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Objective: Immunohistochemistry of post-mortem lung tissue from Covid-19 patients with diffuse alveolar damage demonstrated marked increases in chondroitin sulfate and CHST15 and decline in N-acetylgalactosamine-4-sulfatase. Studies were undertaken to identify the mechanisms involved in these effects. Method(s): Human primary small airway epithelial cells (PCS 301-010;ATCC) were cultured and exposed to the SARSCoV- 2 spike protein receptor binding domain (SPRBD;AA: Lys310-Leu560;Amsbio). Expression of the spike protein receptor, angiotensin converting enzyme 2 (ACE2), was enhanced by treatment with Interferon-beta. Promoter activation, DNA-binding, RNA silencing, QPCR, Western blots, ELISAs, and specific enzyme inhibitors were used to elucidate the underlying molecular mechanisms. Result(s): Treatment of the cultured cells by the SPRBD led to increased CHST15 and CHST11 expression and decline in ARSB expression. Sulfotransferase activity, total chondroitin sulfate, and sulfated glycosaminoglycan (GAG) content were increased. Phospho-T180/T182-p38-MAPK and phospho- S423/S425-Smad3 were required for the activation of the CHST15 and CHST11 promoters. Inhibition by SB203580, a phospho-p38 MAPK inhibitor, and by SIS3, a Smad3 inhibitor, blocked the CHST15 and CHST11 promoter activation. SB203580 reversed the SPRBD-induced decline in ARSB expression, but SIS3 had no effect on ARSB expression or promoter activation. Phospho-p38 MAPK was shown to reduce retinoblastoma protein (RB) S807/S811 phosphorylation and increase RB S249/T252 phosphorylation. E2F-DNA binding declined following exposure to SPRBD, and SB203580 reversed this effect. This indicates a mechanism by which SPRBD, phospho-p38 MAPK, E2F, and RB can regulate ARSB expression and thereby impact on chondroitin 4-sulfate and dermatan sulfate and molecules that bind to these sulfated GAGs, including Interleukin-8, bone morphogenetic protein-4, galectin-3 and SHP-2 (Src homology region 2-containing protein tyrosine phosphatase 2). Conclusion(s): The enzyme ARSB is required for the degradation of chondroitin 4-sulfate and dermatan sulfate, and accumulation of these sulfated GAGs can contribute to lung pathophysiology, as evident in Covid-19. Some effects of the SPRBD may be attributable to unopposed Angiotensin II, when Ang1-7 counter effects are diminished due to binding of ACE2 with the SARS-CoV-2 spike protein and reduced production of Ang1-7. Aberrant cell signaling and activation of the phospho-p38 MAPK and Smad3 pathways increase CHST15 and CHST11 production, which can contribute to increased chondroitin sulfate in infected cells. Decline in ARSB may occur as a consequence of effects of phospho-p38 MAPK on RB phosphorylation and E2F1 availability. Decline in ARSB and the resulting impaired degradation of sulfated GAGs have profound consequences on cellular metabolic, signaling, and transcriptional events. Funding is VA Merit Award.Copyright © 2023 The American Society for Biochemistry and Molecular Biology, Inc.
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This study compares the serological antibody level post-COVID-19 vaccine among healthy subjects and psychiatric patients on antidepressant therapy. It also examines the difference in antidepressants' side effects experienced by psychiatric patients following the completion of two vaccine doses. A comparative posttest quasi-experimental study was conducted among healthy subjects and psychiatric patients on antidepressant medication in a teaching hospital in Malaysia. Elecsys Anti-SARS-CoV-2 assay was used to detect the antibody titre between weeks 4 and 12 post vaccination. The antidepressant side-effect checklist (ASEC) was used to monitor the occurrence of antidepressant-related side effects pre-and post-vaccination. 24 psychiatric patients and 26 healthy subjects were included. There was no significant difference in the antibody level between the patients (median = 1509 u/ml) and the healthy subjects (median = 995 u/ml). There was no significant worsening in the antidepressant-related side effects. The antibody level post-COVID-19 vaccine did not differ significantly between patients on antidepressant therapy and healthy subjects. Additionally, there was no change in the antidepressant side effects experienced by the patients following the completion of the vaccine.Copyright © 2022, Research Trends (P) LTD.. All rights reserved.
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Spike protein is a receptor protein that has e role in the entry step of SARS-CoV2. This protein will bind to the ACE2 receptor in the human body and activate TMPRSS2. Inhibition of this protein will prevent the binding of the virus to host cells to spread the infection. This study aims to identify the activity of bioactive compounds of Merremia mammosa (Lour) tuber obtained from LC-MS/MS QTOF analysis of a previous study against the Spike protein of SARS-CoV2 using molecular docking and ADMET analysis. Molecular docking was conducted using SARS-CoV2 spike protein (PDB id. 6M0J) using Maestro Schrodinger software. Results showed that from 206 compounds there are 8 compounds of Merremia mammosa (Lour) that have lower predictive binding energies than standard drugs arbidol, hydroxychloroquine, and chloroquine. Result(s): 206 compounds of Merremia mammosa (Lour) tuber were successfully docked, there were 8 compounds that have docking scores more negative than standard drugs. It indicates that 8 compounds are more active than the positive controls. ADMET study revealed all of those potential ligands had the possibility to be developed as drugs. Conclusion(s): Molecular docking simulations were successfully utilized to identify the potential compounds from Merremia mammosa (Lour) tuber with the activity as an inhibitor for spike protein of SARS-CoV2. Further in vitro assay and purification are needed for future research.Copyright © 2021 Muslim OT et al.
