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BackgroundSARS-CoV-2(Severe acute respiratory syndrome coronavirus 2) has been circulating worldwide for three years. It mainly causes upper respiratory tract infection, which can manifest as pulmonary infection and even respiratory distress syndrome in severe cases. Different autoantibodies can be detected in patients infected with COVID-19.ObjectivesTo explore autoantibodies related to rheumatic diseases after COVID-19 infection.MethodsNinety-eight inpatients were tested for antinuclear antibodies (ANA), antibodies to extractable nuclear antigens(ENA), anti-neutrophil cytoplasmic antibodies(ANCA), anticardiolipin antibodies,a-β2GPI (IgG/IgM). They were from a tertiary hospital in Guangzhou during the COVID-19 epidemic. Data were described statistically.ResultsNinety-eight hospitalized patients were tested for relevant antibodies. The average age was 50.64±19.54;67 (68.4%) were male, 64 (65.3%) were COVID-19 positive, 90 (90.9%) had rheumatic diseases, and 56 of them were COVID-19 positive patients with rheumatic diseases.There were 76 patients tested for antinuclear antibodies;29 (38.16%)were negative, 18 (23.68%)had a 1/80 titre, and 29(28.16%) had a titre greater than 1:80. The 31 covid patients were positive for ANA. In the high-titer group, 19 patients with rheumatic diseases were positive for COVID-19, and 12 patients had an exacerbation of the rheumatic diseases (6 of whom had previously had pulmonary fibrosis). Of 31 covid patients, only two were non-rheumatic patients, and both were elderly, aged 85 and 100, respectively.Fifty-six patients had ENA results, and 29 for positive antibodies, 8 for ds-DNA antibodies, 2 for anti-Sm antibodies, 6 for anti-nucleosome antibodies, 12 for anti-U1RNP antibodies, 2 for anti-Scl-70 antibodies, 12 for anti-SS-A antibodies, 3 for anti-mitochondrial M2 antibodies, 2 for anti-centromere antibodies, 1 for anti-Po antibodies, and one for anti-Jo-1 antibody. All 56 patients had rheumatic diseases, and no new patients were found.There were 62 patients with ANCA data. P-ANCA was positive in 12 cases(19.35%), and MPO-ANCA was positive in 2 cases. An 85-year-old non-rheumatic COVID-19 patient was P-ANCA positive. She had a history of hypertension, colon cancer, CKD3, coronary heart disease, and atrial flutter.In the anticardiolipin antibodies group, there were 62 patients;only 6 were positive, and 2 were rheumatic patients infected with COVID-19. Antiphospholipid antibodies were detected in 33 patients, and a-β2GPI was tested in one patient, an 82-year-old COVID-19 patient with gout, diabetes, and cerebral infarction in the past. We did not find a statistical difference in the above results.ConclusionWe have not found a correlation between SARS-CoV-2 and serum autoantibodies of rheumatic immune diseases. It needs large samples and an extended follow-up to research.AcknowledgementsThis work was supported by Scientific and Technological Planning Project of Guangzhou City [202102020150], Guangdong Provincial Basic and Applied Basic Research Fund Project [2021A1515111172], National Natural Science Foundation of China Youth Fund [82201998] and Third Affiliated Hospital of Sun Yat-Sen University Cultivating Special Fund Project for National Natural Science Foundation of China [2022GZRPYQN01].Disclosure of Interestsone declared.
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According to recent market research, the vaccines market is expected to grow at a compound annual rate of 14.7% for the forecast period of 2020-2026 (1), the growth of which has been accelerated by the recent COVID-19 pandemic. Durability of glass vials at very low temperatures and permeability of plastic vials has complicated the packaging decisions as well." Since the beginning of the pandemic, the bio/pharma industry has been under pressure to produce stable formulations for effective vaccines in accelerated timescales, Blouet asserts. [...]the drive for a COVID-19 vaccine has occurred during a period of increased basic scientific understanding, such as in genomics and structural biology, supporting a new wave of vaccine development and production, she says. According to Phadnis, in addition to single-use technologies, automation for high throughput and robust analytical assays are necessary for rapid turnover during development and manufacturing of vaccines.
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Telma Lery Janssen EMEA therapeutic area lead for infectious diseases and vaccines at Johnson & Johnson, explains that the company's COVID-19 vaccine candidate (also known as Ad26.COV2.S, Ad26COVS1, VAC31518, JNJ-78436735, or Ad26-S.PP) is a monovalent, recombinant, inactivated/non-infective adenovirus vector (similar to a cold virus), which contains a transgene that codes for the coronavirus spike (S) protein. The vaccine technology, AdVac, is based on the development and production of adenovirus vectors (gene carriers). Adenovirus vectors (gene carriers) are genetically altered forms of an adenovirus and lack the DNA needed to replicate. Some of the main differences between a COVID-19 oral tablet vaccine from injectable COVID-19 vaccines, according to Tucker, include: * Immune responses are triggered in the mucosa and the serum with a COVID-19 oral tablet vaccine (based on preclinical and clinical testing), unlike the existing vaccines that are serum-only. * Ease of distribution and vaccination with a COVID-19 oral tablet vaccine, which eliminates the need for special accommodations to transport injectable vaccines that require cold chain infrastructure as well as the need for trained professionals to administer vaccines.
