunidade do individuo no tratamento antineoplasico e justifica a imersao em mais estudos envolvendo imunoterapia para a leucemia mieloide aguda. Copyright © 2022
ABSTRACT
Background: 30-50% of pediatric acute liver failure (PALF) is of unknown cause, or indeterminate PALF (iPALF), which frequently results in transplantation. A subset of iPALF is characterized by T-cell activation. Some children with acute severe hepatitis of unknown etiology (SH-u) can evolve to iPALF. Hemophagocytic Lymphohistiocytosis (HLH) is a well-defined hyper-inflammatory condition characterized by marked T-cell activation and frequent severe liver involvement. We postulated SH-u evolving to iPALF has hyper-inflammatory immune signatures that are identifiable before fulfilling PALF criteria, and might overlap with those seen in HLH. We compared the immune dysregulation signatures of children with HLH to children with SH-u, PALF cases with known etiologies, and healthy pediatric controls (HC). Method(s): Between 2019-2021, we prospectively enrolled 14 patients hospitalized with SH-u and 7 patients with PALF of known etiologies. Age dependent standard of care diagnostic studies were performed. SH-u was defined as ALT> 500, INR < 2, and no hepatic encephalopathy. HLH enrollees fulfilled the 2004 diagnostic criteria. High dimension T-cell immunophenotyping, cytokine and chemokine profiling (71-plex) was done for SH-u, HLH (n=5), and HC (n= 16) peripheral blood samples. T cell activation was prospectively identified by co-expression of surface activation markers HLA-DR and CD38. Based on immune studies in HC, CD8 effector memory (EM) activation of >9% distinguished patients with significant T cell activation from HC. This cutoff of >9% was therefore used to identify SH-u patients with T cell activation. Normally distributed data were compared by either a two-tailed t-test or an ordinary One-Way Anova test with Turkey's multiple comparison test. Non-normally distributed data were compared by either the Mann-Whitney test or Kruskal-Wallis test with Dunn's multiple comparisons test. P Values < 0.05 were deemed significant. Result(s): Subjects ranged in age from 4 days to 19 years old. There were no age or sex differences between the groups. One SH-u patient had prior COVID infection, but no subject met MIS-c criteria. Two SH-u patients ultimately evolved to PALF criteria with INR> 2. All patients with SH-u had higher CD8 EM T-cell activation (mean +/- SEM = 43.7+/-6.3%;range 9.2 to 81.3;p<0.0001), which was significantly higher than HC (2.9+/-0.5%) and PALF of known etiology (4.0+/-0.9%) . However, the amplitude of T-cell activation was lower in the SH-u group relative to the HLH group (90.3+/-2.7%;p<0.0001), as shown in Figure 1. A similar trend in T cell activation was noted in the CD4 compartment. Overall, the activation in the CD8 compartment was much greater than in CD4. SH-u patients had a decreased CD4/CD8 ratio compared to the PALF group. Despite higher T cell activation in patients with SH-u compared to PALF, ferritin, often used to screen for hyper-inflammation, was lower in the SH-u group when compared to PALF group (1240+/-609 vs. 39517+/-32149;p<0.05) and very significantly lower than HLH (32415 +/- 14845;p =0.002). 50% of patients with SH-u etiology had ferritin < 500 mg/L. Cytopenia (hemoglobin < 9 g/dL, ANC < 1000/mL, platelets < 100,000/mL) is characteristic of patients with HLH. Despite overlapping T cell activation with HLH, the SH-u cohort had only 2 patients with this feature: one with thrombocytopenia and one with neutropenia. Supportive of this higher T cell activation, we noted chemokines driven by IFN-gamma, CXCL9 and CXCL10, to be elevated in SH-u compared to HCs and comparable to HLH patients. As a proof of concept, 1 patient with SH-u and thrombocytopenia underwent treatment with Emapalumab (an IFN-gamma blocking antibody) along with other immune modulators both with complete liver, immune, and platelet count recovery. Conclusion(s): Our cohort of SH-u was associated with significant T-cell activation. In addition, our patients with HLH and SH-u with T cell activation had similar increased IFN-gamma activity. Despite this T cell activation, ferritin values were significantly lower in SH-u compared to PALF without T cell activation. Ferritin may not be a reliable screening test to identify SH-u patients with significant T cell activation. If validated in a larger well-defined population of SH-u, the results may suggest a role for IFN-gamma blocking agents in a subgroup of SH-u prior to PALF or before bone marrow failure development.
