Your search keyword '"Shafi Alenizi"' showing total 6 results

1. A metabolic associated fatty liver disease risk variant in MBOAT7 regulates toll like receptor induced outcomes

Author

Jawaher Alharthi, Ali Bayoumi, Khaled Thabet, Ziyan Pan, Brian S. Gloss, Olivier Latchoumanin, Mischa Lundberg, Natalie A. Twine, Duncan McLeod, Shafi Alenizi, Leon A. Adams, Martin Weltman, Thomas Berg, Christopher Liddle, Jacob George, and Mohammed Eslam

Subjects

Science

Abstract

Hyperactivation of the toll-like receptors (TLRs) have been implicated as risk factors for more severe forms of disease in COVID-19 and metabolic (dysfunction) associated fatty liver disease (MAFLD). Here the authors report that MBOAT7 is reduced in macrophages of patients with MAFLD and COVID-19, and acts as a negative regulator of TLR signalling.

Published

2022

2. Copy number variation and expression of exportin-4 associates with severity of fibrosis in metabolic associated fatty liver disease

Author

Mayada Metwally, Ali Bayoumi, Anis Khan, Leon A. Adams, Rocio Aller, Carmelo García-Monzón, María Teresa Arias-Loste, Elisabetta Bugianesi, Luca Miele, Alisi Anna, Olivier Latchoumanin, Shuanglin Han, Shafi Alenizi, Rasha EL Sharkawy, Afaf Elattar, Rocio Gallego-Durán, Janett Fischer, Thomas Berg, Christopher Liddle, Manuel Romero-Gomez, Jacob George, and Mohammed Eslam

Subjects

MAFLD, XPO4, Fibrosis, TGFβ, Medicine, Medicine (General), R5-920

Abstract

Background: Liver fibrosis risk is a heritable trait, the outcome of which is the net deposition of extracellular matrix by hepatic stellate cell-derived myofibroblasts. Whereas nucleotide sequence variations have been extensively studied in liver fibrosis, the role of copy number variations (CNV) in which genes exist in abnormal numbers of copies (mostly due to duplication or deletion) has had limited exploration. Methods: The impact of the XPO4 CNV on histological liver damage was examined in a cohort comprised 646 Caucasian patients with biopsy-proven MAFLD and 170 healthy controls. XPO4 expression was modulated and function was examined in human and animal models. Findings: Here we demonstrate in a cohort of 816 subjects, 646 with biopsy-proven metabolic associated liver disease (MAFLD) and 170 controls, that duplication in the exportin 4 (XPO4) CNV is associated with the severity of liver fibrosis. Functionally, this occurs via reduced expression of hepatic XPO4 that maintains sustained activation of SMAD3/SMAD4 and promotes TGF-β1-mediated HSC activation and fibrosis. This effect was mediated through termination of nuclear SMAD3 signalling. XPO4 demonstrated preferential binding to SMAD3 compared to other SMADs and led to reduced SMAD3-mediated responses as shown by attenuation of TGFβ1 induced SMAD transcriptional activity, reductions in the recruitment of SMAD3 to target gene promoters following TGF-β1, as well as attenuation of SMAD3 phosphorylation and disturbed SMAD3/SMAD4 complex formation. Interpretation: We conclude that a CNV in XPO4 is a critical mediator of fibrosis severity and can be exploited as a therapeutic target for liver fibrosis. Funding: ME and JG are supported by the Robert W. Storr Bequest to the Sydney Medical Foundation, University of Sydney; a National Health and Medical Research Council of Australia (NHMRC) Program Grant (APP1053206) and Project and ideas grants (APP2001692, APP1107178 and APP1108422). AB is supported by an Australian Government Research Training Program (RTP) scholarship. EB is supported by Horizon 2020 under grant 634413 for the project EPoS.

Published

2021

3. Mistranslation Drives Alterations in Protein Levels and the Effects of a Synonymous Variant at the Fibroblast Growth Factor 21 Locus

Author

Ali Bayoumi, Asmaa Elsayed, Shuanglin Han, Salvatore Petta, Leon A. Adams, Rocio Aller, Anis Khan, Carmelo García‐Monzón, María Teresa Arias‐Loste, Luca Miele, Olivier Latchoumanin, Shafi Alenizi, Rocio Gallego‐Durán, Janett Fischer, Thomas Berg, Antonio Craxì, Mayada Metwally, Liang Qiao, Christopher Liddle, Hannele Yki‐Järvinen, Elisabetta Bugianesi, Manuel Romero‐Gomez, Jacob George, and Mohammed Eslam

Subjects

fibroblast growth factor 21, genetics, metabolic, metabolic associated fatty liver disease, Science

Abstract

Abstract Fibroblast growth factor 21 (FGF21) is a liver‐derived hormone with pleiotropic beneficial effects on metabolism. Paradoxically, FGF21 levels are elevated in metabolic diseases. Interventions that restore metabolic homeostasis reduce FGF21. Whether abnormalities in FGF21 secretion or resistance in peripheral tissues is the initiating factor in altering FGF21 levels and function in humans is unknown. A genetic approach is used to help resolve this paradox. The authors demonstrate that the primary event in dysmetabolic phenotypes is the elevation of FGF21 secretion. The latter is regulated by translational reprogramming in a genotype‐ and context‐dependent manner. To relate the findings to tissues outcomes, the minor (A) allele of rs838133 is shown to be associated with increased hepatic inflammation in patients with metabolic associated fatty liver disease. The results here highlight a dominant role for translation of the FGF21 protein to explain variations in blood levels that is at least partially inherited. These results provide a framework for translational reprogramming of FGF21 to treat metabolic diseases.