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Introduction/Objective Kidney injury has now become one of the known complications following COVID-19 infection and vaccination. Only few cases of minimal change disease following administration of COVID-19 vaccination and infection have been reported. This study was to highlight incidence of minimal change disease following COVID-19 infection or vaccination. Methods/Case Report Case 1:15 year-old female with past medical history of asthma and hypercholesterolemia presented for evaluation of periorbital edema, nephrotic-range proteinuria, hypoalbuminemia, elevated serum creatinine, elevated blood pressures, and hematuria after COVID-19 infection. Renal biopsy after 1 week of infection showed unremarkable glomeruli and negative immunofluorescent stains in glomeruli, and 20-30% fusion of foot processes. The biopsy was consistent with a minimal change disease with features of natural remission (her nephrotic-range proteinuria resolved soon after). Case 2: 18 year-old female with no significant past medical history presented with a chief complaint of generalized swelling, which started around the same time she received her 1st dose of Pfizer COVID vaccine (the 2nd dose 2 months later). She had a nephrotic range proteinuria and hypoalbuminemia, but normal level of serum creatinine. A renal biopsy after 4 months of vaccination showed unremarkable glomeruli by light microscopy, negative immunofluorescent study, but diffuse effacement of foot processes involving more than 80% of the examined loops by electron microscopy. This biopsy findings were consistent with a minimal change disease. Both patients did not receive any treatment before the renal biopsies. Results (if a Case Study enter NA) NA Conclusion Minimal change disease can be a rare complication following COVID-19 infection or Pfizer COVID-19 vaccination, raising a question if there are similar antigens induced by the infection or by the vaccination that trigger the minimal change disease. Further studies are needed to determine the incidence and pathophysiology of minimal change disease either post COVID-19 vaccines or following COVID-19 infections.
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[...]on the positive side, innovations in the use of synthetic raw materials and disposable equipment are expected to enhance manufacturing process development, she says. "The AttenuBlock platform incorporates 10 years of research and development at Emory University, where researchers employed rational and precise codon deoptimization and other genetic strategies to produce hundreds of targeted mutations into the RSV genome, providing exquisite control over viral protein expression," Moore explains. [...]the dose of a live attenuated vaccine is typically much lower than all the other non-replicating vaccine types, including genetic (RNA/DNA), viral vectors, protein subunit, inactivated, and virus-like particles (VLPs). [...]to meet global supply and demand, Meissa is implementing straightforward, economical, and scalable vaccine manufacturing technologies, Moore says. [...]licensed VLP vaccines are extremely effective.
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During the COVID-19 epidemic, blood samples are usually processed at 56 to attenuate the virus before pathogen detection. 71 blood samples of malaria patients reported by Shanghai Center for Disease Control and Prevention in 2017-2019 were collected, including 38 with Plasmodium falciparum infection, 8 P. malariae, 11 P. ovale and 14 P. vivax. The effect of inactivation on the thermal stability of P. falciparum histidine rich protein II (PfHRPII) and Plasmodium lactate dehydrogenase (pLDH) in blood samples was assessed before and after incubation at 56 for 30 min using the rapid diagnostic test (RDT) kit. The results showed that among the 38 P. falciparum T1-positive (PfHRPII) blood samples before heat treatment, 35 samples remained to be T1-positive (92.11%, 35/38, chi2=3.123, P>0.05) after heat treatment;while 54 blood samples (26 P. falciparum, 6 P. vivax, 10 P. ovale and 12 P. vivax) that were T2-positive (pLDH) before heat treatment turned to be T2-negative (positive rate 0, 0/54, chi2=87.755, P<0.01) after heat treatment. It was demonstrated that PfHRPII is stable during incubation at 56 for 30 min, while pLDH is unstable and degraded or inactivated during the heating. Therefore, the detection results of P. falciparum will not be affected by RDT, but diagnosis of the parasites other than P. falciparum in blood samples may be missed.Copyright © 2021, National Institute of Parasitic Diseases. All rights reserved.
