Mohammad Ameen Al-Aghbar
@sidra.org
Translational Medicine
Sidra Medicine
RESEARCH INTERESTS
TCR
T cell
DCs
LFA-1
APC
Scopus Publications
Scopus Publications
Rana El Nahas, Mohammad Ameen Al-Aghbar, Laura Herrero, Nicholas van Panhuys, and Meritxell Espino-Guarch
MDPI AG
Type 1 diabetes (T1D) is a chronic autoimmune disease characterized by the destruction of insulin-producing pancreatic β-cells by the immune system. Although conventional therapeutic modalities, such as insulin injection, remain a mainstay, recent years have witnessed the emergence of novel treatment approaches encompassing immunomodulatory therapies, such as stem cell and β-cell transplantation, along with revolutionary gene-editing techniques. Notably, recent research endeavors have enabled the reshaping of the T-cell repertoire, leading to the prevention of T1D development. Furthermore, CRISPR–Cas9 technology has demonstrated remarkable potential in targeting endogenous gene activation, ushering in a promising avenue for the precise guidance of mesenchymal stem cells (MSCs) toward differentiation into insulin-producing cells. This innovative approach holds substantial promise for the treatment of T1D. In this review, we focus on studies that have developed T1D models and treatments using gene-editing systems.
Mohammad Ameen Al-Aghbar, Ashwin K. Jainarayanan, Michael L. Dustin, and Steve R. Roffler
Springer Science and Business Media LLC
AbstractT cells are critically important for host defense against infections. T cell activation is specific because signal initiation requires T cell receptor (TCR) recognition of foreign antigen peptides presented by major histocompatibility complexes (pMHC) on antigen presenting cells (APCs). Recent advances reveal that the TCR acts as a mechanoreceptor, but it remains unclear how pMHC/TCR engagement generates mechanical forces that are converted to intracellular signals. Here we propose a TCR Bending Mechanosignal (TBM) model, in which local bending of the T cell membrane on the nanometer scale allows sustained contact of relatively small pMHC/TCR complexes interspersed among large surface receptors and adhesion molecules on the opposing surfaces of T cells and APCs. Localized T cell membrane bending is suggested to increase accessibility of TCR signaling domains to phosphorylation, facilitate selective recognition of agonists that form catch bonds, and reduce noise signals associated with slip bonds.
Tracy Augustine, Mohammad Ameen Al-Aghbar, Moza Al-Kowari, Meritxell Espino-Guarch, and Nicholas van Panhuys
Frontiers Media SA
Asthma is ranked among the most common chronic conditions and has become a significant public health issue due to the recent and rapid increase in its prevalence. Investigations into the underlying genetic factors predict a heritable component for its incidence, estimated between 35% and 90% of causation. Despite the application of large-scale genome-wide association studies (GWAS) and admixture mapping approaches, the proportion of variants identified accounts for less than 15% of the observed heritability of the disease. The discrepancy between the predicted heritable component of disease and the proportion of heritability mapped to the currently identified susceptibility loci has been termed the ‘missing heritability problem.’ Here, we examine recent studies involving both the analysis of genetically encoded features that contribute to asthma and also the role of non-encoded heritable characteristics, including epigenetic, environmental, and developmental aspects of disease. The importance of vertical maternal microbiome transfer and the influence of maternal immune factors on fetal conditioning in the inheritance of disease are also discussed. In order to highlight the broad array of biological inputs that contribute to the sum of heritable risk factors associated with allergic disease incidence that, together, contribute to the induction of a pro-atopic state. Currently, there is a need to develop in-depth models of asthma risk factors to overcome the limitations encountered in the interpretation of GWAS results in isolation, which have resulted in the missing heritability problem. Hence, multiomics analyses need to be established considering genetic, epigenetic, and functional data to create a true systems biology-based approach for analyzing the regulatory pathways that underlie the inheritance of asthma and to develop accurate risk profiles for disease.
Mohammad Ameen Al-Aghbar, Yeh-Shiu Chu, Bing-Mae Chen, and Steve R. Roffler
Frontiers Media SA
How T cell receptors (TCRs) are triggered to start signaling is still not fully understood. It has been proposed that segregation of the large membrane tyrosine phosphatase CD45 from engaged TCRs initiates signaling by favoring phosphorylation of immunoreceptor tyrosine-based activation motifs (ITAMs) in the cytoplasmic domains of CD3 molecules. However, whether CD45 segregation is important to initiate triggering is still uncertain. We examined CD45 segregation from TCRs engaged to anti-CD3 scFv with high or low affinity and with defined molecular lengths on glass-supported lipid bilayers using total internal reflection microscopy. Both short and elongated high-affinity anti-CD3 scFv effectively induced similar calcium mobilization, Zap70 phosphorylation, and cytokine secretion in Jurkat T cells but CD45 segregated from activated TCR microclusters significantly less for elongated versus short anti-CD3 ligands. In addition, at early times, triggering cells with both high and low affinity elongated anti-CD3 scFv resulted in similar degrees of CD3 co-localization with CD45, but only the high-affinity scFv induced T cell activation. The lack of correlation between CD45 segregation and early markers of T cell activation suggests that segregation of CD45 from engaged TCRs is not mandatory for initial triggering of TCR signaling by elongated high-affinity ligands.
