Aref G. Ebrahimi scite author profile

SUMMARY We hypothesized that the known heterogeneity of pancreatic β cells was due to subpopulations of β cells at different stages of their lifecycle with different functional capacities and that further changes occur with metabolic stress and aging. We identified new markers of aging in β cells, including IGF1R. In β cells IGF1R expression correlated with age, dysfunction and with expression of known age markers p16ink4a, p53BP1 and senescence-associated β-galactosidase. The new markers showed striking heterogeneity both within and between islets in both mouse and human pancreas. Acute induction of insulin resistance with an insulin receptor antagonist or chronic ER stress resulted in increased expression of aging markers, providing insight into how metabolic stress might accelerate dysfunction and decline of β cells. These novel findings about β-cell and islet heterogeneity, and how they change with age, open up an entirely new set of questions about the pathogenesis of type 2 diabetes.

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Beta cell identity changes with mild hyperglycemia: Implications for function, growth, and vulnerability

Ebrahimi

Hollister-Lock

Sullivan

et al. 2020

Molecular Metabolism

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Exonuclease requirements for mammalian ribosomal RNA biogenesis and surveillance

Pirouz

Munafò

Ebrahimi

et al. 2019

Nat Struct Mol Biol

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Ribosomal RNA (rRNA) biogenesis is a multistep process requiring several nuclear and cytoplasmic exonucleases. The exact processing steps for mammalian 5.8S rRNA remain obscure. Here, using loss-of-function approaches in mouse embryonic stem cells and deep sequencing of rRNA intermediates, we investigate at nucleotide resolution the requirements of exonucleases known to be involved in 5.8S maturation, and explore the role of the Perlman syndrome-associated 3’-5’ exonuclease Dis3l2 in rRNA processing. We uncover a novel cytoplasmic intermediate that we name ‘7SB’ rRNA that is generated through sequential processing by distinct exosome complexes. 7SB rRNA can be oligoadenylated by an unknown enzyme and/or oligouridylated by TUT4/7 and subsequently processed by Dis3l2 and Eri1. Moreover, exosome depletion triggers Dis3l2-mediated decay (DMD) as a surveillance pathway for rRNAs. Our data identify previously unknown 5.8S rRNA processing steps and provide nucleotide level insight into the exonuclease requirements for mammalian rRNA processing.

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Aref G. Ebrahimi

β Cell Aging Markers Have Heterogeneous Distribution and Are Induced by Insulin Resistance

Beta cell identity changes with mild hyperglycemia: Implications for function, growth, and vulnerability

Exonuclease requirements for mammalian ribosomal RNA biogenesis and surveillance

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