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BackgroundAmid the coronavirus disease 2019 (COVID-19) crisis, two messenger RNA (mRNA) vaccines against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have benefited most people worldwide. While healthy people can acquire sufficient humoral immunity against COVID-19 even in the elderly by vaccination with three doses of vaccine., recent studies have shown that complex factors other than age, including the type of vaccines and immunosuppressive drugs, are associated with immunogenicity in patients with rheumatic musculoskeletal disease (RMD). Identifying factors that contribute to the vulnerability of those patients to acquire not only humoral but also cellular immunity to SARS-CoV-2 despite multiple vaccinations is crucial for establishing an appropriate booster vaccine strategy.ObjectivesTo assess humoral,and T cell immune responses after third doses of mRNA vaccines against SARS-CoV-2.MethodsThis prospective observational study included consecutive RMD patients treated with immunosuppressant who received three doses of mRNA vaccines including BNT162b2 and mRNA-1273. Blood samples were obtained 2-6 weeks after second and third dose of mRNA vaccines. We measured neutralizing antibody titres, which against the receptor-binding domain (RBD) of the spike protein of SARS-CoV-2 and seroconversion rates to evaluate the humoral responses. We also assessed T-cell immunity responses using interferon releasing assay against SARS-CoV-2.ResultsA total of 586 patients with RMD treated with mmunosuppressive treatments were enrolled. The mean age was 54 years, and 70% of the patients were female. Seroconversion rates and neutralizing antibody titres after third vaccination of SARS-CoV-2 were significantly higher compared to those after second vaccination (seroconversion rate, 94.5% vs 83.6%, p<0.001;titres of neutralizing antibody, 48.2 IU/mL vs 11.0 IU/mL, p<0.001, respectively). Interferon releasing assay after third vaccinations demonstrated that T cell reaction against SARS-CoV-2 was also increased from that of second vaccination (interferon for antigen 1, 1.11.9 vs 0.61.9, p=0.004,interferon for antigen 2, 1.72.6 vs 0.82.3, p=0.004). Humoral and cellular immunogenicity did not differ between the types of third vaccination including full dose of BNT162 and half dose of mRNA1273.(neutralizing antibody titers, 47.8±76.1 IU/mL vs 49.0±60.1 IU/mL, p<0.001;interferon for antigen 1, 1.12.0 vs 1.01.5, p=0.004, respectively). Attenuated humoral response to third vaccination was associated with BNT162b2 as second vaccination age (>60 years old), glucocorticoid (equivalent to prednisolone > 7.5 mg/day), and immunosuppressant use including mycophenolate, and rituximab. On another front, use of mycophenolate and abatacept or tacrolimus but not rituximab were identified as negative factors for T-cell reactions against SARS-CoV-2. Although 53 patients (9.0%) who had been immunised with third-vaccination contracted COVID-19 during Omicron pandemic phase, no one developed severe pulmonary disease that required corticosteroid therapy.ConclusionOur results demonstrated third mRNA vaccination booster of SARS-CoV-2 contributed to restore both humeral and cellular immunity in RMD patients with immunosuppressants. We also identified that certain immunosuppressive therapy with older RMD patients having BNT162b2 as a second vaccination may need additional booster vaccination.Reference[1]Furer V, Eviatar T, Freund T, et al. Ann Rheum Dis. 2022 Nov;81(11):1594-1602. doi: 10.1136/ard-2022-222550.Acknowledgements:NIL.Disclosure of InterestsNone Declared.
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Objectives Human leukocyte antigens (HLA) are highly diverse transmembrane proteins that present viral peptides to T cells and launch pathogen-specific immune responses. We aim to investigate the correlation between HLA evolutionary divergence (HED), a surrogate for the capacity to present different peptides, and the outcomes of SARS-CoV-2 infection in a cohort from the St. Louis Metropolitan area. Methods We enrolled adult patients with SARS-CoV-2 infection confirmed by RT-PCR who were hospitalized at two tertiary hospitals in St. Louis between March and July 2020. Genomic DNA was extracted from peripheral blood and genotyped by next-generation sequencing (NGS). HLA alleles were assigned based on key-exon sequences (G group) and limited to the 2-field resolution. HED was calculated by Grantham distance, which considers the difference in composition, polarity, and molecular volume between each pair of amino acids from maternal and paternal HLA. The HED score was obtained for HLA class I (HLA-A, -B, and -C) genotypes using the HLAdivR package in R. Clinical data were collected retrospectively from electronic medical records. A poor outcome was defined as an admission to the intensive care unit (ICU), a need for mechanical ventilation, or death. A favorable outcome was defined as the absence of the above poor outcomes. Results A total of 234 patients were enrolled in this study, 96 being females (41%). The median age and BMI were 66 years old and 28.30 kg/m2, respectively. African Americans comprised 71.4% of the cohort. Only 19 patients (8.1%) presented with no comorbidity;the rest had one or more comorbidities, with cardiovascular diseases being the most common. A total of 137 (58.5%) patients had poor outcomes from SARS-CoV-2 infection, while 97 (41.5%) patients had a favorable outcome. We detected a significant association between higher HLA-B HED and favorable outcomes, with each 1-point increase in HLA-B HED associated with 8% increased probability for the composite endpoint (OR 1.08, 95% CI=1.01-1.16, P = 0.04). The HED scores calculated for HLA-A or HLA-C were not significantly different between patients with favorable or poor outcomes. In a multivariate logistic regression analysis, increased HLA-B HED score, younger age, and no comorbidity were independently associated with favorable outcomes (P = 0.02, P = 0.01, and P = 0.05, respectively). Conclusion Our study shows a significant correlation between lower HLA-B HED scores and poor outcomes after SARS-CoV-2 infection. This finding suggests that maximizing the presentation of diverse SARS-CoV-2 peptides by HLA-B alleles may improve the clearance of SARS-CoV-2. Further studies are warranted to understand the functional and mechanistic implications of this finding.