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Objective: Although the neurological and olfactory symptoms of coronavirus disease 2019 have been identified, the neurotropic properties of the causative virus, severe acute respiratory syndrome-associated coronavirus 2 (SARS-CoV-2), remain unknown. We sought to identify the susceptible cell types and potential routes of SARS-CoV-2 entry into the central nervous system, olfactory system, and respiratory system. Method(s): We collected single-cell RNA data from normal brain and nasal epithelium specimens, along with bronchial, tracheal, and lung specimens in public datasets. The susceptible cell types that express SARS-CoV-2 entry genes were identified using single-cell RNA sequencing and the expression of the key genes at protein levels was verified by immunohistochemistry. We compared the coexpression patterns of the entry receptor angiotensin-converting enzyme 2 (ACE2) and the spike protein priming enzyme transmembrane serine protease (TMPRSS)/cathepsin L among the specimens. Result(s): The SARS-CoV-2 entry receptor ACE2 and the spike protein priming enzyme TMPRSS/cathepsin L were coexpressed by pericytes in brain tissue;this coexpression was confirmed by immunohistochemistry. In the nasal epithelium, ciliated cells and sustentacular cells exhibited strong coexpression of ACE2 and TMPRSS. Neurons and glia in the brain and nasal epithelium did not exhibit coexpression of ACE2 and TMPRSS. However, coexpression was present in ciliated cells, vascular smooth muscle cells, and fibroblasts in tracheal tissue;ciliated cells and goblet cells in bronchial tissue;and alveolar epithelium type 1 cells, AT2 cells, and ciliated cells in lung tissue. Conclusion(s): Neurological symptoms in patients with coronavirus disease 2019 could be associated with SARS-CoV-2 invasion across the blood-brain barrier via pericytes. Additionally, SARS-CoV-2-induced olfactory disorders could be the result of localized cell damage in the nasal epithelium.Copyright © Wolters Kluwer Health, Inc. All rights reserved.
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Objective: The factors affecting the transmission of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) antibodies from mother to newborn and the duration of seropositivity rates in these infants have not yet been clearly demonstrated. The objectives of this study were (1) to assess the levels of SARS-CoV-2 spike-specific immunoglobulin G (IgG) in women infected in the pregnancy period and newborns born to these women and (2) to search the transplacental transfer ratio of spike-specific IgG. Method(s): Seventy pregnant women with symptomatic SARS-CoV-2 infection and their newborns were prospectively followed. Anti-SARS-CoV-2 immunoassay was used for the detection of the in vitro quantitative determination of total antibodies to the SARS-CoV-2 spike protein. Discussion(s): Spike-specific IgG was demonstrated in 89.1% (44 of 46) of pregnant women infected more than 14 days before delivery and in 92.6% (43 of 44) of their newborns. Median transfer ratio of spike-specific Ig was 0.87 (interquartile range [IQR], 0.34-0.90), 1.0 (IQR, 0.9-0.29), and 0.81 (IQR, 0.02-1.0) in first trimester (n = 4), second trimester (n = 14), and third trimester (n = 28) pregnant women, respectively. Antibody transfer ratio was correlated with time elapsed from infection (p < 0.001). Peak antibody transfer ratio above 1 was observed at a median 60 to 120 days after the infection from delivery. Antibody transfer ratio was high in pregnant women infected more than 60 days before delivery (p < 0.001). Transfer ratio was significantly higher in the severe-critically symptomatic women (n = 15) than the mild-moderately symptomatic women (n = 55) (p = 0.001). At 3 months, 18 of 25 infants (72%) had spike-specific IgG. Conclusion(s): Timing from infection to delivery and severity of maternal infection are critical in assessing the antibody generation and transport. Higher antibody transfer ratio can be detected in neonates when SARS-CoV-2 infection is present for more than 60 days before birth. Maternally derived antibody can persist for 3 months after birth.Copyright © 2023. The Author(s).