Bing-Mae Chen, Mohammad Ameen Al-Aghbar, Chien-Hsin Lee, Tien-Ching Chang, Yu-Cheng Su, Ya-Chen Li, Shih-En Chang, Chin-Chuan Chen, Tsai-Hua Chung, Yuan-Chun Liao,et al.
Frontiers Media SA
T lymphocytes are important mediators of adoptive immunity but the mechanism of T cell receptor (TCR) triggering remains uncertain. The interspatial distance between engaged T cells and antigen-presenting cells (APCs) is believed to be important for topological rearrangement of membrane tyrosine phosphatases and initiation of TCR signaling. We investigated the relationship between ligand topology and affinity by generating a series of artificial APCs that express membrane-tethered anti-CD3 scFv with different affinities (OKT3, BC3, and 2C11) in addition to recombinant class I and II pMHC molecules. The dimensions of membrane-tethered anti-CD3 and pMHC molecules were progressively increased by insertion of different extracellular domains. In agreement with previous studies, elongation of pMHC molecules or low-affinity anti-CD3 scFv caused progressive loss of T cell activation. However, elongation of high-affinity ligands (BC3 and OKT3 scFv) did not abolish TCR phosphorylation and T cell activation. Mutation of key amino acids in OKT3 to reduce binding affinity to CD3 resulted in restoration of topological dependence on T cell activation. Our results show that high-affinity TCR ligands can effectively induce TCR triggering even at large interspatial distances between T cells and APCs.
H. Boutennoune, A. Qaqish, M. Al-Aghbar, S. Abdel-Hafez, and K. Al-Qaoud
EDP Sciences
A pre-designed plasmid containing the gene encoding the second subunit of Echinococcus granulosus AgB8 (EgAgB8/2) was used to study the effect of the immunization route on the immune response in BALB/c mice. Mice were immunized with pDRIVEEgAgB8/ 2 or pDRIVE empty cassette using the intramuscular (i.m.), intranasal (i.n.) or the epidermal gene gun (g.g.) routes. Analysis of the antibody response and cytokine data revealed that gene immunization by the i.m. route induced a marked bias towards a T helper type 1 (Th1) immune response as characterized by high IFN-γ gene expression and a low IgG1/IgG2a reactivity index (R.I.) ratio of 0.04. The i.n. route showed a moderate IFN-γ expression but a higher IgG1/IgG2a R.I. ratio of 0.25 indicating a moderate Th1 response. In contrast, epidermal g.g. immunization induced a Th2 response characterized by high IL-4 expression and the highest IgG1/IgG2a R.I. ratio of 0.58. In conclusion, this study showed the advantage of genetic immunization using the i.m. route and i.n. over the epidermal g.g. routes in the induction of Th1 immunity in response to E. granulosus AgB gene immunization.
Khaled M. Al-Qaoud, Mariam M. Al-Omari, Mohammad Al-Aghbar, and Sami K. Abdel-Hafez
Mary Ann Liebert Inc
Cystic echinococcosis (CE), an endemic cosmopolitan zoonotic helminthic disease caused by the larval stage of Echinococcus granulosus, lacks reliable diagnostic tools that fulfill the criteria of high sensitivity and specificity. Antigen B (AgB), a thermostable lipoprotein that constitutes a considerable fraction of the cystic hydatid fluid (HF), is being considered as a suitable source for vaccination and immunodiagnosis of CE due to its high specificity. Genetic immunization was used to immunize BALB/c mice with the second subunit of antigen B (EgAgB8/2) for the production of monoclonal antibodies (MAb). Fusion products between the spleen cells and myeloma cells produced six MAbs of the following isotypes: IgG2a (two clones), IgG2b (three clones), and IgM (one clone). The MAbs were tested for their specificity to crude sheep hydatid fluid (CSHF) versus other antigens prepared from other helminthic parasites including Toxocara canis, Acanthocheilonema viteae, Fasciola hepatica, Schistosoma mansoni, and Taenia. Five MAbs reacted with E. granulosus antigens, one showed cross reactivity with S. mansonia antigens, and one showed a high reactivity with E. granulosus but was cross reactive with all helminthic antigens tested. Using SDS-PAGE and immunoblotting under reducing conditions, all MAbs identified the four AgB subunits with molecular weights of 8, 16, 24, and 36 kDa. Further work on the specificity and sensitivity of these MAbs as well as their use in detecting circulating parasite antigens and in antigen purification will be assessed in future studies.