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Background: SAMD9L is a tumor suppressor involved in regulating the proliferation and maturation of cells, particularly those derived from the bone marrow, and appears to play an important role in cerebellar function. It can be activated in hematopoietic stem cells by type I and type II interferons. It has been hypothesized to act as a critical antiviral gatekeeper regulating interferon dependent demand driven hematopoiesis. Gain of function mutations can present with an immunodeficiency due to transient severe cytopenias during viral infection. Case presentation: We report a 3-year-old boy born full term with a history of severe thrombocytopenia requiring transfusions, developmental delay, ataxia, seizure disorder, and recurrent severe respiratory viral infections. His infectious history was significant for respiratory syncytial virus with shock requiring extracorporeal membrane oxygenation complicated by cerebral infarction and a group A streptococcus empyema, osteomyelitis requiring a left below the knee amputation, and infections with rhinovirus, COVID-19, and parainfluenza requiring hospitalizations for respiratory support. Initial immunologic evaluation was done during his hospitalization for parainfluenza. His full T cell subsets was significant for lymphopenia across all cell lines with CD3 934/microL, CD4 653/microL, CD8 227/microL, CD19 76/microL, and CD1656 61/microL. His mitogen stimulation assay to phytohemagglutinin and pokeweed was normal. Immunoglobulin panel showed a mildly decreased IgM of 25 mg/dL, but normal IgA and IgG. Vaccine titers demonstrated protective titers to 12/22 pneumococcus serotypes, varicella, diphtheria, mumps, rubella, and rubeola. Repeat full T cell subsets 6 weeks later revealed marked improvement in lymphocyte counts with CD3 3083/microL, CD4 2101/microL, CD8 839/microL, CD19 225/microL, and CD1656/microL. A primary immunodeficiency genetic panel was ordered and positive for a heterozygous SAMD9L c.1549T>C (p.Trp517Arg) mutation classified as a variant of unknown significance. Discussion(s): This patient's history of severe viral infections, ataxia, thrombocytopenia, and severe transient lymphopenia during infection is suggestive of a SAM9DL gain of function mutation. Protein modeling done by the laboratory suggests this missense mutation would affect protein structure. The mutation found has been observed in individuals with thrombocytopenia. This case highlights the importance of immunophenotyping both during acute illness and once recovered.Copyright © 2023 Elsevier Inc.
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Background & Aim: Immunological characteristics of COVID-19 show pathological hyperinflammation associated with lymphopenia and dysfunctional T cell responses. These features provide a rationale for restoring functional T cell immunity in COVID-19 patients by adoptive transfer of SARS-CoV-2 specific T cells. Methods, Results & Conclusion(s): To generate SARS-CoV-2 specific T cells, we isolated peripheral blood mononuclear cells from 7 COVID-19 recovered and 13 unexposed donors. Consequently, we stimulated cells with SARS-CoV-2 peptide mixtures covering spike, membrane and nucleocapsid proteins. Then, we culture expanded cells with IL-2 for 21 days. We assessed immunophenotypes, cytokine profiles, antigen specificity of the final cell products. Our results show that SARSCoV- 2 specific T cells could be expanded in both COVID-19 recovered and unexposed groups. Immunophenotypes were similar in both groups showing CD4+ T cell dominance, but CD8+ and CD3+CD56+ T cells were also present. Antigen specificity was determined by ELISPOT, intracellular cytokine assay, and cytotoxicity assays. One out of 14 individuals who were previously unexposed to SARS-CoV-2 failed to show antigen specificity. Moreover, ex-vivo expanded SARS-CoV-2 specific T cells mainly consisted of central and effector memory subsets with reduced alloreactivity against HLA-unmatched cells suggesting the possibility for the development of third-party partial HLA-matching products. In conclusion, our findings show that SARSCoV- 2 specific T cell can be readily expanded from both COVID-19 and unexposed individuals and can therefore be manufactured as a biopharmaceutical product to treat severe COVID-19 patients.Copyright © 2023 International Society for Cell & Gene Therapy
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Commercially available human platelet lysate (hPL) is produced using expired human platelets obtained from accredited blood banks in the United States. These platelets were originally intended for use in patient transfusion. The safety of platelets used in transfusion is managed by the U.S. Food Drug Administration (FDA), as well as the American Association of Blood Banks (AABB). These organizations set standards, including testing for transmissible diseases. The United States record for blood safety is well established, with extremely low rates of disease transmission, making the platelet units used for hPL manufacture low risk. The Covid-19 pandemic has increased awareness of emerging infectious diseases, even though transmission of Covid-19 via blood transfusion has not been documented. For that reason, gamma irradiated hPL offers an additional safety measure in the clinic. Chimeric Antigen Receptor (CAR) expressing T-cells have demonstrated potent clinical efficacy in patients with hematological malignancies. In addition, there are several phase I clinical trials evaluating the use of CAR-T-cells for targeting of solid tumorassociated antigens. Some of the challenging issues found during production of CAR-T cells are the efficiency of T cell transduction to generate CAR-T cells, the expansion of T cells to clinically relevant numbers and the long-term survival in vivo of the therapeutic cells. The use of human platelet lysate has been demonstrated to improve these issues. Our data from experiments performed using human CD3+ from donors demonstrates that human platelet lysates offer an improved performance on T cell expansion versus serum derived products. hPL efficiently promotes T cell expansion, with higher cell yields and lower cell exhaustion rate. Additionally, we efficiently developed a protocol for suspension culture of T cells, which could facilitate the large-scale expansion of allogeneic CAR-T cells.