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Cumulative data regardingCOVID-19 infection during pregnancy have demonstrated the ability of SARS-CoV-2 to infect the placenta. However, the mechanisms of SARS-CoV-2 placental viral entry are yet to be defined. SARS-CoV-2 infects cells by binding to the ACE2 receptor. However, SARS-CoV-2 cell entry also requires co-localization of spike protein cleavage by the serine protease TMPRSS2. However, the co-expression of ACE2 and TMPRSS2 in placental cells is debated, raising the question of whether potential non-canonical molecular mechanismsmay be involved in SARS-CoV-2 placental cells' viral entry. Although published data regarding the ability of the SARS-CoV- 2 to infect the fetus are contradicting, the placenta appears to be an immunological barrier to active SARS-CoV-2 infection and vertical transmission;however, the mechanism is unclear. Our experiments demonstrated the ability of the SARS-CoV-2 virus to directly infect the placenta and induce transcriptomic responses in COVID-positive mothers. These transcriptomic responses were characterized by differential expression of specific mRNAs and miRNAs associated with SARS-CoV-2 infection, with induction of specific placental miRNAs that can inhibit viral replication. Failure in such mechanisms may be associated with vertical transmission. Since the start of the COVID-19 pandemic, the COVID-19 mRNA vaccines have been widely used to reduce the morbidity and mortality of SARS-CoV-2 infection. Historically, non-live vaccines have not caused any harm to pregnant mothers;however, it is unclear whether our current understanding of the effects of non-live vaccines serves as a reliable precedent owing to the novel technology used to create these mRNA vaccines. Since there are no definitive data on the possible biodistribution of mRNA vaccines to the placenta, the likelihood of vaccine mRNA reaching the fetus remains uncertain. Little has been reported on the tissue localization of the lipid nanoparticles (LNPs) after intramuscular (IM) administration of the mRNA vaccine. The biodistribution of LNPs containing the mRNA vaccine has been investigated in animal models but not humans. In the murine model, the vaccine LNPs were rapidly disseminated to several organs, including the heart, liver, kidney, lung, and spleen, following IM administration. However, no traditional pharmacokinetic or biodistribution studies have been performed with the mRNA vaccines, including possible biodistribution to breast milk or the placenta.
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Background. The rapidly developing resistance of viruses to synthetic antiviral drugs indicates the need to use substances with multitarget action (to avoid polypharmacy and to improve the safety of treatment). Objective(s): systematic analysis of the scientific literature on the pharmacology of bioflavonoids with an emphasis on their antiviral action. Material and methods. More than 150,000 references of primary sources were found in the PubMed/MEDLINE database of biomedical publications, including 3282 references on the antiviral effects of bioflavonoids. A systematic computerized analysis of this array of publications was carried out in order to identify the main directions in the pharmacology of bioflavonoids with an emphasis on their antiviral, antibacterial and immunomodulatory effects. The literature analysis was carried out using modern methods of topological and metric analysis of big data. Results. The molecular mechanisms of action of baicalin, hesperidin, rutin, quercetin, leukodelphinidin bioflavonoids and epigallocatechin-3gallate, curcumin polyphenols, their anti-inflammatory, antioxidant, antiviral, bactericidal, angioprotective, regenerative effects, and their prospects in therapy, prevention and rehabilitation of patients with COVID-19 and other respiratory viral infections were described in detail. Conclusion. Bioflavonoids and synergistic polyphenols exhibit not only multitarget antiviral effects by inhibiting the main protease, spike proteins, and other target proteins, but also pronounced anti-inflammatory, hepatoprotective, and immunomodulatory effects.Copyright © 2023 Modern Medical Technology. All rights reserved.
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Introduction: Currently, isolated from SARS-CoV-2 virus exceed 600 million cases in the world. Objective(s): Isolation and characterization of the SARS-CoV-2 virus causing COVID-19 at the beginning of the pandemic in Peru. Method(s): Twenty nasal and pharyngeal swab samples were isolated from SARS-CoV-2 using two cell lines, Vero ATCC CCL-81 and Vero E-6;virus identification was performed by RT-PCR and the onset of cytopathic effect (CPE) was evaluated by indirect immunofluorescence and subsequent identification by genomic sequencing. One of the most widely circulating isolates were selected and named the prototype strain (PE/B.1.1/28549/2020). Then 10 successive passages were performed on Vero ATCC CCL-81 cells to assess mutation dynamics. Result(s): Results detected 11 virus isolates by cytopathic effect, and subsequently confirmed by RT-PCR and indirect immunofluorescence. Of these, six were sequenced and identified as the lineages B.1, B.1.1, B.1.1.1, and B.1.205 according to the Pango lineage nomenclature. The prototype strain corresponded to lineage B.1.1. The analysis of the strains from the successive passages showed mutations mainly at in the spike (S) protein of the virus without variation in the identity of the lineage. Conclusion(s): Four lineages were isolated in the Vero ATCC CCL-81 cell line. Subcultures in the same cell line showed mutations in the spike protein indicating greater adaptability to the host cell and variation in pathogenicity in vitro, a behavior that allows it to have more survival success.Copyright © 2023 Anales de la Facultad de Medicina. All rights reserved.