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This paper presents raw plant materials and their characteristic compounds which may affect the immune system. Plant-derived agents in specific doses affect the body's non-specific, antigen-independent defense system. They have immunostimulatory effects on the entire immune regulatory system. They can enhance the immune response through various factors such as macrophages, leukocytes, and granulocytes, as well as through mediators released by the cellular immune system. This paper was inspired by the threats caused by the COVID-19 pandemic. The proper functioning of the immune system is important in limiting the effects of viral infection and restoring the normal functioning of the body. This paper also emphasizes the importance of the skillful use of plant immunostimulants by potential patients, but also by those who prescribe drugs. It is important not only to choose the right plant drug but above all to choose the correct dose and duration of treatment.
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Simple SummaryDuring the long-term co-evolution of the virus and the host, even closely related vaccines may emerge with incomplete protective immunity due to the mutations or deletions of amino acids at specific antigenic sites. The mutation of PEDV was accelerated by the recombination of different strains and the mutation of the strains adapting to the environment. These mutations either cause immune escape from conventional vaccines or affect the virulence of the virus. Therefore, researching and developing new vaccines with cross-protection through continuous monitoring, isolation and sequencing are important to determine whether their genetic characteristics are changed and to evaluate the protective efficacy of current vaccines. The porcine epidemic diarrhea virus (PEDV) can cause severe piglet diarrhea or death in some herds. Genetic recombination and mutation facilitate the continuous evolution of the virus (PEDV), posing a great challenge for the prevention and control of porcine epidemic diarrhea (PED). Disease materials of piglets with PEDV vaccination failure in some areas of Shanxi, Henan and Hebei provinces of China were collected and examined to understand the prevalence and evolutionary characteristics of PEDV in these areas. Forty-seven suspicious disease materials from different litters on different farms were tested by multiplex PCR and screened by hematoxylin-eosin staining and immunohistochemistry. PEDV showed a positivity rate of 42.6%, infecting the small and large intestine and mesenteric lymph node tissues. The isolated strains infected Vero, PK-15 and Marc-145 multihost cells and exhibited low viral titers in all three cell types, as indicated by their growth kinetic curves. Possible putative recombination events in the isolates were identified by RDP4.0 software. Sequencing and phylogenetic analysis showed that compared with the classical vaccine strain, PEDV SX6 contains new insertion and mutations in the S region and belongs to genotype GIIa. Meanwhile, ORF3 has the complete amino acid sequence with aa80 mutated wild strains, compared to vaccine strains CV777, AJ1102, AJ1102-R and LW/L. These results will contribute to the development of new PEDV vaccines based on prevalent wild strains for the prevention and control of PED in China.
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BackgroundData on serological immunity after three doses and the long-term immunogenicity (persistence) of COVID-19 vaccine in patients with inflammatory rheumatic diseases (IRD) treated with different immunomodulating drugs are still limited.ObjectivesTo elucidate if 1) a third dose COVID-19 vaccine improves antibody responses, compared to two doses, in patients with IRD treated with biologic or targeted synthetic DMARD (b/tsDMARDs) treatment given as monotherapy or in combination with conventional synthetic DMARDs (csDMARDs) compared to controls, and 2) the persistence of antibody response after two doses of COVID-19 vaccine in IRD patients.MethodsAntibody levels to two antigens representing Spike full length protein and Spike S1 and a Nucleocapsid C-terminal fragment (used to confirm previous COVID-19 infection) were measured in serum samples collected 2-12 and 21-40 weeks after the second vaccine dose and 2-12 weeks after the third dose using a multiplex bead-based serology assay. A sufficient antibody response (seropositivity) was defined as having antibodies over the cut-off level for both spike antigens (1). WT (wild type) anti-Spike IgG and omicron BA.1 and BA.2 variants were measured. Patients with IRD receiving immunomodulating treatment, regularly followed at a rheumatology department and a group of controls were recruited from five Swedish region.ResultsIn total, 323 of 414 patients with IRD and 36 controls who received three vaccine doses participated in this part of the study. Following treatment groups were included: rituximab (n=118;68% female;mean age 67 years), abatacept (n=18;72% female;mean age 64 years), IL6r inhibitors (n=60;73% female;mean age 64 years), JAK-inhibitors (n=44;80% female, mean age 52 years), TNF-inhibitors (n=59;70% female;mean age 47 years;), IL12/23/17 inhibitors (n=24;46% female;mean age 54 years) and controls (n=36;75% female, mean age 51 years). b/ts DMARD treatment was given as monotherapy or in combination with csDMARD, methotrexate (MTX) being the most frequently used csDMARD (32.5%). Compared to results after two vaccine doses, proportion (%) of seropositivity after three