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Introduction: TBX1 haploinsufficiency is an inborn error of immunity with the phenotype of DiGeorge Syndrome. DiGeorge Syndrome has variable immunodeficiency associated with grade of thymic hypoplasia ranging from mild with no infections to severe requiring thymus implant. Enterovirus is an example of an opportunistic infection that can be fatal in these patients. Case Presentation: A 1 year old girl with TBX1 haploinsufficiency complicated by Tetralogy of Fallot, pulmonary atresia, high arched palate, and vesicovaginal fistula presented for elective cardiac repair surgery from another country due to failure to thrive and cyanosis. She had no prior infectious history but was on sulfamethoxazole-trimethoprim for prophylaxis. She was asymptomatic with a negative COVID test but no other infectious studies performed. Immediately postoperatively, she was febrile and nasal respiratory viral panel was positive for rhinovirus/enterovirus with increased procalcitonin and leukocytosis with left shift. She decompensated with multi-organ failure and cardiac arrest on postoperative day two. She was cannulated to veno-arterial extracorporeal membrane oxygenation (ECMO). Pre-operatively, she had a normal absolute lymphocyte count. No thymus tissue was observed in surgery. She had profound CD3 lymphopenia to 130 cells/cmm when critically ill. Enteroviral meningitis was suspected as no infectious, cardiac, or other pathology could be identified causing decompensation. Enteroviral serum polymerase chain reaction (PCR) test was negative while lumbar puncture deferred due to clinical status. She was treated with immunoglobulin. Offlabel investigational drug pocapavir was considered but deferred to patient's irreversible neurological status. The patient was disconnected from ECMO and expired. Discussion(s): Though we cannot confirm that this patient had enteroviral meningitis, invasive enteroviral infections are associated with elevated transaminases, coagulopathy, and seizures all present in our patient. There has also been reported negative serum enteroviral PCR but positive CSF enteroviral PCR in an immunodeficient patient. Additionally, this case highlights the importance of immunologic evaluation in patients with DiGeorge Syndrome and questions if asymptomatic viral screening for viruses like enterovirus should be considered pre-operatively in patients with inborn errors of immunity. This case highlights potential treatment options for invasive enteroviral infections in patients with inborn errors of immunity: high dose immunoglobulin, fluoxetine, and pocapavir.Copyright © 2023 Elsevier Inc.
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Background: The emergence of the COVID-19 pandemic saw an increased use of cryopreserved (cryo) peripheral blood (PB) grafts for allogeneic hematopoietic stem cell transplantation (HSCT). Outcomes of patients receiving either fresh or cryo grafts have yielded heterogeneous results. Herein, we retrospectively compared the outcomes of patients receiving fresh and cryo grafts at a single center.(Table Presented)Methods: Between 2019 and 2021, we reviewed data from 380 patients;167 (44%) received a fresh, and 213 (56%) received a cryo graft. Patients underwent myeloablative or nonmyeloablative HSCT from either matched or mismatched, related or unrelated donors. Cell doses were determined by number of donor cells collected and recipient weight at infusion. Engraftment, disease risk (DR) and acute GVHD were classified based on established criteria. Donor chimerism was collected at approximately day 28 and day 80 after HSCT. Unadjusted and adjusted estimates of overall survival (OS), relapse, and non-relapse mortality (NRM) as a function of time were obtained. The adjusted odds (grades III-IV acute GVHD) and the adjusted cause-specific hazard of failure (all other outcomes) were compared between the 2 groups. with the use of logistic (Figure Presented) or Cox regression, respectively. These models were adjusted for various factors known to be associated with each outcome. Result(s): The characteristics of patients between the 2 groups are shown in Table 1. There was a higher proportion of patients with high/very high DR in the fresh graft group (Table 1). Median time to neutrophil engraftment was 17 and 18 days in fresh vs. cryo, respectively. The adjusted hazard ratio (HR) of neutrophil engraftment (fresh vs. cryo) was 1.07 (95% CI, 0.86-1.34, p=0.54). Median time to platelet engraftment was 13 and 15 days, respectively, and the adjusted HR of platelet engraftment was 1.32 (1.06-1.65, p=0.01). Day 28 chimerism data were available for 272 patients (113 fresh and 159 cryo). At day 28, donor CD3 chimerism was below 50% in 5 out of 113 (4.4%) and 17 out of 159 (10.7%) patients receiving fresh and cryo grafts, respectively (p= 0.06). At day 80, 3 out of 121 (2.5%) patients in the fresh group and 4 out of 165 (2.4%) in the cryo group had CD3 chimerism below 50%. The adjusted HRs (fresh vs. cryo) for death and NRM were 0.83 (0.54-1.28, p=0.40) and 0.71 (0.38-1.33, p=0.29), respectively (Figures 1 and 2). The adjusted HR for relapse was 0.65 (0.42-0.99, p=0.05) (Figure 3). The adjusted odds ratio (fresh vs. cryo) for grades III-IV GVHD was 1.65 (0.94-2.9, p=0.07). Conclusion(s): In this single-center retrospective study we observed numerically better outcomes with fresh grafts relative to cryo grafts for all examined endpoints with the exception of grades III-IV aGVHD, although none of the differences were definitive with the possible exception of relapse and platelet engraftment. Further studies are needed to confirm our observations.Copyright © 2023 American Society for Transplantation and Cellular Therapy