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Background/Objectives: Validated association between COVID-19 and the most obvious candidate genes, e.g. HLA, is still missing. A weak association with class I HLA-C*04:01 was found for infection in Sardinians and for severity in another mixed population. Auto-antibodies to interferon type I have been implicated in the severity of COVID-19 in two studies. Method(s): The binding affinity between HLA molecules and SARS-CoV-2 spike protein and IFNalpha subunits was evaluated in silico. The presence of antibodies against one or more of the 12 IFNalpha subunits was evaluated in 160 hospitalized COVID-19 patients. The 10 most frequent haplotypes in the Italian population were tested in 1.997 SARS-CoV-2 infected patients (hospitalized versus not hospitalized). Result(s): The presence of auto-antibodies against at least one IFNalpha subunit was detected in 26% of patients. The haplotype A*24:02-B*35:02-C*04:01-DRB1*11:04-DQB1*03:01 was found to predispose to severity (p = 0.0018;p = 0.07 after Bonferroni correction) in patients <50 years. The haplotype includes alleles able to bind spike with low affinity (i.e. C*04:01 and DRB1*11:04) and IFNalpha with high affinity (i.e. DRB1*11:04). Conclusion(s): One of the 10 most frequent ancestral haplotype of the Italian population predisposes to severity likely reducing both innate immunity through IFNalpha auto-antibodies induction and adaptive immunity through weaker spike protein presentation.
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Objective: Humoral and cellular immune responses to SARS-CoV-2 vaccination are reduced in adult kidney recipients. After pediatric kidney transplantation there are only few data available - mostly limited to monitoring of SARS-CoV-2 antibodies. Method(s): Cellular and humoral immune responses have been monitored before and after SARS-CoV-2 vaccination in pediatric kidney recipients. After in vitro stimulation with SARS-CoV-2 antigen (spike glycoprotein) virus-specific CD4 and CD8 T cells (SARS-CoV-2-Tvis) have been identified by cytokine flow cytometry. SARS-CoV-2 IgG was measured by CMIA. Result(s): Immune response after SARS-CoV-2 vaccination was analyzed in a total of 30 pediatric kidney recipients (age at 1st vaccine dose 5.2 - 17.8 years, median 14.8 years;43% male;30/30 2 vaccine doses;23/30 3 vaccine doses). At time of vaccination 22 patients (73%) received a tacrolimus (Tac)-based immunosuppression combined with mycophenolate mofetil (MMF;n = 15) or everolimus (n = 6) or neither of them (n = 1);3 patients were exposed to cyclosporine A and 5 patients to a calcineurin inhibitor (CNI)- free immunosuppression. MMF was used in 18/30 patients. After 1st dose of mRNA vaccine SARS-CoV-2 antibodies were detectable in 50% of pediatric kidney recipients, after 2nd dose in 78% and after 3rd dose in 88%. After the 2nd vaccine dose absence of humoral immune response (< 33.8 BAU/ml) was only found in case of MMF use (predominately combined with Tac). Peak IgG values (> 2,080 BAU/ml) were only detected in MMF-free regimens (6/7). Cellmediated response partially differed from humoral response, e. g., in some patients SARS-CoV2-Tvis were found despite lack of virus-specific antibodies. After 1st vaccine dose SARS-CoV-2-Tvis were detectable in 50% of pediatric kidney recipients, after 2nd dose in 92%. After 2nd vaccine dose absence or very low levels of SARS-CoV-2-Tvis (< 0.3 cells/mul) were only found in Tac-based immunosuppressive regimens, whereas higher levels (> 1.3 cells/mul) were exclusively detected in patients with MMFfree medication. Conclusion(s): After pediatric kidney transplantation humoral and cellular immune responses to SARS-CoV-2 vaccination were suboptimal, but more pronounced than in adult kidney recipients. Use of Tac and MMF was associated with impaired immune response to vaccination. SARS-CoV-2-specific humoral response corresponded only partially to cell-mediated response. Additional monitoring of SARS-CoV- 2-Tvis might be recommendable to improve assessment of the individual vaccine response and thereby to personalize the decision on the necessity of further vaccine doses.
