Sameen Fatima scite author profile

A major obstacle in diabetes is the metabolic or hyperglycemic memory, which lacks specific therapies. Here we show that glucose-mediated changes in gene expression largely persist in diabetic kidney disease (DKD) despite reversing hyperglycemia. The senescence-associated cyclin-dependent kinase inhibitor p21 (Cdkn1a) was the top hit among genes persistently induced by hyperglycemia and was associated with induction of the p53-p21 pathway. Persistent p21 induction was confirmed in various animal models, human samples and in vitro models. Tubular and urinary p21-levels were associated with DKD severity and remained elevated despite improved blood glucose levels in humans. Mechanistically, sustained tubular p21 expression in DKD is linked to demethylation of its promoter and reduced DNMT1 expression. Two disease resolving agents, protease activated protein C (3K3A-aPC) and parmodulin-2, reversed sustained tubular p21 expression, tubular senescence, and DKD. Thus, p21-dependent tubular senescence is a pathway contributing to the hyperglycemic memory, which can be therapeutically targeted.

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Different DOACs Control Inflammation in Cardiac Ischemia-Reperfusion Differently

Gadi

Fatima

Elwakiel

et al. 2021

Circulation Research

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Rationale: While thrombin is the key protease in thrombus formation, other coagulation proteases, such as fXa or activated protein C (aPC), independently modulate intracellular signaling via partially distinct receptors. Objective: To study the differential effects of fXa or fIIa inhibition on gene expression and inflammation in myocardial ischemia-reperfusion injury (IRI). Methods and Results: Mice were treated with a direct fIIa inhibitor (fIIai) or direct fXa inhibitor (fXai) at doses that induced comparable anticoagulant effects ex vivo and in vivo (tail bleeding assay and FeCl3-induced thrombosis). Myocardial IRI was induced via LAD ligation. We determined infarct size and in vivo aPC generation, analyzed gene expression by RNAseq, and performed immunoblotting and ELISA. The signaling-only 3K3A-aPC variant and inhibitory antibodies that blocked all or only the anticoagulant function of aPC were used to determine the role of aPC. Doses of fIIai and fXai that induced comparable anticoagulant effects resulted in a comparable reduction in infarct size. However, unbiased gene expression analyses revealed marked differences, including pathways related to sterile inflammation and inflammasome regulation. fXai but not fIIai inhibited sterile inflammation by reducing the expression of proinflammatory cytokines (IL-1beta, IL-6, and TNFalpha) as well as NF-κB and inflammasome activation. This anti-inflammatory effect was associated with reduced myocardial fibrosis 28 days post myocardial IRI. Mechanistically, in vivo aPC generation was higher with fXai than with fIIai. Inhibition of the anticoagulant and signaling properties of aPC abolished the anti-inflammatory effect associated with fXai, while inhibiting only the anticoagulant function of aPC had no effect. Combining 3K3A-aPC with fIIai reduced the inflammatory response, mimicking the fXai-associated effect. Conclusions: We showed that specific inhibition of coagulation via DOACs had differential effects on gene expression and inflammation, despite comparable anticoagulant effects and infarct sizes. Targeting individual coagulation proteases induces specific cellular responses unrelated to their anticoagulant effect.

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Sameen Fatima

Podocyte-specific Nlrp3 inflammasome activation promotes diabetic kidney disease

Reversal of the renal hyperglycemic memory in diabetic kidney disease by targeting sustained tubular p21 expression

Different DOACs Control Inflammation in Cardiac Ischemia-Reperfusion Differently

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