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Introduction/Aim: Coronavirus disease 2019 (COVID-19) is a novel viral infection that can cause severe pneumonia and acute respiratory failure;however, the mechanism of disease progression is still unclear. The aim of this study is to evaluate inflammatory cells in the lung by analysing cell populations of bronchial aspirates of COVID-19 pneumonia. Method(s): Eligible cases were diagnosed as COVID-19, confirmed by SARS-CoV-2 PCR. All cases had developed severe COVID-19 pneumonia and undergone invasive positive pressure ventilation for the treatment of respiratory failure. Bronchial aspirates were collected during endotracheal intubation, and SARS-CoV-2 PCR was done. The populations of obtained cells from bronchial aspirates were examined by Giemsa staining and immunohistochemical staining of CD3, CD4, CD8, CD20 and CD68 antigens. Bronchial aspirates were cultured to confirm respiratory bacterial co-infections. Result(s): A total of 14 cases (median age 70;eleven male and three female) were enrolled in this study. Their bronchial aspirates were all positive for SARS-CoV-2 PCR. Bacterial co-infections were developed in 10 cases, including 6 cases of pneumonia/respiratory tract infection, 2 cases of sepsis, and 2 cases of urinary tract infection. Cell populations of bronchial aspirates with or without bacterial co-infections were as follows: neutrophils 33.0% vs. 21.5%;CD3+ mononuclear cells (MNCs) 2.5% vs. 5.8%;CD4+ MNCs 4.6% vs. 3.4%;CD8+ MNCs 3.5% vs. 5.2%;CD20+ MNCs 0.2% vs. 0.1%;CD68+ MNCs 39.7% vs. 38.8%, respectively. Conclusion(s): CD68 antigen is mainly expressed in monocytes/macrophages. CD68+ MNCs were dominant in bronchial aspirates of the cases with severe COVID-19 pneumonia. Our data suggests that CD68+ MNCs, presumably macrophages, would play an essential role during the innate immune response to acute SARS-CoV-2 infection in the lung.
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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.
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Background: The nucleocapsid protein (N-protein) of SARS-CoV- 2 regulates transcription, replication and packaging of the viral genome. Potentially, each of the structural proteins can act as an antigen for the production of specific antibodies and T-cell stimulation. This study evaluates T-cellular immunity to N-protein after infection caused by the SARS-CoV- 2 for up to 9 months. Method(s): Patients who had COVID-19 in 2020 were divided by severity into 3 groups: mild (n = 41), moderate (n = 46), and severe (n = 29). Blood samples were taken 3 times: at 3, 6 and 9 months after infection. Human peripheral blood mononuclear cells (PBMCs) were isolated by density gradient centrifugation and stained with Tag-it Violet vital dye. PBMCs were stimulated with PepTivator SARS-CoV- 2 ProtN (pool of peptides, covering the complete sequence of N-protein);unstimulated cells served as negative control. PBMCs were cultured in AIM-V media for 5-7 days. Cell colonies were detected by microscopy. Relative content (%) of proliferating live T cells (CD3+7AAD-) were evaluated by flow cytometry. Samples were counted positive for antigen-specific T cells (ASCs) to N-protein when both proliferation was >1% compared with negative control and microcolony were observed. Result(s): There were 58.5% positive samples with ASCs to the N-protein in mild, 60.9% in moderate and 48.3% in severe group in 3 months after recovery from COVID-19. There was no difference between groups at this point (p > 0.05, chi2). After 6 months results were: 26.7% positive samples in mild, 21.9% in moderate and 35.0 % in severe group. No differences between groups were observed after 6 months, but percentages of positive samples were less in mild and moderate groups when compared 3d and 6th months (p3-6 < 0.05, chi2). Drastic decreases of ASCs-positives in the mild group was observed after 9 month -only 4.2% (p6-9 < 0.05, chi2). Further decrease in moderate (25.0%) and severe (41.7%) groups was not observed after 9 months. Conclusion(s): T cell immunity to the N-protein of SARS-CoV- 2 was formed after mild, moderate and severe forms of COVID-19 with different effectiveness. The duration of immunity depends on the form of the disease and was stronger in severe group. By the 9th month, the number of positive samples in the group with mild COVID-19 was significantly lower when compared with the moderate and severe groups.