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Objectives: Few studies evaluate the immunogenicity and safety of different COVID-19 vaccine platforms in patients with primary Sjogren's Syndrome (pSS). The present study aims to assess the immunogenicity through anti-spike IgG antibodies after the COVID-19 vaccine dose in heterologous groups compared to homologous regimen in patients with pSS. Method(s): These data are from the SAFER study: 'Safety and efficacy of the COVID-19 vaccine in rheumatic disease', a real-life phase IV multicenter longitudinal study, evaluating patients since before the first dose. Pregnant women, those with a history of serious adverse events prior to any vaccine, and those with other causes of immunosuppression were excluded. Patients with pSS > 18 years, classified according to ACR/EULAR 2016 classification criteria were included. Antibodies against the Receptor Binding Domain - RBD portion of the Spike protein of SARS-CoV-2 (IgG-S) were measured by chemiluminescence (Architect SARS-CoV-2 Quanti II, Abbott), before the first dose and 28 days after the 2nd and 3rd dose. Seropositivity was defined as IgG-Spike titers >=7.1 BAU/mL. Patients received adenoviral vector (ChAdOx1, Astrazeneca), mRNA (Pfizer) or inactivated SARS-COV-2 (Coronavac). Non-parametric methods were used. The alpha level of significance was set at 5%. Result(s): 56 participants received 3 doses, 46 +/- 11 years old, disease duration 7.62 years, 92.9% female, 41.1% White and 55.4% Mixed. The homologous third-booster dose group (n = 15, all ChAdOx1) and heterologous group (n = 41) were homogeneous for age, sex, ethnicity, comorbidities, medication and baseline IgG-S median [IQR] titers. After primary vaccination (2 doses) IgG-S median and titers [IQR] were similar in homologous and heterologous groups (373.03 [179.58, 843.92] vs. 473.36 [119.05, 1059.60], p = 0.705). Third-booster dose induced higher IgG-S median [IQR] titers compared to only 2 doses (1229.54 [333.55, 4365.47] vs 464.95 [140.42, 1015.25], p alpha 0.001). Heterologous 3rd-booster induced higher IgG-S median [IQR] titers than homologous scheme with ChAdOx1 (1779.52 [335.83, 4523.89] vs 730.76 [303.37, 1858.98], p = 0.150), Fig 1 and 2, although not statistically significant. Conclusion(s): Third booster dose induced higher humoral immune response compared to two doses whichmay improve protection against COVID-19 in patients with pSS. Although not statistically significant, the response to the heterologous scheme tended to be better than the response to the homologous booster vaccination, which heterologous booster scheme tended to respond better than homologous booster vaccination, which is relevant in this immunosuppressed population. Increasing the sample size will help clarify this issue. .
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Background: More than a year has passed since the first coronavirus vaccines were widely used. However, some healthcare workers are infected with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) despite full vaccination. The immune effect of SARSCoV- 2 vaccines attenuates in a few months in contrast to other universal vaccines, such as the hepatitis B vaccine, which have an immune effect that lasts for a longer time. In addition, the neutralizing antibody (Ab) titers can be measured only in limited medical institutions. In this study, we aimed to investigate the factors that predict SARS-CoV-2 infection in healthcare workers after vaccination. Method(s): In this study, we enrolled one thousand one hundred and thirty-three healthcare workers (826 women, 307 men) after second inoculation of the BNT162b2 vaccine (Pfizer /BioNTech) in February- April 2021. Medical checkups and self-reported questionnaires were used to collect medical histories and demographic characteristics. The Alinity SARS-CoV-2 IgG II Quant (Abbott) quantitative IgG spike protein serology assay was examined in a cohort of participants 1, 4, 6 months after the second vaccination, and 1 month after the third vaccination of the BNT162b vaccine. Lower Ab titers were defined under median at each time point. The relationships between SARS-CoV-2 infection and these factors were analyzed. Result(s): The mean observation period was four hundred and fortyeight days. The median titers at 1, 4, 6 months after the second vaccination were 9293 U/mL (interquartile range [IQR], 5840-14392 U/mL), 1658 U/mL (IQR, 999-2676) and 832 U/mL (IQR, 523-1300), respectively. The risk factors for lower Ab titers were age (60 years older, odds ratio [OR], 2.08), presence of current illness (OR 1.52), smoking habit (OR 2.36), and no fever after the second vaccination (OR 2.44). The median titers at 1 month after the third vaccination was 13780 U/mL (IQR, 9085-22722), and the risk factor for lower Ab titers was hepatitis B surface Ab (HBsAb) negative (OR 1.38). The total 1-year cumulative infection rate was 4.9%. The median infection period was three hundred and twenty days (IQR, 298-365) after the second vaccination. The risk factors of infection were age (30 s and 40 s), and HBsAb negative. The 1-year cumulative infection rate of 30-40 s and other ages were 6.6% and 3.7%, respectively (p<0.01). The 1-year cumulative infection rate of HBsAb negative participants with 30-40 s and other age were 7.7% and 4.9%, respectively (p = 0.064), while that of HBsAb positive participants with 30-40 s and other age were 6.7% and 1.7%, respectively (p<0.01). Conclusion(s): HBsAb and age can become prognostic factors to be infected with SARS-CoV-2 after vaccination. Especially, HBsAb negative people under 50 years old should pay attention to SARSCoV- 2 infection even after second vaccination.