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Background: Besides the ability to induce antigen-specifc responses, vaccines can be endowed with immunomodulatory properties including the capacity to induce or downregulate regulatory T cells (Treg) that suppress adaptative and autoreactive immune responses (1). Objectives: We asked if an anti-SARS-CoV-2 mRNA vaccine could also induce an accumulation of Treg cells in patients with mixed cryoglobulinemia vasculitis (MCV), who have a defciency of Treg cells (2) and in healthy individuals. We also investigated immunologic variables possibly associated with a low immunogenic-ity of SARS-CoV-2 mRNA vaccine in patients with MCV (3). Methods: We analyzed peripheral blood lymphocyte subpopulations and anti-SARS-CoV-2 serological response in 24 patients with MCV and 9 Healthy donors (HD) before and after 2 weeks after the second dose of the Pfzer/BioNTech vaccine. Results: Among MCV patients we found 15 serological responders and 9 non-responders. All 5 seronegative patients treated recently with rituximab had <5 B cells/μ L, whereas the absolute B cell count was increased in 2 of 4 untreated patients due to monoclonal B cell lymphocytosis, with monoclonal cells representing more than 90% of B cells, associated with non-Hodgkin lymphoma. The percentage of pathologic CD21low B cells was signifcantly increased in seronegative patients. Before receiving the Pfzer/BioNTech vaccine, patients with MCV had a signifcantly reduced frequency of Treg cells among CD4+ T cells compared to HD. After the second dose of the vaccine, there was in MCV patients a signifcant increase in the percent and absolute count of Treg among CD4+ T cells Concerning the pre-vaccination distribution of T cells subpopulations, including the percentages and absolute counts of total CD3+, CD4+, CD8+, HLA-DR+ activated, Treg or CD56+ natural killer T cells, we could not reveal any pattern signifcantly associated with lack of serological response to vaccine. Conclusion: Our fndings show that lack of immunoreactivity in patients with MCV may be associated with expansion of pathologic B cells and that anti-SARS-CoV2 mRNA vaccine may induce an increase of Treg cells.
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Background: Several studies have demonstrated immunogenicity after COVID-19 vaccination in patients with autoimmune rheumatic diseases (AIRD) [1], but the differences between mRNA-based and vector vaccines and the cellular responses to COVID-19 vaccines according to distinct immunogenicity in AIRD patients are still unclear. Objectives: To investigate the differences in efficacy and safety between the vector vaccine ChAdOx1 nCoV-19/AZD1222 (Oxford-AstraZeneca) and mRNA-based vaccine mRNA-1273 (Moderna) in patients with AIRD, and to explore the cell-cell interactions between high and low anti-SARS-CoV-2 IgG levels in patients with rheumatic arthritis (RA) by single-cell RNA sequencing (scRNA-seq). Methods: From September 16 to November 15, 2021, we consecutively enrolled 243 participants aged ≥20 years with AIRD who received COVID-19 vaccination, of whom 113 were immunized with AZD1222 and 130 with mRNA-1273. The level of serum IgG antibodies to the SARS-CoV-2 receptor-binding domain on the spike protein S1 subunit was quantifed by electrochemiluminescence immuno-assay at 4-6 weeks after vaccination. Moreover, peripheral blood mononuclear cells were isolated from two RA patient with high anti-SARS-CoV-2 IgG level and four RA patients with low level for scRNA-seq and cell-cell communication signal was analyzed by CellChat. Results: The anti-SARS-CoV-2 IgG seropositivity rate was 78.8% (89/113) for AZD1222 and 83.1% (108/130) for mRNA-1273. The level of anti-SARS-CoV-2 IgG was higher in patients who received mRNA-1273 than in those who received AZD1222 (β: 30.15, 95% CI: 11.67-48.63, p=0.002) (Table 1). Prednisolone-equivalent dose >5 mg/day and methotrexate (MTX) use in AIRD patients, and non-anti-tumor necrosis factor (TNF)-α biologics and Janus kinase (JAK) inhibitor use in RA patients were associated with inferior immunogenicity. ScRNA-seq revealed CD16-monocytes were predominant in RA patients with high anti-SARS-CoV2-IgG antibody level, and enriched pathways related to antigen presentation via major histocompatibility complex class II (MHC class II) were found (Figure 1). HLA-DRA and CD4 interaction was vigorous among all identifed MHC-II pathway and was enhanced in high anti-SARS-CoV2-IgG antibody group. Conclusion: mRNA-1273 and AZD1222 vaccines exhibited differential immunogenicity in patients with AIRD. Enriched pathways related to antigen presentation via MHC class II in CD16-monocytes might be associated with higher anti-SARS-CoV2-IgG level in RA patients and further study is warranted.