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Background. SARS-CoV-2 infection can be accompanied by neuromuscular disorders. Rhabdomyolysis and Guillain-Barre syndrome have been described repeatedly. There are case reports of inflammatory myopathies manifesting during COVID-19, presenting as dermatomyositis, polymyositis or immune-mediated necrotizing myopathy, with dermatomyositis-like presentations most commonly reported. Larger cases series are from postmortem examinations of COVID-19 patients, where variable inflammatory pathology of the skeletal muscle has been found frequently but without local detection of the actual virus. Thus, autoimmune mechanisms or the systemic interferon response are discussed as causes. We report a case of focal inflammatory myopathy with perimysial pathology of the temporalis muscle occurring with acute, but mild COVID-19. Methods. Case report of clinical observations, cranial MRI, histopathological, and laboratory findings. 3T cranial MRI was performed with gadolinium contrast. Open temporalis muscle biopsy was performed. The sample underwent standard cryohistological studies as well as immunohistochemistry with antibodies against MHC-I and II, CD3, CD4, CD19, CD68, anti-MAC, p62 and MxA. Testing for auto-antibodies was based on immunoblots or ELISA. RT-PCR for SARS-CoV-2 was run with RNA extracted from cryopreserved muscle. Results. A Caucasian woman in her 60s with no history of autoimmune or muscle complaints developed swelling and pain of the right jaw musculature five days after testing positive for SARS-CoV-2 due to respiratory tract symptoms. In addition, she experienced trismus, but no further neuromuscular complaints. The course of respiratory tract symptoms stayed mild. She had been vaccinated previously with single shot SARS-CoV-2 vector vaccine. Due to persistent swelling and complaints, giant cells arteritis was excluded by unresponsiveness to five days oral steroids and sonography of the temporal artery. Cranial MRI was performed nearly four weeks after the SARS-CoV-2 infection and showed marked swelling and oedema of the temporalis muscle. Its biopsy showed numerous CD68 and acid phosphatase positive cells infiltrating from perimysial perivascular foci towards the endomysium with perimysial damage but little damage of adjacent, perifascicular muscle fibres. Muscle fibres did not react with anti-MHC-II, anti-MAC or -MxA. Capillaries did not react with anti-MAC or -MxA. SARS-CoV-2 RNA was not detected in muscle tissue. Serum creatine kinase was not elevated in the subacute phase. Slightly elevated ANA titre led to detection of autoantibodies against proliferating cell nuclear antigen (PCNA). No pathological results for other autoantibodies, including myositis-specific antibodies and anti-ds-DNA, were found in blood. Neither were antibodies against hepatitis C and B viruses. Retesting 15 weeks after infection, anti-PCNA immunoblot was still positive, but ELISA did not indicate a pathologic titre. The swelling, myalgia and trismus regressed spontaneously a month after onset, yet the latter still persists at the time of reporting. Conclusion. Our case diverges from the majority of COVID-19 associated my-ositis reports in the unusual location of the focal myositis and the histopathological pattern of predominantly perimysial damage and histiocytic infiltration. It concurs with the literature as no SARS-CoV2 RNA could be detected in the muscle. Anti-PCNA is associated very rarely with myositis. Other associated disorder (systemic lupus erythematosus, chronic viral hepatitis B or C) were not found. Increased levels of autoantibodies are reported in COVID-19 and mostly attributed to loss of self-tolerance during the acute disease phase. Interestingly, the structural protein M of SARS-CoV-2 appears to interact notably with PCNA in infected cells. Still, the causal connection between the myositis and COVID-19 in this case is based on the close temporal association in the absence of alternative, competing explanations from the medical history and findings.
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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.
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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.