Published

2021

4. Re-Shaping the Pancreatic Cancer Tumor Microenvironment: A New Role for the Metastasis Suppressor NDRG1

Author

Jiawei Chang, Zoe H. Y. Lo, Shafi Alenizi, and Zaklina Kovacevic

Subjects

Cancer Research, Oncology

Abstract

Pancreatic cancer (PaC) is a highly aggressive disease, with poor response to current treatments and 5-year survival rates of 10–15%. PaC progression is facilitated by its interaction with the complex and multifaceted tumor microenvironment (TME). In the TME, cancer cells and surrounding stromal cells constantly communicate with each other via the secretion and uptake of factors including cytokines, chemokines, growth factors, metabolites, and extracellular vesicles (EVs), reshaping the landscape of PaC. Recent studies demonstrated that the metastasis suppressor N-myc downstream regulated 1 (NDRG1) not only inhibits oncogenic signaling pathways in PaC cells but also alters the communication between PaC cells and the surrounding stroma. In fact, NDRG1 was found to influence the secretome of PaC cells, alter cancer cell metabolism, and interfere with intracellular trafficking and intercellular communication between PaC cells and surrounding fibroblasts. This review will present recent advancements in understanding the role of NDRG1 in PaC progression, with a focus on how this molecule influences PaC-stroma communication and its potential for re-shaping the PaC TME.

Published

2023

5. Copy number variation and expression of exportin-4 associates with severity of fibrosis in metabolic associated fatty liver disease

Author

Mohammed Eslam, Shuanglin Han, Luca Miele, Mayada Metwally, Thomas Berg, Manuel Romero-Gómez, Christopher Liddle, Afaf Elattar, Janett Fischer, Jacob George, Elisabetta Bugianesi, Shafi Alenizi, Olivier Latchoumanin, Ali Bayoumi, Carmelo García-Monzón, Rasha El Sharkawy, Rocío Gallego-Durán, María Teresa Arias-Loste, Anis Khan, Alisi Anna, Rocío Aller, Leon A. Adams, Sydney Medical Foundation, University of Sydney, National Health and Medical Research Council (Australia), Australian Government, and European Commission

Subjects

Adult, Liver Cirrhosis, Male, Medicine (General), DNA Copy Number Variations, Settore MED/12 - GASTROENTEROLOGIA, MAFLD, Disease, SMAD, Karyopherins, Inbred C57BL, General Biochemistry, Genetics and Molecular Biology, Cell Line, Mice, Liver disease, TGFβ, R5-920, Transforming Growth Factor beta, Fibrosis, Non-alcoholic Fatty Liver Disease, Risk Factors, Gene duplication, XPO4, medicine, Animals, Humans, Smad3 Protein, Copy-number variation, Gene, Smad4 Protein, business.industry, Fatty liver, General Medicine, Middle Aged, medicine.disease, Fatty Liver, Mice, Inbred C57BL, Commentary, Cancer research, Medicine, Female, business, Research Paper

Abstract

[Background] Liver fibrosis risk is a heritable trait, the outcome of which is the net deposition of extracellular matrix by hepatic stellate cell-derived myofibroblasts. Whereas nucleotide sequence variations have been extensively studied in liver fibrosis, the role of copy number variations (CNV) in which genes exist in abnormal numbers of copies (mostly due to duplication or deletion) has had limited exploration., [Methods] The impact of the XPO4 CNV on histological liver damage was examined in a cohort comprised 646 Caucasian patients with biopsy-proven MAFLD and 170 healthy controls. XPO4 expression was modulated and function was examined in human and animal models., [Findings] Here we demonstrate in a cohort of 816 subjects, 646 with biopsy-proven metabolic associated liver disease (MAFLD) and 170 controls, that duplication in the exportin 4 (XPO4) CNV is associated with the severity of liver fibrosis. Functionally, this occurs via reduced expression of hepatic XPO4 that maintains sustained activation of SMAD3/SMAD4 and promotes TGF-β1-mediated HSC activation and fibrosis. This effect was mediated through termination of nuclear SMAD3 signalling. XPO4 demonstrated preferential binding to SMAD3 compared to other SMADs and led to reduced SMAD3-mediated responses as shown by attenuation of TGFβ1 induced SMAD transcriptional activity, reductions in the recruitment of SMAD3 to target gene promoters following TGF-β1, as well as attenuation of SMAD3 phosphorylation and disturbed SMAD3/SMAD4 complex formation., [Interpretation] We conclude that a CNV in XPO4 is a critical mediator of fibrosis severity and can be exploited as a therapeutic target for liver fibrosis., ME and JG are supported by the Robert W. Storr Bequest to the Sydney Medical Foundation, University of Sydney; a National Health and Medical Research Council of Australia (NHMRC) Program Grant (APP1053206) and Project and ideas grants (APP2001692, APP1107178 and APP1108422). AB is supported by an Australian Government Research Training Program (RTP) scholarship. EB is supported by Horizon 2020 under grant 634413 for the project EPoS.