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Intro: During the pandemic of COVD-19, several vaccines have been developed and are currently used worldwide. However, head-to-head studies comparing various vaccines are limited. Therefore, This single-center, prospective, realworld study. head-to-head study of compared the effectiveness of BNT162b2 (Pfizer BioNTech), mRNA-1273 (Moderna) ChAdOx1-S (Astra Zeneca) vaccines. The kinetics of SARS-CoV2 spike antibodies were monitored post-vaccination and following two booster doses in COVID-19 naive and previously infected adults. Method(s): The primary outcome was the emergence of virologically positive COVID-19 cases after vaccine completion. The secondary outcome was the occurrence of postvaccination COVID-19-related hospitalizations. The titers of anti-SARS-CoV-2 IgG antibodies against the S1 subunit of the virus's spike protein were measured after the first and second doses of the three vaccines and the booster doses. Finding(s): The current study enrolled and followed 1550 participants who received ChAdOx1-S or BNT162b2, or mRNA-1273, and 1550 non-vaccinated subjects between March 2021 and February 2022. After completing two vaccine doses, the effectiveness in preventing COVID-19 cases was 89.2%, 95.5%, and 94.6% for ChAdOx1-S or BNT162b2, or mRNA-1273, respectively. Four COVID-19-related hospitalizations (0.26%) were reported in the vaccinated versus 648 (41.81%) non-vaccinated participants (P<0.0001). Following the Pfizer booster dose, no COVID-19-positive cases or hospitalizations were reported. In the three vaccines, SARS-CoV2 antibody titers increased gradually after the first dose, peaked 3-4 weeks after the second dose, then declined after 28-32 weeks. Enhanced antibody response was observed after the booster dose and was maintained until the end of follow-up. Comorbidities were associated with lower antibody titers, particularly diabetes, autoimmune diseases, and advanced renal diseases. Conclusion(s): The study showed that the three COVID-10 vaccines effectively reduced the risk of virologically confirmed COVID-19 disease and prevented severe illness and hospitalizations in COVID-19 naiive and previously infected. Booster doses enhance the SARS-CoV2 antibody response and decrease the incidence of virologically proven severe COVID-19.Copyright © 2023
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Background/Aims Since the COVID-19 outbreak the rheumatology community have been concerned about the risk of SARS-CoV-2 infection in patients prescribed immunosuppressing medications. Data suggests that patients receiving Rrtuximab are at increased risk of developing severe outcomes from COVID-19 (1). In our unit all patients receiving rituximab were selected to receive a targeted vaccination and booster programme with all patients receiving at least 2 vaccinations and up to 3 booster vaccinations. We studied the efficacy of the COVID-19 vaccines in rituximab patients, by checking the the Roche Elecsys Anti-SARS-CoV-2-S (Spike) IgG/IgM total antibody levels post vaccination. Our aim was to assess the vaccination response in patients receiving rituximab and to offer advice on continued shielding or alternatively passive immunization with tixagevimab/cilgavimab in those patients who did not mount a response. Methods Taking 39 patients currently on rituximab therapy, we measured Anti- SARS-CoV-2-S (Spike) antibody levels post vaccination. We recorded whether the test was positive or negative, and the numerical result. We recorded rituximab dates of administration and dates of vaccines. We also recorded diagnosis, co-prescribed DMARDs, immunoglobulin levels, white cell and lymphocyte counts. We took record of whether or not the patient subsequently contracted COVID-19, required a hospital admission, ICU or died. Results Of our 39 patients, 21 had Anti-SARS-CoV-2-S (Spike) antibody levels checked. Of these patients, 7 (33%) had a negative spike protein result. Of the patients with a positive result, 8 (38%) had an antibody level between 0-250U/ML, and only 6 (28.6%) had a level >250U/ML (The manufacturer advises that a level above 0.8U/ML is a positive result). Of patients with a negative result, 1 patient had received 3 vaccines, 5 patients had received 4, and 1 patient had 5. All of the patients had received a vaccine >4 weeks prior to receiving the drug. Two patients were co-prescribed Belimumab, 3 were co-prescribed low-dose methotrexate and 2 were not on additional disease modifying agents. The diagnoses of these patients were, 2 patients with SLE, 4 with SPRA, and 1 MPO Vasculitis. There were no significant findings in lymphocyte count, white cell count or immunoglobulin levels. Conclusion These findings suggest that our current COVID-19 vaccination and booster programme may not provide adequate response in patients receiving rituximab therapy. Despite this being a small cohort, these results show that 33% of patients have not mounted a vaccine response and this is concerning. We suggest that vaccine response should be checked in all patients receiving rituximab therapy and those patients who do not mount a vaccine response should be offered passive immunity and advised of possible additional risks regarding COVID-19 exposure.
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Background: Human monoclonal antibodies from convalescent individuals that target the SARS-CoV-2 spike protein have been deployed as therapeutics against SARS-CoV-2. However, nearly all of these antibodies have been rendered obsolete by SARS-CoV-2 variants that evolved to resist similar, naturally occurring antibodies. Moreover, Most SARS-CoV-2 specific antibodies are inactive against divergent sarbecoviruses Methods: By immunizing mice that carry human immunoglobulin variable gene segments we generated a suite of fully human monoclonal antibodies that bind the human ACE2 receptor (hACE2) rather than the viral spike protein and were engineered to lack effector functions such as ADCC. Result(s): These ACE2 binding antibodies block infection by all hACE2 binding sarbecoviruses, including emergent SARS-CoV-2 variants, with a potency that of the most potent spike binding therapeutic antibodies. Structural and biochemical analyses revealed that the antibodies target an hACE2 epitope that engages SARS-CoV-2 spike. Importantly, the antibodies do not inhibit hACE2 enzymatic activity, nor do they induce ACE depletion from cell surfaces. The antibodies exhibit favorable pharmacology in human ACE2 knock in mice and provide near complete protection of hACE2 knock-in mice against SARS-CoV-2 infection. Conclusion(s): ACE2 binding antibodies should be useful prophylactic and treatment agents against any current and future SARS-CoV-2 variants, as well as hACE2-binding sarbecoviruses that might emerge as future pandemic threats.