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Background: Belarus started developing a vaccine against SARS-CoV- 2 in 2021. The aim of the first stage of investigation was to evaluate the immunogenicity of the vaccine prototypes (VP) in vitro. Method(s): SARS-CoV- 2 strains (n = 7) were isolated using Vero E6 cells, inactivated with beta-propiolactone and purified. Antigens (Ag) were adsorbed on adjuvants: Al(OH)3 (Ag+AH group) or Al3PO4 (Ag+AP group). The single dose of VP (500 ul) was composed of 10 mug of Ag adsorbed on adjuvants (200 mug of Al3+). Blood samples from SARS-CoV- 2 recovered donors (n = 18) and healthy controls having no history of COVID-19 infection (n = 5) were used. Whole blood and Tag-it Violet labeled PBMCs were cultivated with VP, pure Ag, adjuvants (0.25-1 mug of Ag, 20 mug of Al3+ for probe) or pool of peptides, covering sequence of SARS-CoV- 2 N, S, M-proteins (PP), for 6 h and 7 days respectively. INF-gamma production and proliferation of CD3+ T-cells were assayed by FACS. Result(s): Counts of CD3+IFN-gamma+ T cells were 3.14(2.72-5.13)/ 1x105 CD3+ T cells in negative control (NC), and 12.73(10.09-33.95)/ 1x105 CD3+ T cells in specific positive control (PP) (n = 18, p < 0.0001), proving presence of antigen-specific T cells (ASCs) in donor blood. Samples were considered positive for VP and Ag immunogenicity when numbers of CD3+IFN-gamma+ T cells were 1.5 times greater compared with NC. Both VP types (Ag+AP, Ag+AH) and pure SARS-CoV- 2 isolates stimulated the production of INF-gamma by ASCs, responses ranged from 1 to 4 isolates of 7 studied per donor. Immunogenicity of Ag+AP, Ag+AH was confirmed by proliferation assay. Proliferation level was 1.07(0.97-2.38)% in Ag group with no differences from NC (n = 7, p > 0.5). Proliferation was significantly greater in VP groups compared with Ag: 2.47(1.65-2.68)% in Ag+AH, 4.03(2.56-4.61)% in Ag+AP (p = 0.009 and 0.002, respectively), stimulation of T cell was stronger by Ag+AP compared with Ag+AH (p = 0.009, M-U test). Pure adjuvants did not induce T cells response. There was no T-cell stimulation by Ag and VP in samples obtained from COVID-19 negative donors. Conclusion(s): The VP against SARS-CoV- 2 infection composed of inactivated virus adsorbed on Al(OH)3 and Al3PO4 adjuvants has immunogenic properties proven in two different immunological assays. VP stimulated activation and proliferation of ASCs in vitro suggesting this VP can be used for further preclinical in vivo evaluation.
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Background: mRNA-based COVID-19 vaccines have been reported to rarely cause myocarditis. Although myocardial biopsy is considered gold standard in the diagnosis of myocarditis, no standardized study following COVID-19 vaccination in humans was performed so far. Since heart transplant (HTX) recipients frequently undergo routine myocardial biopsy, we here aimed to investigate effects of COVID-19 vaccination by analyzing myocardial inflammation by state-of-the-art quantitative immunohistochemistry. Method(s): Consecutive patients after HTX who underwent routine endomyocardial biopsies at a median of 167 days before and 136 days after their first COVID-19 vaccination with a mRNA vaccine were included and divided into groups with and without inflammatory response following vaccination, defined as increased number of CD3+ lymphocytes >14/mm2. Patients with histological signs of rejection (ISHLT Grade >1) or >14 CD3+ lymphocytes/mm2 at baseline were excluded. Afterward clinical characteristics of patients with inflammatory response were screened for signs of myocarditis. Result(s): The final analysis included 46 patients with a median age of 63 years and a time post-HTX of 2.4 years. Immunosuppressive therapy remained unchanged between biopsies. 36 (78%) patients remained below the cut-off of 14 CD3+ lymphocytes/mm2. However, in 10 (22%) recipients, we detected significant leucocyte infiltration by quantitative analysis of endomyocardial biopsies following vaccination (4 vs. 33.7 leucocytes/mm2, p = 0.001). Groups did not differ in age (63 vs. 57 years, p = 0.21), body mass index (25 vs. 24 kg/m2, p = 0.24), NYHA-class (>=2 in 19 vs. 10%, p = 0.4), NTProBNP levels (592 vs. 514 ng/L, p = 0.55) or myocardial CD3+ cell count (4.9 vs. 2.6 cells/mm2, p = 0.07) before vaccination. Patients with leucocyte infiltration remained clinical inapparent with stable NYHA class (>=2 in 10 vs. 20%, p = 0.99) and depicted no increased NT-ProBNP levels (514 vs. 478 ng/L, p = 0.03). No hospitalizations due to suspected myocarditis were reported. Conclusion(s): For the first time, we report subclinical myocardial leucocyte infiltration following COVID-19 mRNA vaccination in every fifth patients without clinical consequences during the short observation period.