Published

2021

6. Mistranslation Drives Alterations in Protein Levels and the Effects of a Synonymous Variant at the Fibroblast Growth Factor 21 Locus

Author

Mayada Metwally, Salvatore Petta, Liang Qiao, Asmaa Elsayed, Christopher Liddle, Antonio Craxì, Elisabetta Bugianesi, Carmelo García-Monzón, Luca Miele, Leon A. Adams, Hannele Yki-Järvinen, Olivier Latchoumanin, Ali Bayoumi, Rocío Aller, Thomas Berg, Shafi Alenizi, María Teresa Arias-Loste, Rocío Gallego-Durán, Anis Khan, Manuel Romero-Gómez, Shuanglin Han, Janett Fischer, Jacob George, Mohammed Eslam, Bayoumi A., Elsayed A., Han S., Petta S., Adams L.A., Aller R., Khan A., Garcia-Monzon C., Arias-Loste M.T., Miele L., Latchoumanin O., Alenizi S., Gallego-Duran R., Fischer J., Berg T., Craxi A., Metwally M., Qiao L., Liddle C., Yki-Jarvinen H., Bugianesi E., Romero-Gomez M., George J., Eslam M., Department of Medicine, HUS Internal Medicine and Rehabilitation, University of Helsinki, Helsinki University Hospital Area, Sydney Medical Foundation, University of Sydney, National Health and Medical Research Council (Australia), Australian Government, and European Commission

Subjects

FGF21, General Chemical Engineering, General Physics and Astronomy, Medicine (miscellaneous), CODON USAGE BIAS, 02 engineering and technology, 01 natural sciences, GLUCOSE, ACTIVATION, PF-05231023, ComputingMilieux_COMPUTERSANDEDUCATION, General Materials Science, genetics, Cells, Cultured, INSULIN-RESISTANCE, Full Paper, Fatty liver, General Engineering, fibroblast growth factor 21, genetics, metabolic, metabolic associated fatty liver disease, Cells, Cultured, Enzyme-Linked Immunosorbent Assay, Fatty Liver, Fibroblast Growth Factors, Humans, Inflammation, Liver, Full Papers, 021001 nanoscience & nanotechnology, Phenotype, 3. Good health, Liver, OBESITY, 221 Nano-technology, 0210 nano-technology, Reprogramming, EXPRESSION, medicine.medical_specialty, Settore MED/12 - GASTROENTEROLOGIA, Science, Enzyme-Linked Immunosorbent Assay, fibroblast growth factor 21, Biology, 010402 general chemistry, Biochemistry, Genetics and Molecular Biology (miscellaneous), metabolic associated fatty liver disease, Insulin resistance, metabolic, Internal medicine, medicine, Humans, Secretion, FGF21 RESISTANCE, Allele, Inflammation, medicine.disease, 0104 chemical sciences, Fatty Liver, Fibroblast Growth Factors, Endocrinology, RNA SECONDARY STRUCTURE, TRANSLATION, Hormone

Abstract

This article also appears in: Health, Medical, and Life Sciences Virtual Issue for Advanced Science., Fibroblast growth factor 21 (FGF21) is a liver-derived hormone with pleiotropic beneficial effects on metabolism. Paradoxically, FGF21 levels are elevated in metabolic diseases. Interventions that restore metabolic homeostasis reduce FGF21. Whether abnormalities in FGF21 secretion or resistance in peripheral tissues is the initiating factor in altering FGF21 levels and function in humans is unknown. A genetic approach is used to help resolve this paradox. The authors demonstrate that the primary event in dysmetabolic phenotypes is the elevation of FGF21 secretion. The latter is regulated by translational reprogramming in a genotype- and context-dependent manner. To relate the findings to tissues outcomes, the minor (A) allele of rs838133 is shown to be associated with increased hepatic inflammation in patients with metabolic associated fatty liver disease. The results here highlight a dominant role for translation of the FGF21 protein to explain variations in blood levels that is at least partially inherited. These results provide a framework for translational reprogramming of FGF21 to treat metabolic diseases., M.E. and J.G. were supported by the Robert W. Storr Bequest to the Sydney Medical Foundation, University of Sydney; a National Health and Medical Research Council of Australia (NHMRC) Program Grant (APP1053206) and Project and ideas grants (APP2001692, APP1107178 and APP1108422). A.B. was supported by an Australian Government Research Training Program (RTP) scholarship. E.B. was supported by Horizon 2020 under grant 634413 for the project EPoS.

Published

2020