vaccine doses increased significantly in groups rituximab +/- DMARD (p=0.003 and p=0.004, respectively), IL6r inhibitors +DMARD (p=0.02), and abatacept+DMARD (p=0.01). However, the proportion of seropositivity after three vaccine doses was still significantly lower in rituximab treated patients (52%) compared to other treatment groups or controls (p<0.001) (Figure 1A/B). Antibody response to WT, omicron sBA.1 and sBA.2 showed similar pattern with the lowest levels among patients treated with rituximab.When antibody response was compared between 2-12 weeks and 21-40 weeks after second dose, the proportion of seropositive rituximab treated patients decreased from 34.9 % to 32.6%. All patients with JAK inhibitors and with JAK-inhibitors and IL6r-inhibitors seropositive 21-40 weeks after the second vaccine dose. Patients treated with other bDMARDs were not included in this analysis due to limited number participants.ConclusionIn this Swedish study including IRD patients receiving different b/t DMARDs, a sufficient immunogenicity of the third dose of COVID-19 vaccine was observed in all treatments with exception for rituximab. However, the increased proportion of seropositivity after the third COVID-19 vaccine doses in rituximab and other patients with insufficient response to two doses including response to the omicron variants, supports the current recommendations on additional booster doses. The immunogenicity of two vaccine doses was preserved to 40 weeks in majority of patients treated with different immunomodulating treatment with exception for rituximab.Figure 1.AcknowledgementsThe study has been supported by the independent research grants from Roche.Disclosure of InterestsMartina Frodlund: None declared, Per Nived: None declared, Katerina Chatzidionysiou Consultant of: consultancy fees from Eli Lilly, AbbVie and Pfizer., Grant/research support from: Research grand from Galapagos, Anna ödergren: None declared, Eva Klingberg: None declared, Monika Hansson: None declared, Elisa Pin: None declared, Lars Klareskog: None declared, Meliha C Kapetanovic Grant/research support from: independent research grants från Pfizer and Roche.
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Severe acute respiratory syndrome coronavirus is a type 2 highly contagious, and transmissible among humans;the natural human immune response to severe acute respiratory syndrome-coronavirus-2 combines cell-mediated immunity (lymphocyte) and antibody production. In the present study, we analyzed the dynamic effects of adaptive immune system cell activation in the human host. The methodology consisted of modeling using a system of ordinary differential equations;for this model, the equilibrium free of viral infection was obtained, and its local stability was determined. Analysis of the model revealed that lymphocyte activation leads to total pathogen elimination by specific recognition of viral antigens;the model dynamics are driven by the interaction between respiratory epithelial cells, viral infection, and activation of helper T, cytotoxic T, and B lymphocytes. Numerical simulations showed that the model solutions match the dynamics involved in the role of lymphocytes in preventing new infections and stopping the viral spread;these results reinforce the understanding of the cellular immune mechanisms and processes of the organism against severe acute respiratory syndrome-coronavirus-2 infection, allowing the understanding of biophysical processes that occur in living systems, dealing with the exchange of information at the cellular level.
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Advances in technology are accelerating the development and manufacture of this established class of vaccines. Because they contain only a portion of the pathogen, subunit vaccines typically have fewer side effects and can be given to a wider group of people, including those with compromised immune systems and chronic health conditions. In addition to having transparent and scenario-based forecasting in place to anticipate risk-based future global demand scenarios, managing cold-chain requirements regarding storage and transportation remains a key capability, especially considering the variety of temperature classes (i.e., cool-chain to deep-frozen, all the way down to liquid nitrogen temperatures)," comments Christian Rochel, head of supply chain for biologies at Lonza's Visp, Switzerland facility. Magers points to progress in genomics for the identification of vaccine candidates and incorporation of three-dimensional (3D) structure, domain organization, and dynamics of surface proteins analysis into vaccine design as aiding development efforts. Manufacturing advances of note for Magers include expanding use of different expression systems including mammalian, insect, microbial, and fungal cell lines;incorporation of single-use technologies and equipment and closed systems into manufacturing processes;exploration of continuous manufacturing and quality-by-design approaches;and the introduction of novel analytical methods (e.g., mass spectrometry, particle analysis methods, and capillary electrophoresis) in conjunction with an emphasis on replacing in-vivo potency assays. Since the first subunit vaccine was approved for hepatitis B, Novavax has advanced the technology for this class of vaccines through its use of a nanoparticle core to present the protein subunits to the immune system in a way that results in robust, durable responses that offer protection in the face of genetic drift, according to the company's spokesperson.