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Objective: To analyze the risk factors of fatal outcome in patients with severe COVID-19. Method(s): The clinical characteristics of 107 patients with severe COVID-19 admitted in Renmin Hospital of Wuhan University from February 12 to March 12, 2020 were retrospectively analyzed. During the hospitalization 49 patients died (fatal group) and 58 patients survived (survival group). The clinical characteristics, baseline laboratory findings were analyzed using R and Python statistical software. The risk factors of fatal outcome in patients with severe COVID-19 were analyzed with multivariate logistic regression. Result(s): Univariate analysis showed that the two groups had statistically significant differences in age, clinical classification, dry cough, dyspnea and laboratory test indicators (P<0.05 or <0.01). The random forest model was used to rank the significance of the statistically significant variables in the univariate analysis, and the selected variables were included in the binary logistic regression model. After stepwise regression analysis, the patient's clinical type, age, neutrophil count, and the proportion of CD3 cells are independent risk factors for death in severe COVID-19 patients. Dry cough is an independent protective factor for the death of severe COVID-19 patients. Conclusion(s): COVID-19 patients with fatal outcome are more likely to have suppressed immune function, secondary infection and inflammatory factor storm. These factors may work together in severe patients, leading to intractable hypoxemia and multiple organ dysfunction and resulting in fatal outcome of patients. The study indicates that timely intervention and treatment measures against above factors may be effective to save the lives of patients with severe COVID-19.Copyright © 2020 by the Chinese Medical Association.
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Introduction. The continuing circulation of influenza A (H1N1)pdm2009 virus poses a threat of a new epidemic rise. It is known that influenza A (H1N1)pdm2009 is characterized by a severe course, development of life-threatening complications, and high mortality, which is associated not only with the biological features of the pathogen, but also with the induction of deep immunosuppression, especially the interferon system and the cellular-type immune response. The role of influenza in the development of severe forms of the new coronavirus infection COVID-19 has been revealed. The increase of the number of virus strains resistant to various classes of antiviral drugs is of unfavorable importance. This requires the development of new approaches to the treatment of influenza A (H1N1)pdm2009 with the combined use of drugs with complex antiviral and immunocorrective activity. Purpose. To substantiate the combination therapy of influenza A (H1N1)pdm2009 in children using oseltamivir (Tamiflu) and recombinant interferon-alpha2b (Viferon). Materials and methods. Clinical and laboratory examination of 85 children aged from 3 to 5 years with moderate (43) and severe forms (42) of influenza A (H1N1)pdm2009 was carried out. Results and discussion. In patients with severe forms of A(H1N1)pdm2009 influenza, a higher frequency of anamnestic risk groups (85.7%), frequent development of febrile fever (100%), severe intoxication symptoms (100%), symptoms of laryngitis (28.6%), tracheitis (57.1%), bronchitis (76.2%), dyspeptic (42.9%) and cerebral syndromes (62.9%), other complications (80.9%) were revealed. In these patients, more significant changes of the indicators of the cellular type of the immune response were found - the decrease of CD3, CD4, CD8, the humoral type of immune response - the increase of CD20, IgM, circulating immune complexes, the decrease of IgA and IgG, innate immunity factors - the decrease of the metabolic activity of neutrophils, moderate increase of CD16. The combined administration of recombinant interferon-alpha2b (Viferon) and oseltamivir (tamiflu) compared with oseltamivir (tamiflu) monotherapy reduced the duration of fever (Me 2, IQI 1-4 days and Me 3, IQI 2-4 days), intoxication (Me 3, IQI 2-4.5 days and Me 4.5, IQI 3-7 days), symptoms of rhinitis (Me 5, IQI 4-7 days and Me 6.5, IQI 4.5-7.5 days), pharyngitis (Me 5, IQI 4-7 days and Me 6.5, IQI 4.5-7.5 days), tracheitis (Me 2, IQI 1-3 days and Me 3.5, IQI 2-4 days), bronchitis (Me 3, IQI 2-5 days and Me 5, IQI 4-6 days). In this group, the complications developed less frequently (4.5% and 33.3%);there was the decrease of hospitalization time (Me 5, IQI 4-7 days and Me 6.5, IQI 5-7 days). There was the increase of the number of children, who (after 10 days from the start of therapy) had sanitation of the nasopharynx from the virus (90.9% and 61.9%). Conclusion. The high frequency of anamnestic risk groups and the induction of deep immunosuppression, especially the cellular component of immunity, are the cause of the formation of severe forms of influenza A (H1N1)pdm2009. This justified the appointment of combination therapy using the neuraminidase inhibitor oseltamivir (Tamiflu) and recombinant interferon-alpha2b (Viferon), which not only inhibits virus replication, but also has immunocorrective activity against the interferon system and cellular immunity. The high efficiency of the combined administration of recombinant interferon-alpha2b (Viferon) and oseltamivir (Tamiflu) lets to recommend the inclusion of these drugs in the treatment of severe forms of influenza A(H1N1)pdm2009 in children.Copyright © 2020, Professionalnye Izdaniya. All rights reserved.
