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Raptor determines β-cell identity and plasticity independent of hyperglycemia in mice

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Compromised β-cell identity is emerging as an important contributor to β-cell failure in diabetes; however, the precise mechanism independent of hyperglycemia is under investigation. We have previously reported that mTORC1/Raptor… Click to show full abstract

Compromised β-cell identity is emerging as an important contributor to β-cell failure in diabetes; however, the precise mechanism independent of hyperglycemia is under investigation. We have previously reported that mTORC1/Raptor regulates functional maturation in β-cells. In the present study, we find that diabetic β-cell specific Raptor-deficient mice (βRapKOGFP) show reduced β-cell mass, loss of β-cell identity and acquisition of α-cell features; which are not reversible upon glucose normalization. Deletion of Raptor directly impairs β-cell identity, mitochondrial metabolic coupling and protein synthetic activity, leading to β-cell failure. Moreover, loss of Raptor activates α-cell transcription factor MafB (via modulating C/EBPβ isoform ratio) and several α-cell enriched genes i.e. Etv1 and Tspan12, thus initiates β- to α-cell reprograming. The present findings highlight mTORC1 as a metabolic rheostat for stabilizing β-cell identity and repressing α-cell program at normoglycemic level, which might present therapeutic opportunities for treatment of diabetes. During the progression of type 2 diabetes, insulin-producing β-cells can lose their identity and become reprogrammed into other cell types. Here the authors show that murine diabetic β-cells require the protein Raptor for maintaining β-cell health and preventing them from turning into α-cells, independent of Raptor’s involvement in regulating blood sugar levels.

Keywords: cell; cell identity; independent hyperglycemia; identity; raptor

Journal Title: Nature Communications
Year Published: 2020

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