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Junior Physician Investigator Award Recipient Purpose of study Severe acute respiratory syndrome coronavirus- 2 (SARS-CoV-2) is the causative agent of the Coronavirus disease 2019 (COVID-19) pandemic. Convalescent plasma obtained from recovered persons was used for previous respiratory pandemics. Convalescent plasma with severe acute respiratory disease coronavirus 2 (SARS-CoV-2) antibodies (CCP) was proposed as an option that may hold promise as treatment for COVID-19. Our aim was to retrospectively evaluate the efficacy of CCP treatment of patients with severe to life-threatening COVID-19 hospitalized at Montefiore Medical Center (MMC) in the Bronx, NY between April 13 to May 4, 2020. Methods used We administered CCP as part of the Mayo Clinic expanded access investigational new drug (IND) program for hospitalized patients. We compared the mortality and clinical outcome of 73 patients with COVID-19 who received 200 mL of CCP with a Spike protein IgG titer >=1:2,430 (median 1:47,385) within 72 hours of admission to 1:1 propensity score-matched controls. Matching criteria for controls were age, sex, body mass index, race, ethnicity, comorbidities, week of admission, oxygen requirement, D-dimer, lymphocyte counts, corticosteroids, and anticoagulation use (figure 1). We additionally measured Spike protein IgG and neutralizing antibody titer in CCP and pre- and post-transfusion Spike protein IgG, IgM and IgA titer in CCP recipients. The primary outcome was all-cause mortality at day 28 post-CCP. The secondary outcomes were improvement in oxygenation status or mortality at day 28 post-CCP. Exploratory outcomes were associations between pre-CCP SARS-CoV-2 antibody titers and mortality at day 28. Summary of results There was no difference in mortality or oxygenation between CCP recipients and controls at day 28. When stratified by age, compared to matched controls, CCP recipients < 65 years had 4-fold lower mortality and 4-fold lower deterioration in oxygenation or mortality at day 28 (figure 2, 3). There was no association between CCP IgG or neutralizing antibody titer and clinical outcome. For CCP recipients, pre-transfusion Spike protein IgG, IgM and IgA titers were associated with mortality at day 28 in univariate analyses but not in multivariable analyses. Pre-transfusion Spike protein IgG titer was significantly correlated with Ddimer and detected viral load measured by cycle threshold (Ct) value of nasopharyngeal SARS-CoV-2 reverse-transcriptase- polymerase-chain-reaction (figure 4). No adverse effects of CCP were observed. Conclusions We report that CCP administration within 72 hours of hospitalization demonstrated a possible signal of reduced mortality in patients < 65 years. Pre-transfusion IgG titer may be a proxy for disease severity that may be useful in identifying those who are more likely to respond to CCP. Data from controlled trials is needed to validate this finding and establish the effect of ageing on CCP efficacy. (Figure Presented).
ABSTRACT
Background: Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) is a novel and highly pathogenic coronavirus and is the causative agent of COVID-19, an ongoing pandemic that has posed a serious threat to public health and global economy. Thus, there is a pressing need for therapeutic interventions that target essential viral proteins and regulate virus spread and replication. To invade the host cell, the receptor-binding domain (RBD) of SARS-CoV-2 Spike protein binds to the host cell's ACE2 receptor, followed by cleavage events that allow the Spike protein to fuse with the host cell membrane. Thus, the essential role of Spike protein in ACE2 receptor binding and viral fusion makes it a prime target for therapeutic interventions. Method(s): We performed molecular docking and molecular dynamics (MD) simulation-based virtual screening against SARS-CoV-2 RBD/ACE2 interface using a commercial library of 93,835 drug-like compounds. Compounds with promising docking poses and scores were selected for further MD simulation refinement, from which ten lead compounds were identified. Antiviral potencies of ten lead compounds were evaluated against lentiviral vectors pseudotyped with SARS-CoV-2 Spike to down select to a single lead compound, SAI4. ELISA-based assays were employed to determine the binding affinities of SAI4 to recombinant SARS-CoV-2 RBD. Antiviral potential of SAI4 was validated against genuine SARS-CoV-2 in a BSL3 setting. Result(s): We identified SAI4 as a candidate small molecule, which inhibited SARS-CoV-2 pseudovirus entry with IC50 value of ~18 muM. We determined that SAI4 binds RDB with a Kd of ~20 muM. Using cells engineered to express ACE2 and cells that express physiological levels of ACE2, we found that SAI4 inhibited SARS-CoV-2 pseudovirus entry at both engineered and physiological ACE2 levels. We validated the antiviral potential of SAI4 against genuine SARS-CoV-2 and HCoV-NL63. Lastly, we demonstrated antiviral potential of SAI4 against four SARS-CoV-2 variants of concern (alpha, beta, gamma, and delta). Conclusion(s): Using virtual screening, we identified SAI4 as the promising hit compound which displayed inhibitory activities against SARS-CoV-2 entry and its four variants of concern. Thus, our study will pave the way for further development of small molecules for therapeutic targeting of SARS-CoV-2 entry to combat the COVID-19 pandemic.