ABSTRACT
Introduction. The continuing circulation of influenza A (H1N1)pdm2009 virus poses a threat of a new epidemic rise. It is known that influenza A (H1N1)pdm2009 is characterized by a severe course, development of life-threatening complications, and high mortality, which is associated not only with the biological features of the pathogen, but also with the induction of deep immunosuppression, especially the interferon system and the cellular-type immune response. The role of influenza in the development of severe forms of the new coronavirus infection COVID-19 has been revealed. The increase of the number of virus strains resistant to various classes of antiviral drugs is of unfavorable importance. This requires the development of new approaches to the treatment of influenza A (H1N1)pdm2009 with the combined use of drugs with complex antiviral and immunocorrective activity. Purpose. To substantiate the combination therapy of influenza A (H1N1)pdm2009 in children using oseltamivir (Tamiflu) and recombinant interferon-alpha2b (Viferon). Materials and methods. Clinical and laboratory examination of 85 children aged from 3 to 5 years with moderate (43) and severe forms (42) of influenza A (H1N1)pdm2009 was carried out. Results and discussion. In patients with severe forms of A(H1N1)pdm2009 influenza, a higher frequency of anamnestic risk groups (85.7%), frequent development of febrile fever (100%), severe intoxication symptoms (100%), symptoms of laryngitis (28.6%), tracheitis (57.1%), bronchitis (76.2%), dyspeptic (42.9%) and cerebral syndromes (62.9%), other complications (80.9%) were revealed. In these patients, more significant changes of the indicators of the cellular type of the immune response were found - the decrease of CD3, CD4, CD8, the humoral type of immune response - the increase of CD20, IgM, circulating immune complexes, the decrease of IgA and IgG, innate immunity factors - the decrease of the metabolic activity of neutrophils, moderate increase of CD16. The combined administration of recombinant interferon-alpha2b (Viferon) and oseltamivir (tamiflu) compared with oseltamivir (tamiflu) monotherapy reduced the duration of fever (Me 2, IQI 1-4 days and Me 3, IQI 2-4 days), intoxication (Me 3, IQI 2-4.5 days and Me 4.5, IQI 3-7 days), symptoms of rhinitis (Me 5, IQI 4-7 days and Me 6.5, IQI 4.5-7.5 days), pharyngitis (Me 5, IQI 4-7 days and Me 6.5, IQI 4.5-7.5 days), tracheitis (Me 2, IQI 1-3 days and Me 3.5, IQI 2-4 days), bronchitis (Me 3, IQI 2-5 days and Me 5, IQI 4-6 days). In this group, the complications developed less frequently (4.5% and 33.3%);there was the decrease of hospitalization time (Me 5, IQI 4-7 days and Me 6.5, IQI 5-7 days). There was the increase of the number of children, who (after 10 days from the start of therapy) had sanitation of the nasopharynx from the virus (90.9% and 61.9%). Conclusion. The high frequency of anamnestic risk groups and the induction of deep immunosuppression, especially the cellular component of immunity, are the cause of the formation of severe forms of influenza A (H1N1)pdm2009. This justified the appointment of combination therapy using the neuraminidase inhibitor oseltamivir (Tamiflu) and recombinant interferon-alpha2b (Viferon), which not only inhibits virus replication, but also has immunocorrective activity against the interferon system and cellular immunity. The high efficiency of the combined administration of recombinant interferon-alpha2b (Viferon) and oseltamivir (Tamiflu) lets to recommend the inclusion of these drugs in the treatment of severe forms of influenza A(H1N1)pdm2009 in children.Copyright © 2020, Professionalnye Izdaniya. All rights reserved.
