Mostafa K. El Awady scite author profile

Recent reports linking Down syndrome (DS) to maternal polymorphisms at the methylenetetrahydrofolate reductase (MTHFR) gene locus have generated great interest among investigators in the field. The present study aimed at evaluation of MTHFR 677C/T and 1298A/C polymorphisms in the MTHFR gene as maternal risk factors for DS. Forty two mothers of proven DS outcomes and forty eight control mothers with normal offspring were included. Complete medical and nutritional histories for all mothers were taken with special emphasis on folate intake. Folic acid intake from food or vitamin supplements was significantly low (below the Recommended Daily Allowance) in the group of case mothers compared to control mothers. Frequencies of MTHFR 677T and MTHFR 1298C alleles were significantly higher among case mothers (32.1% and 57.1%, respectively) compared to control mothers (18.7% and 32.3%, respectively). Heterozygous and homozygous genotype frequencies of MTHFR at position 677 (CT and TT) were higher among case mothers than controls (40.5% versus 25% and 11.9% versus 6.2%, respectively) with an odds ratio of 2.34 (95% confidence interval [CI] 0.93–5.89) and 2.75 (95% CI 0.95–12.77), respectively. Interestingly, the homozygous genotype frequency (CC) at position 1298 was significantly higher in case mothers than in controls (33.3% versus 2.1% respectively) with an odds ratio of 31.5 (95% CI 3.51 to 282.33) indicating that this polymorphism may have more genetic impact than 677 polymorphism. Heterozygous genotype (AC) did not show significant difference between the two groups. We here report on the first pilot study of the possible genetic association between DS and MTHFR 1298A/C genotypes among Egyptians. Further extended studies are recommended to confirm the present work.

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Hepatitis C Virus RNA Strands Detection in Peripheral Blood Mononuclear Cells Legitimizes Virus Eradication in Negative Serum PCR Naïve and Post-treatment Patients

Alla¹,

Awady²

2017

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Background and Aims: Hepatitis C virus (HCV) hepatotropism is associated with intra-peripheral blood mononuclear cell (PBMC) infection that causes post-treatment relapse in RNA seronegative patients. Our understanding of the association of non-viremic hepatic fibrosis with positive anti-HCV IgG antibodies and active hepatocellular damage might be increased by PBMCs screening for intracellular infection. Thus, the goals of this study included evaluation of PBMCs PCR for diagnosing HCV infection, addressing PBMCs plus serum real-time (SRT) PCR benefits over SRT-PCR alone, studying intra-PBMCs distribution of RNA sense and antisense strands, and identifying treatment feasibility in solitary intracellular infection.Methods: Enzyme-linked immunosorbent assay, SRT-PCR and PBMCs PCR were used to evaluate HCV infection in 401 subjects. The patients were classified into groups of negative controls (n = 30), positive controls (n = 63), non-viremia post-treatment (experienced; n = 166) and naïve (n = 49) cases, and non-viremia positive PBMCs PCR naïve (n = 35) and experienced (n = 58) patients.Results: The diagnosis of true positive and negative by PBMCs PCR and SRT-PCR had 100% and 96.7% compatibility respectively. PBMCs PCR detected intracellular HCV infection in 49 out of 215 non-viremia patients; among them, naïve cirrhotics had significantly higher number of intracellular infection than the naïve non-cirrhotic (p < 0.001) and experienced patients (p < 0.0001). Antisense and sense strands were respectively recognized in naïve and experienced cases (p = 0.01218). Intracellular HCV strands were detected in 18.02% of experienced patients. Recognition of intracellular RNA strands showed significant decline in experienced compared to naïve patients (p < 0.05).Conclusion: PBMCs PCR is a valid diagnostic test that can diagnose intracellular HCV when SRT-PCR is negative. Antisense and sense strands are respectively recognized more often in naïve and experienced patients. The expected overall relapsing rate in our cohort was 18.02%. Intra-PBMC infections are associated with liver cirrhosis in naïve non-viremia patients. Eradication of intracellular strands is recommended to avoid RNA seroconversion.Ethical approval certificate: Registration number 10231.

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A multiepitope peptide vaccine against HCV stimulates neutralizing humoral and persistent cellular responses in mice

et al. 2019

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BackgroundAlthough DAAs hold promise to significantly reduce rates of chronic HCV infections, its eradication still requires development of an effective vaccine. Prolonged T cell responses and cross neutralizing antibodies are ideal for vaccination against the infection. We aimed to design and synthesize a 6 multi epitope peptide vaccine candidate and provide evidence for production of extended cellular and neutralizing Abs in mice.MethodsSix peptides derived from conserved epitopes in E1, E2 (n = 2),NS4B, NS5A and NS5B were designed, synthesized in a multiple antigenic peptide (MAP) form and administered w/o adjuvant to BALB/c mice as HCVp6-MAP at doses ranging from 800 ng to 16 μg. Humoral responses to structural epitopes were assayed by ELISA at different times after injection. ELISpot assay was used to evaluate IFN ɣ producing CD4+/ CD8+ T- lymphocytes at extended durations i.e. > 20 weeks. Viral neutralization by mice sera was tested for genotypes 2a (JFH1) and a chimeric 2a/4a virus (ED43/JFH1) in HCVcc culture.ResultsHCVp6-MAP confers potent viral neutralization and specific cellular responses at > 1600 ng/ animal for at least 20 weeks.ConclusionWe report on a promising anti HCV vaccine for future studies on permissive hosts and in clinical trials.

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Key Players of Hepatic Fibrosis

Dawood

El-Meguid

Salum

et al. 2020

Journal of Interferon & Cytokine Research

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Bioinformatics prediction of B and T cell epitopes within the spike and nucleocapsid proteins of SARS-CoV2

Dawood¹,

El-Meguid²,

Salum³

et al. 2021

Journal of Infection and Public Health

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Background The striking difference in severity of SARS CoV2 infection among global population is partly attributed to viral factors. With the spike (S) and nucleocapsid (N) are the most immunogenic subunits, genetic diversity and antigenicity of S and N are key players in virulence and in vaccine development. Aim This paper aims at identifying immunogenic targets for better vaccine development and/or immunotherapy of COVID 19 pandemic. Methods 18 complete genomes of SARS CoV2 ( n = 14), SARS CoV ( n = 2) and MERS CoV ( n = 2) were examined. Bioinformatics of viral genetics and protein folding allowed functional tuning of NH2 Terminal Domain (NTD) of S protein and development of epitope maps for B and T cell responses. Conclusion A deletion of amino acid residues Y144 and G107 were discovered in NTD of S protein derived from Indian and French isolates resulting in altered pocket structure exclusively located in NTD and reduced affinity of NTD binding to endogenous nAbs and disrupted NTD mediated cell entry. We therefore, proposed a set of B and T cell epitopes based on Immune Epitope Database, homologous epitopes for nAbs in convalescent plasma post SARS CoV infection and functional domains of S (NTD, Receptor Binding domain and the unique polybasic Furin cleavage site at S1/S2 junction). Nevertheless, laboratory data are required to develop vaccine and immunotherapeutics.

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