ABSTRACT
Introduction: Subacute thyroiditis is a self-limiting post-viral inflammatory disorder occurring in 3 phases (hyper-, hypo-, and euthyroidism) Post-vaccine thyroiditis has also been reported, but is rare. Case Description: A 36-year-old Emirati female presented to our clinic with generalized fatigue, mild to moderate vague neck pain, intermittent palpitations, and loss of appetite 2 weeks after receiving her first dose of Pfizer-BioNTech mRNA vaccine against COVID-19. Clinical examination findings and laboratory test results were consistent with subacute thyroiditis. Patient is a mother of 5 healthy children, youngest is breast-fed infant (11 months old). There was no history suggestive of postpartum thyroiditis and no family history of thyroid dysfunction. Physical examination at initial visit showed mild tachycardia, and a normal blood pressure. She weighed 66 kg. Thyroid function tests revealed a suppressed TSH of 0.011 muIU/mL, high Free T4 of >100 pmol/l), and Free T3 FT3 of 29.6 pmol/L. Both TSH receptor antibodies, and Thyroid antibodies (TPO) were negative. Thyroid scintigraphy showed decreased uptake in both lobes. Thyroid ultrasound showed hypoechoic heterogeneous echotexture of the thyroid gland with vascular conglomerate and micro-calcification, along with normal sized reactive lymph nodes at sternal angle. Symptoms aggravated through the next week;patient dropped 3kg of her body weight and her palpitations increased, with a recorded resting heart rate between 120-130 beats/min. TSH decreased to 0.001muIU/mL while FT4 remained high, with an improvement to 90 pmol/L. Subsequently, the patient started to regain weight. Palpitations improved within a month. She developed a biochemically hypothyroid picture followed by clinical and biochemical euthyroidism after one more month. Second dose of the vaccine was uneventful. Last evaluation was 10 months later;TSH, FT3 and FT4 were all in normal range, acute-phase reactants were completely normal and in complete remission. Discussion(s): The exact mechanism for post-vaccination subacute thyroiditis remains unknown, vaccine adjuvants may induce diverse autoimmune and inflammatory reaction. Subacute thyroiditis has rarely been reported with other COVID-19 vaccines contains no Polyethylene glycol (PEG). A possible cross-reactivity between thyroid cell antigens and spike protein of the coronavirus produced by mRNA vaccines might be responsible. Further research is needed to investigate the incidence of subacute thyroiditis in COVID-19 pandemic days.Copyright © 2023
ABSTRACT
Background: More than 12 billion doses of COVID-19 vaccine administrations and over 630 million natural infections should have developed adequate levels of herd immunity over the last three years. However, there have been many new waves of coronavirus infections. The development of safe and effective vaccines to control breakthrough SARS-CoV-2 infections remain an urgent priority. We have developed a recombinant VSV vector-based vaccine to fulfill this worldwide need. Method(s): We have used a recombinant vesicular stomatitis virus (rVSV)-based prime-boost immunization strategy to develop an effective COVID-19 recall vaccine candidate. We have constructed an attenuated recombinant VSV genome carrying the full-length Spike protein gene of SARS-CoV-2. Adding the honeybee melittin signal peptide (msp) at the N-terminus enhanced the protein expression and adding the VSV G protein transmembrane domain and the cytoplasmic tail (Gtc) at the C-terminus of the Spike protein allowed efficient incorporation of the Spike protein into pseudotype VSV. Result(s): In immunized mice, rVSV with chimeric rVSV-msp-S-Gtc induced high levels of potent neutralizing antibodies (nAbs) and CD8+ T cell responses, while the full-length Spike with Gtc proved to be the superior immunogen. More importantly, rVSV-msp-S-Gtc-vaccinated animals were completely protected from subsequent SARS-CoV-2 challenges. Furthermore, rVSV-Wuhan and rVSV-Delta vaccines, and an rVSV-Trivalent (mixed rVSV-Wuhan, -Beta and -Delta) vaccine elicited potent nAbs against live SARS-CoV-2 Wuhan (USAWA1), Beta (B.1.351), Delta (B.1.617.2) and Omicron (B.1.1.529) viruses. Heterologous boosting of rVSV-Wuhan with rVSV-Delta induced strong nAb responses against Delta and Omicron viruses, with the rVSV-Trivalent vaccine consistently inducing effective nAbs against all the SARS-CoV-2 variants tested. All rVSV-msp-S-Gtc vaccines also elicited an immunodominant Spike-specific CD8+ T cell response. Conclusion(s): rVSV vaccines targeting SARS-CoV-2 variants of concern can be considered as an effective booster vaccine in the global fight against COVID-19.