ABSTRACT
Introduction: A correct diagnosis of long-term complications in COVID-19 convalescents is of great importance for their therapeutic management. Aim(s): To identify long-term post-COVID-19 damages related to lymphocytes T to search prevention and treatments in future. Material(s) and Method(s): Data from 10 healthy volunteers, 23 patients (moderate/severe) COVID-19 were analysed. Responses of lymphocytes to LPS, ConA, CD3/CD28 mitogens and spike protein were measured in all groups during acute phase, 3- and 6-months post-hospitalization. Main lymphocyte T subpopulations (CD4, CD8) and CD25 expression on the lymphocyte subpopulations were also examined. Result(s): 6 of 13 severe patients were ventilated mechanically. The remaining 6 patients improved after high-flow nasal oxygen therapy and were discharged with normalized respiratory functions, the same as the mild/moderate COVID-19 group. We found that the decrease in total lymphocytes is equally due to the decrease in CD4 and CD8 cells. These changes persist in moderate and severely ill groups over 3 months post-COVID-19. In the case of CD4 lymphocytes, the changes concerned both naive (CD4+/CD25-) and activated (CD4+/CD25+) cells. A significant decrease in the CD8 cells was also observed, but only for the absolute number of naive CD8 lymphocytes (CD8+/CD25-). During the acute COVID-19 a significant impaired responses to ConA and CD3/CD28 were found. No difference in spike protein response was noticed. Conclusion(s): Long-term reductions (3- and 6-months) in the total count of lymphocytes in subpopulations and proliferative responses to mitogens suggest a severe impairment of the cellular immune response.
ABSTRACT
Introduction: Findings on cells and cytokines analyses in BAL are poorly described during and after resolution of non-severe COVID-19 pneumonia, that are the objectives of this study Methods: This study included 54 pts in whom a BAL was performed (04/2020-02/2021) for the diagnosis or follow-up of suspected COVID-19 pneumonia. Cytological and cytokine analyses (IL-1b, IL-6, IL-8, IL-10, TNFa, IFNg, HGF, TGFb) were performed in BAL blinded to the classification of pts into 3 groups: non-COVID (n=20);COVID (n=13) and post-COVID pneumonia (n=24) Results: Total cell counts were not different between groups. % macrophages were similar between non-COVID and COVID groups, while % neutrophils (PN) were higher - although NS in non-COVID and % lymphocytes (Ly) higher in COVID pneumonia (p<0.024). Plasmocytes were observed in 4/13 COVID and in 1/20 of non-COVID BAL (p=0.042). Compared with COVID pneumonia, post-COVID BAL showed lower % PN, but a persistent Ly alveolitis. Alveolar Ly, in COVID/post-COVID groups were mainly of a CD3/CD4-T cell subset. TGFb was not measurable in the 3 groups. IL-10, IFNg and HGF BAL levels were higher in COVID vs non-COVID pneumonia group (p=0.0128, p=0.005, p=0.007). IL-6, IL-8, IL-10, TNFa, IFNg and HGF levels were lower in post-COVID compared to COVID BAL (all p< 0.005). In COVID pts, IL-1b and IL-6 inversely correlated with %Ly in BAL (r=-0.8, p=0.005;r=-0.7, p=0.02, respectively Conclusion(s): Lymphocytic alveolitis associated with plasmacytosis is found in non-severe COVID-19 pneumonia. This alveolitis is associated with the presence of IL-6, IL-8, IL-10, TNFa, IFN g and HGF. BAL alveolitis and cytokine levels normalize in post-COVID-19 pneumonia.
ABSTRACT
Background: Although many aspects of the COVID-19 disease have not yet been clarified, dysregulation of the immune system may play a crucial role in the progression of the disease. In this study, the lymphocyte subsets were evaluated in patients with different severities of COVID-19. Material(s) and Method(s): In this prospective study, the frequencies of peripheral lymphocyte subsets (CD3+, CD4+, and CD8+ T cells;CD19+ and CD20+ B cells;CD16+/CD56+ NK cells, and CD4+/CD25+/FOXP3+ regulatory T cells) were evaluated in 67 patients with confirmed COVID-19 on the first day of their admission. Result(s): The mean age of patients was 51.3 +/- 14.8 years. Thirty-two patients (47.8%) were classified as severe cases, and 11 (16.4%) were categorized as critical. The frequencies of blood lymphocytes, CD3+ cells, CD25+FOXP3+ T cells, and absolute count of CD3+ T cells, CD25+FOXP3+ T cells, CD4+ T cells, CD8+ T cells, and CD16+56+ lymphocytes were lower in more severe cases compared to the milder patients. The percentages of lymphocytes, T cells, and NK cells were significantly lower in the deceased patients. (p= 0.002 and p= 0.042, p=0.006, respectively). Conclusion(s): Findings of this cohort study demonstrated that the frequencies of CD4+, CD8+, CD25+FOXP3+ T cells, and NK cells differed in the severe cases of COVID-19. Moreover, lower frequency of T cells and NK cells could be predictors of mortality in these patients.Copyright © 2022, Shaheed Beheshti University of Medical Sciences and Health Services. All rights reserved.