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Challenges with traditional vaccines The potential exists for adverse effects because live viral vaccines are attenuated by genetic mutation of the wild-type, disease-causing virus, either by passaging the virus through cells, eggs, or animals or purposeful deletion of sections of the viral genome, explains Kelly Lyn Warfield, vice president of vaccines research and development within Emergent BioSolutions' Vaccines Business Unit. "For selection and use of live, attenuated viral vaccines, caution must be applied due to potential safety issues in immunocompromised individuals (i.e., primary immunodeficiencies, patients on immunosuppressant treatment, HIV-infected people, and sometimes the very young or old), since this type of vaccine has the potential to replicate in an uncontrolled manner. spread to other individuals due to shedding of the vaccine, or revert to a virulent (disease-causing) form," she says. [...]a viral vector-based vaccine can cause an immune response to the viral vector itself in addition to the antigen of interest for which it is delivering the nucleic acid, according to Gregory Bleck, vice president of research and development at Catalent Biologies. [...]to achieve complete immune protection and to increase its duration, a prime boost dosing regimen in two consecutive vaccinations with the same or a different vaccine may be applied, which is what we're seeing in the mRNA COVID-19 vaccines," he says.
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BackgroundAnti-neutrophil cytoplasmic antibodies (ANCA) associated vasculitis (AAV) is a small vessel vasculitis. Hallmarked by the presence of antibodies against antigens in cytoplasmic granules of neutrophils. Different microbiological agents and vaccines can trigger an AAV, including severe acute respiratory syndrome coronavirus 2 (SARS-CoV2) infection and Coronavirus disease 2019 (COVID-19) vaccine.ObjectivesTo compare: a) proportion of positive ANCA (+ANCA) test in 2019 (COVID-19 pre-pandemic) vs 2021 (COVID-19 pandemic), b) clinical features and c) vasculitis activity between vasculitis related to COVID 19 vaccination vs non-related.MethodsAll ANCA tests performed in 2019 and 2021 in a referral hospital were reviewed. Additionally, we studied 18 +ANCA patients diagnosed in 2021 and accepted to participate in present study. The patients were divided in two groups: a) +ANCA after SARS-CoV-2 mRNA vaccine (COVID-related) and +ANCA before COVID-19 vaccine (COVID-nonrelated). Diagnosis of underlying AAV was based on ACR/EULAR 2022 criteria. Disease activity was assessed with Birmingham Vasculitis Activity Score (BVAS). ANCA testing was done by chemiluminescence assay using IO-FLASH (Inova, San Diego, CA) according to the instructions of the manufacturer.ResultsANCA tests were positive in 14 of 1287 cases (1.1%) and in 32 of 1434 (2.2%) cases in 2019 and 2021, respectively (figure 1, the differences were statistically significant (p=0.020). The main features of 18 ANCA+ patients diagnosed in 2021 are summarized in table 1. COVID-19 related patients showed a median of 7 points on BVAS score compared of the median of 5 points on BVAS score on not related patients.ConclusionThere seems to be an increase of +ANCA at the expense of anti-PR3 antibodies following the COVID-19 vaccine. In patients with +ANCA following vaccination there seems to be an increased disease activity according to BVAS score without reaching statistical significance.References[1]Damoiseaux, J., et al Autoimmunity Reviews.2021. PMID 34896650.[2]Irure-Ventura, et al. IScience.2022. PMID 35937087.Table 1.Main general features of 18 patients with ANCA+ test diagnosed in 2021.FEATURESAll cases n= 18Related n= 13Non-related n= 5p*Age (years), mean±SD62±1767±15.352±16.50.167Male/ Female n, (% male)10/8 (55.6)9/4 (69.2%)1/4(20)0.067ANCA-test specificity, n (%)MPO-ANCA9 (50)7 (53.8)2(40)0.609PR3-ANCA8 (44.4)5 (38.5)3(60)0.423Both1 (5.6)1 (7.7)0-CRP (mg/dL), median [IQR]2,4 [0.4-10.7]3.8 [0.4-10.1]1 [0.4-10.9]0.802ESR, mm/1st hours, median [IQR]50 [25-104]47 [25.3-71.8]50 [25-120]0.634BVAS, median [IQR]6.5 [4.2-8]7 [4-8]5 [5-8]0.842FFS, n (%)03 (16.7)2 (15.4)1 (20)0.819≥115 (83.3)11 (84.6)4 (80)0.819ENT involvement, n (%)12(66.7)10 (76.9)2 (40)0.148MSK involvement, n (%)11(61.1)7(53.8)4 (80)0.322CNS/PNS involvement, n (%)10 (55.6)7 (53.8)3 (60)0.819Lung involvement, n (%)9 (50)6 (46.2)3 (60)0.609Kidney involvement, n (%)8 (44.4)7 (53.8)1 (40)0.208Ocular involvement, n (%)2 (11.1)2 (15.4)00.366Cutaneous involvement, n (%)2 (11.1)02 (40)0.019*p values according to Man Whitney test.Abbreviations (in alphabetical order):AAV: anti-neutrophil cytoplasmic antibodies (ANCA)-associated vasculitis;ACR: American college of Rheumatology;ANCA: Antineutrophil cytoplasmic antibody;BVAS: Birmingham Vasculitis Activity Score;CNS: central nervous system;CRP: C-Reactive protein;dL: deciliter;ENT: ear, nose, throat;ESR: erythrocyte sedimentation rate;FFS: Five-Factors Score;g;IQR: Interquartile range;mg: milligram;MSK: musculoskeletal;MPO-ANCA= ANCA specific for myeloperoxidase;n=Number;PNS: peripheral nervous system;PR3-ANCA= ANCA specific for proteinase 3;SD: Standard DeviationFigure 1.Comparison of ANCA test in 2019 and 2021.