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Background: Vaccination is considered efficient in controlling infections incl. SARS-CoV-2. Prior studies showed that patients receiving rituximab (RTX) with low B cell counts are at increased infectious risk (1) and risk of inadequate vaccination responses (2, 3). Thus, the ability to further defne and predict vaccination responses in these patients may guide their optimal protection. Objectives: To assess predictive biomarkers of vaccination responses upon SARS-CoV-2 vaccination in RTX treated patients. Methods: B cell characteristics before vaccination were evaluated to predict responses in 15 patients with autoimmune infammatory rheumatic diseases receiving RTX. 11 patients with rheumatoid arthritis on other therapies (RA), 11 kidney transplant recipients (KTR) and 15 healthy volunteers (HC) served as controls. A multidimensional analysis of B cell subsets and a correlation matrix were performed to identify predictive biomarkers. Results: Signifcant differences regarding absolute B cell counts and specifc subset distribution pattern between the groups were validated at baseline. Here, the majority of B cells from vaccination responders of the RTX group (RTX IgG+) comprised naïve and transitional B cells, whereas vaccination non-responders (RTX IgG-) carried preferentially plasmablasts and double negative (CD27-IgD-) B cells (Figure 1). Moreover, there was a positive correlation between neutralizing antibodies and absolute B cell numbers with B cells expressing HLA-DR and CXCR5 (involved in antigen presentation and germinal center formation) as well as an inverse correlation with CD95 expression and CD21low expression (marker for activation and exhaustion) on B cells. Conclusion: Substantial repopulation of naïve B cells upon RTX therapy appears to be essential for an adequate vaccination response requiring germinal center formation. In contrast, expression of exhaustion markers (CD21low, CXCR5-, CD95+) indicate negative predictors of vaccination responses. These results may guide optimized vaccination strategies in RTX treated patients clearly requiring antigen-inexperienced B cells for appropriate protection.
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The relevance of the current epidemic situation of a new coronavirus infection is determined by new strains of the virus and the registration of cases of re-infection in COVID-19 survivors earlier. In this regard, the questions about the expediency and nature of vaccination of those who have been ill attract close attention, moreover it has affected the formation of the concept of “hybrid immunity”. The aim of this study was to analyze changes in the parameters of the immune system, reflecting their regulatory and functional potential, in response to the introduction of the peptide vaccine EpiVacCorona to persons who have suffered from the new coronavirus infection. To study the features of the formation of hybrid immunity, a retrospective analysis of the observation of 43 study participants was carried out. The inclusion criteria were data confirming COVID-19 in mild and moderate forms of the course in the period from six months to a year ago, a low level or absence of antibodies to the nucleocapsid protein SARS-CoV-2, a negative PCR result for the presence of the SARS-CoV-2 virus, the absence of comorbid pathology. The subpopulation composition, regulatory and functional potential of the immune system were determined by flow cytofluorimetry using a set of monoclonal antibodies corresponding to the goals. 21 days after the administration of a single dose of EpiVacCorona, antibodies to the vaccine peptide antigens were registered in all study participants at the highest coefficient of positivity values for the SARS-CoV-2-IgG-Vector test system used. In addition, there was a fourfold increase in the number of specific IgG to the N protein. A specific immune response to recombinant SARS-CoV-2 antigens was accompanied by a decrease in the circulation of the number of monocytes expressing TLR4, T helper cells expressing the interaction coreceptor with antigen-presenting cells, unconnected B memory with an increase in the number of B lymphocytes expressing the CD40 T-B coreceptor interaction molecule. The remaining differences in the functioning of the immune system identified in patients with COVID-19 before the vaccination in comparison with the control data have not changed. The differences consist in a decrease in the proportion of monocytes expressing HLA-DR, an increase in the expression of interaction molecules on T and B lymphocytes, an increase in the number of Treg, B1 cells, activated B lymphocytes with a decrease in the proportion of suppressor Breg and B memory. The totality of the presented data demonstrates that the COVID-19 infection that preceded vaccination in mild and moderate clinical course contributes to the formation of immunological memory, which made it possible to form a secondary immune response even to a single injection of peptide antigens of the virus.
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The presence of coronavirus-associated myocarditis remains controversial despite elevations in cardiac troponin and natriuretic peptide in many patients. Aim. To assess the morphological changes in the myocardium of patients who died due to coronavirus disease 2019 (COVID-19) and compare them with the intravital level of cardiac biomarkers. Material and methods. A total of 420 hospital charts and 77 autopsies of those who died from COVID-19 were analyzed. In 15 of 77 cases (19%) with histologically suspected myocarditis, an immunohistochemical examination of the myocardium with antibodies to CD3, CD45, CD8, CD68, CD34, Ang1, VWF, VEGF, HLA-DR, MHC1, C1q, VP1 of enteroviruses was performed, and in 8 patients with immunohistochemically confirmed myocarditis (10%) — polymerase chain reaction for SARS-CoV-2. Results. Hemorrhage, intramural thrombosis, necrosis of non-coronary origin, myocardial infarction and lymphocytic myocarditis were detected in 43%, 10%, 17%, 19% and 10% of cases, respectively, without coronavirus N and E gene sequences in the myocardium. Dysplasia, hyperplasia and hypertrophy of the vascular endothelium, expression of Ang1, VWF, VEGF, MHC1, C1q, VP1 of enteroviruses were determined in 100, 100, 87, 100, 75 and 62% of cases of myocarditis, respectively. There were no significant correlations between inflammatory biomarkers and myo-carditis. Conclusion. The main morphological manifestation of COVID-19 in the myo-cardium is the so-called endotheliitis with dysplasia and endothelial activation, leading to hemorrhages, intramural thrombosis and necrosis. There is no con-vincing evidence of a direct involvement of coronavirus in myocarditis induction.