Blaž Lupše scite author profile

The mechanistic target of rapamycin complex 1 (mTORC1) is a central regulator of metabolic and nutrient cues that integrates environmental inputs into downstream signaling pathways to control cellular metabolism, growth, and survival. While numerous in vitro and in vivo studies reported the positive functions of mTORC1 in the regulation of β cell survival and proliferation under physiological conditions, more recent work demonstrates the opposite in the long term; this is exemplified by the constitutive inappropriate hyper-activation of mTORC1 in diabetic islets or β cells under conditions of increased β cell stress and metabolic demands. These recent findings uncover mTORC1's importance as an emerging significant player in the development and progression of β cell failure in type 2 diabetes and suggest that mTORC1 may act as a "double edge sword" in the regulation of β cell mass and function in response to metabolic stress such as nutrient overload and insulin resistance.

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Hippo Signaling: Key Emerging Pathway in Cellular and Whole-Body Metabolism

Ardestani

Lupše

Maedler

2018

Trends in Endocrinology & Metabolism

117

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Reciprocal regulation of mTOR complexes in pancreatic islets from humans with type 2 diabetes

et al. 2016

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Our data show the aberrant mTORC1 activity in islets from patients with type 2 diabetes, in human islets cultured under diabetes-associated increased glucose conditions and in diabetic mouse islets. This suggests that elevated mTORC1 activation is a striking pathogenic hallmark of islets in type 2 diabetes, contributing to impaired beta cell function and survival in the presence of metabolic stress.

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Neratinib protects pancreatic beta cells in diabetes

Ardestani

Annamalai

et al. 2019

Nat Commun

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The loss of functional insulin-producing β-cells is a hallmark of diabetes. Mammalian sterile 20-like kinase 1 (MST1) is a key regulator of pancreatic β-cell death and dysfunction; its deficiency restores functional β-cells and normoglycemia. The identification of MST1 inhibitors represents a promising approach for a β-cell-protective diabetes therapy. Here, we identify neratinib, an FDA-approved drug targeting HER2/EGFR dual kinases, as a potent MST1 inhibitor, which improves β-cell survival under multiple diabetogenic conditions in human islets and INS-1E cells. In a pre-clinical study, neratinib attenuates hyperglycemia and improves β-cell function, survival and β-cell mass in type 1 (streptozotocin) and type 2 (obese Leprdb/db) diabetic mouse models. In summary, neratinib is a previously unrecognized inhibitor of MST1 and represents a potential β-cell-protective drug with proof-of-concept in vitro in human islets and in vivo in rodent models of both type 1 and type 2 diabetes.

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Proproliferative and antiapoptotic action of exogenously introduced YAP in pancreatic β cells

Yuan¹,

Rafizadeh²,

Azizi³

et al. 2016

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Blaž Lupše

mTORC1 Signaling: A Double-Edged Sword in Diabetic β Cells

Hippo Signaling: Key Emerging Pathway in Cellular and Whole-Body Metabolism

Reciprocal regulation of mTOR complexes in pancreatic islets from humans with type 2 diabetes

Neratinib protects pancreatic beta cells in diabetes

Proproliferative and antiapoptotic action of exogenously introduced YAP in pancreatic β cells

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