[Figure omitted. See PDF]Acknowledgements:NIL.Disclosure of InterestsFabricio Benavides-Villanueva: None declared, Vanesa Calvo-Río Speakers bureau: Dra V. Calvo had participation in company-sponsored speaker´s bureau from Roche, Novartis, Galápagos, UCB Pharma, MSD, Celgene, and Grünenthal and received support for attending m etings and/or travel from Janssen, Abbvie, Roche, Novartis, MSD, UCB Pharma, Celgene, Lilly, Pfizer, Galápagos., J. Loricera Speakers bureau: Dr. J. Loricera had participation in company-sponsored speaker´s bureau from Roche, Novartis, Galápagos, UCB Pharma, MSD, Celgene, and Grünenthal., Consultant of: Dr. J. Loricera had consultation fees in company-sponsored speaker´s bureau from Roche, Novartis, Galápagos, UCB Pharma, MSD, Celgene, and Grünenthal and received support for attending meetings and/or travel from Janssen, Abbvie, Roche, Novartis, MSD, UCB Pharma, Celgene, Lilly, Pfizer, Galápagos., Juan Irure-Ventura: None declared, Marcos Lopez-Hoyos: None declared, Ricardo Blanco Speakers bureau: Dr. R. Blanco had participation in company sponsored speaker´s bureau from Abbvie, Pfizer, Roche, Bristol-Myers, Janssen, Lilly and MSD., Consultant of: Dr. R. Blanco had consultation from Abbvie, Pfizer, Roche, Bristol-Myers, Janssen, Lilly and MSD., Grant/research support from: Dr. R. Blanco received grants/research supports from Abbvie, MSD and Roche.
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The presentation contained information about the virus, how it spreads, the vaccine, who should and should not take it, when it is recommended to be taken, how it invokes an immune response on a cellular level, and what role protein synthesis plays in the vaccine. Students and their partners were given one of seven viruses to research: measles, mumps, rubella, influenza, hepatitis B, rabies, or COVID-19. Students researched the disease and its vaccine type using credible sources, such as the Centers for Disease Control and Prevention (CDC), the World Health Organization (WHO), Johns Hopkins University, etc. Students answered the following questions: * How does the virus spread? * What are the symptoms of the virus? * How common is the virus? (statistical number) * What does the virus look like? (include picture with antigens shown) * When is the vaccine recommended by the CDC? * How often does the booster for the vaccine need to be taken? * Who should not receive the vaccine? * How does the vaccine work on a cellular level? (Be specific about the type of vaccine and how it invokes an immune response) * What role does protein synthesis play in the vaccine? * What is the vaccine efficacy or effectiveness? * Does the vaccine do any of the following: * Change the host cell's DNA? * Give the person the disease?
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Introduction: Covid-19 epidemic results from an infection caused by SARS-CoV2. Evolution-based analyses on the nucleotide sequences show that SARS-CoV2 is a member of the genus Beta-coronaviruses and its genome consists of a single-stranded RNA, encoding 16 proteins. Among the structural proteins, the nucleocapsid is the most abundant protein in virus structure, highly immunogenic, with sequence conservatory. Due to a large number of mutations in the spike protein, the aim of this study was to investigate bioinformatics, expression of nucleocapsid protein and evaluate its immunogenicity as an immunogenic candidate. Materials and Methods: B and T cell epitopes of nucleocapsid protein were examined in the IEDB database. The PET28a-N plasmid was transferred to E. coli BL21(DE3) expression host, and IPTG induced recombinant protein expression. The protein was purified using Ni-NTA column affinity chromatography, and the Western blotting method was utilized to confirm it. Finally, mice were immunized with three routes of purified protein. Statistical analysis of the control group injection and test results was carried out by t-test from SPSS software. Results: The optimized gene had a Codon adaptation index (CAI) of 0/97 Percentage of codons having high- frequency distribution was improved to 85%. Expression of recombinant protein in E. coli led to the production of BoNT/B-HCC with a molecular weight of 45 kDa. The total yield of purified protein was 43 mg/L. Immunization of mice induced serum antibody response. Statistical analysis showed that the antibody titer ratio was significantly different compared to the control sample and the antibody titer was acceptable up to a dilution of 1.256000. Conclusion: According to the present study results, the protein can be used as an immunogenic candidate for developing vaccines against SARS-CoV2 in future research.
