Your search keyword '"Lotfy, Sohilla"' showing total 3 results

1. Genetic Testing in Egyptian Patients with Inborn Errors of Immunity: a Single-Center Experience.

Author

El Hawary RE, Meshaal SS, Abd Elaziz DS, Alkady R, Lotfy S, Eldash A, Erfan A, Chohayeb EA, Saad MM, Darwish RK, Boutros JA, Galal NM, and Elmarsafy AM

Subjects

Adaptor Proteins, Signal Transducing, Consanguinity, Egypt epidemiology, Genetic Diseases, Inborn, Guanine Nucleotide Exchange Factors, High-Throughput Nucleotide Sequencing, Humans, Phenotype, Genetic Testing methods, Immune System Diseases diagnosis, Immune System Diseases genetics

Abstract

Background: Inborn errors of immunity (IEI) are a group of heterogeneous disorders with geographic and ethnic diversities. Although IEI are common in Egypt, genetic diagnosis is limited due to financial restrictions. This study aims to characterize the genetic spectrum of IEI patients in Egypt and highlights the adaptation of the molecular diagnostic methods to a resource-limited setting., Methods: Genetic material from 504 patients was studied, and proper diagnosis was achieved in 282 patients from 246 families. Mutational analysis was done by Sanger sequencing, next-generation sequencing (NGS) targeting customized genes panels, and whole-exome sequencing (WES) according to the patients' phenotypes and availability of genetic testing., Results: A total of 194 variants involving 72 different genes were detected with RAG1/2 genes being the most encountered followed by DOCK8, CYBA, LRBA, NCF1, and JAK3. Autosomal recessive (AR) inheritance was detected in 233/282 patients (82.6%), X-linked (XL) recessive inheritance in 32/282 patients (11.3%), and autosomal dominant (AD) inheritance in 18/282 patients (6.4%), reflecting the impact of consanguineous marriages on the prevalence of different modes of inheritance and the distribution of the various IEI disorders., Conclusion: The study showed that a combination of Sanger sequencing in selected patients associated with targeted NGS or WES in other patients is an effective diagnostic strategy for IEI diagnosis in countries with limited diagnostic resources. Molecular testing can be used to validate other nonexpensive laboratory techniques that help to reach definitive diagnosis and help in genetic counseling and taking proper therapeutic decisions including stem cell transplantation or gene therapy., (© 2022. The Author(s).)

Published

2022

2. Purine nucleoside phosphorylase (PNP) deficiency: across-the-board severe combined immunodeficiency.

Author

Chohayeb, Engy A., Lotfy, Sohilla, El Hawary, Rabab E., Meshaal, Safa S., Mansour, Iman A., Galal, Nermeen M., and Elmarsafy, Aisha M.

Subjects

*SEVERE combined immunodeficiency, *HEMATOPOIETIC stem cell transplantation, *FRAMESHIFT mutation, *GENETIC testing, *MISSENSE mutation

Abstract

Background: Purine nucleoside phosphorylase (PNP) deficiency is a rare, autosomal recessive, inborn error of immunity. It is characterized by progressive immune abnormalities ranging from severe combined immunodeficiency (SCID) to combined immunodeficiency less profound than SCID, neurological abnormalities and autoimmunity. Early detection and diagnosis before the development of life-threatening complications are crucial. Methods: Immune cell subsets were assessed by flow cytometry, serum immunoglobulins and uric acid levels were evaluated, and genetic testing was performed for all patients. Results: Herein, we present six Egyptian PNP deficiency patients from four different families. We describe the patients' clinical phenotypes, their immunological profile as well as their genetic results. Sequence analysis results detected 4 different variants in the PNP gene; 1 likely pathogenic frameshift deletion c.452del; p.Asn151MetfsTer20 was found in one family, 1 pathogenic nonsense variant c.172C > T; p.Arg58Ter, and 2 likely pathogenic missense variants c.682G > C; p.Ala228Pro and c.722T > C; pIle2241Thr. Conclusion: In conclusion, PNP deficiency is a variable immunodeficiency and should be considered in various clinical contexts, with or without neurological manifestations. Hematopoietic stem cell transplantation offers a good treatment option, with excellent clinical outcomes, when performed in a timely manner. [ABSTRACT FROM AUTHOR]

Published

2024

3. Clinical and immunological features of four patients with activation‐induced cytidine deaminase deficiency: Renal amyloidosis and other presentations.

Author

Meshaal, Safa S., El Hawary, Rabab E., Abd Elaziz, Dalia S., Eldash, Alia, Darwish, Rania, Erfan, Aya, Lotfy, Sohilla, Saad, Mai M., Chohayeb, Engy A., Nagy, Mohamed S., Alkady, Radwa, Boutros, Jeannette A., Galal, Nermeen M., and Elmarsafy, Aisha M.

Subjects

*IMMUNOGLOBULIN class switching, *CYTIDINE deaminase, *DELAYED diagnosis, *GENETIC testing, *FLOW cytometry, *IMMUNOGLOBULIN M

Abstract

Introduction Methods Results Conclusion Activation‐induced cytidine deaminase (AID) deficiency is a rare autosomal recessive inborn error of immunity (IEI) characterized by increased susceptibility to infections, autoimmunity, and/or autoinflammation. AID plays an important role in immunoglobulin class switching and somatic hypermutation. AID deficiency patients have very low or absent levels of IgG, IgA, and IgE, while IgM level is elevated. The disease is designated as type 2 hyperimmunoglobulin M syndrome (HIGM‐2). To date, around 130 patients with HIGM‐2 have been reported, none from Egypt.Four patients from three different consanguineous families with elevated serum IgM and low IgG and IgA were included in the study. After the exclusion of CD40 and/or CD40L deficiency by flow cytometry, patients’ samples were tested by a panel covering 452 genes (four bases PID‐Pro) on the Illumina Miseq platform.All patients suffered repeated infections since childhood. Patients 1–3 had inflammatory bowel disease‐like (IBD‐like) symptoms, while patient 4 did not have autoimmune manifestations. Patient 1 is the first HIGM‐2 patient to be reported to have renal amyloidosis as part of the autoinflammation. Patients 1–3 had the same pathogenic variant (NM_020661.4 (AID):c.406del, p.Ile136Ter), while patient 4 had another pathogenic variant (NM_020661.4 (AID):c.374G > A, p.Gly125Glu). The variant p.Ile136Ter was not reported before in any of the documented HIGM‐2 patients.HIGM‐2 is a rare IEI that can be overlooked; hence, patients’ diagnosis is delayed. Autoimmune and autoinflammatory manifestations develop later in the disease course leading to significant morbidities. The diagnosis can be suspected after exclusion of CD40/CD40L deficiencies by flow cytometry, and the diagnosis can be confirmed by genetic testing. [ABSTRACT FROM AUTHOR]

Published

2024