ABSTRACT
CD4+ T cell responses are exquisitely antigen specific and directed toward peptide epitopes displayed by human leukocyte antigen class II (HLA-II) on antigen-presenting cells. Underrepresentation of diverse alleles in ligand databases and an incomplete understanding of factors affecting antigen presentation in vivo have limited progress in defining principles of peptide immunogenicity. Here, we employed monoallelic immunopeptidomics to identify 358,024 HLA-II binders, with a particular focus on HLA-DQ and HLA-DP. We uncovered peptide-binding patterns across a spectrum of binding affinities and enrichment of structural antigen features. These aspects underpinned the development of context-aware predictor of T cell antigens (CAPTAn), a deep learning model that predicts peptide antigens based on their affinity to HLA-II and full sequence of their source proteins. CAPTAn was instrumental in discovering prevalent T cell epitopes from bacteria in the human microbiome and a pan-variant epitope from SARS-CoV-2. Together CAPTAn and associated datasets present a resource for antigen discovery and the unraveling genetic associations of HLA alleles with immunopathologies.
Subject(s)
COVID-19 , Deep Learning , Humans , Captan , SARS-CoV-2 , HLA Antigens , Epitopes, T-Lymphocyte , PeptidesABSTRACT
INTRODUCTION: The development of the COVID-19 pandemic has stimulated the scientific research aimed at studying of the mechanisms of formation the immunity against SARS-CoV-2. Currently, there is a need to develop a domestic simple and cost-effective specific method suitable for monitoring of T-cell response against SARS-CoV-2 in reconvalescents and vaccinated individuals. AIM: Development of a screening method for evaluation specific T-cell immunity against SARS-CoV-2. MATERIALS AND METHODS: Total 40 individuals who had mild to moderate COVID-19 and 20 healthy volunteers who did not have a history of this disease were examined. The presence and levels of IgG and IgM antibodies to SARS-CoV-2 were identified in participants sera by ELISA using the diagnostic kits from JSC Vector-Best (Novosibirsk, Russian Federation). Antigenic stimulation of mononuclear cells was carried out on commercial plates with adsorbed whole-virion inactivated SARS-CoV-2 antigen (State Research Center of Virology and Biotechnology VECTOR Novosibirsk, Russian Federation). The concentration of IFN- was measured in ELISA using the test systems from JSC Vector-Best (Novosibirsk, Russian Federation). The immunophenotyping of lymphocytes was performed on a flow cytometer Cytomics FC500 (Beckman Coulter, USA). Statistical data processing was carried out using the Microsoft Excel and STATISTICA 10 software package. RESULTS: Stimulation of mononuclear cells isolated from the peripheral blood with whole-virion inactivated SARS-CoV-2 antigen fixed at the bottom of the wells of a polystyrene plate showed a significantly higher median response in terms of IFN- production in 40 people who had history of COVID-19 compared to 20 healthy blood donors (172.1 [34.3575.1] pg/ml versus 15.4 [6.925.8] pg/ml, p 0.0001). There was no difference in median IFN- levels in supernatants collected from unstimulated mononuclear cells from COVID-19 reconvalescents and healthy donors (2.7 [0.411.4] pg/ml versus 0.8 [0.023.3] pg/ml, p 0.05). The overall sensitivity and specificity of this method were 73% (95% CI 5888%) and 100% (95% CI 100100%), respectively, at a cut-off of 50 pg/ml. CONCLUSION: The developed method for assessment of the cellular immune response to SARS-CoV-2 can be used as a screening method for monitoring the T-cell response in a population against a new coronavirus infection in recovered people.
Subject(s)
COVID-19 , SARS-CoV-2 , Humans , COVID-19/diagnosis , COVID-19/epidemiology , Pandemics , T-Lymphocytes , Enzyme-Linked Immunosorbent Assay , Antibodies, ViralABSTRACT
Biosensors are rapid and portable detection devices with great potential for the instant screening of infectious diseases. Receptors are the critical element of biosensors. They determine the specificity, sensitivity and stability. However, current receptors are mainly limited to antibodies and aptamers. Herein, we developed a glycosylated extracellular vesicle-like receptor (GlycoEVLR) for the rapid detection of virus antigens, specifically using SARS-CoV-2 as a model. The human angiotensin-converting enzyme 2 (ACE2)-overexpressed and heparin-functionalized HEK-293T cell membrane-cloaked Fe3O4 nanoparticles (NPs) were prepared as functionalizing GlycoEVLR. They were characterized as spherical core–shell structures with a diameter of around 100 nm, which were perfectly comparable to natural extracellular vesicles. Binding affinities between GlycoEVLR and spike1 (S1) antigen were demonstrated using surface plasmon resonance (SPR). The GlycoEVLR was fixed on magnetic electrodes to construct electrochemical biosensors. Using electrochemical impedance spectroscopy (EIS) as a measurement technique, the S1 antigen was detected down to 1 pg/mL within 20 min and showed a good linearity range from 1 pg/mL to 1 ng/mL. Also, the GlycoEVLR-based electrochemical biosensors showed excellent antifouling performance and stability. Overall, our work provides a useful methodology for developing extracellular vesicle-like receptors for biosensors. Combining the inherit natural receptor proteins and antifouling lipids from the host cells with engineered glycan motifs to target and sense viral antigens will open a newavenue for biosensors.