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Maternal diet-induced microRNAs and mTOR underlie ? cell dysfunction in offspring.


ABSTRACT: A maternal diet that is low in protein increases the susceptibility of offspring to type 2 diabetes by inducing long-term alterations in ? cell mass and function. Nutrients and growth factor signaling converge through mTOR, suggesting that this pathway participates in ? cell programming during fetal development. Here, we revealed that newborns of dams exposed to low-protein diet (LP0.5) throughout pregnancy exhibited decreased insulin levels, a lower ? cell fraction, and reduced mTOR signaling. Adult offspring of LP0.5-exposed mothers exhibited glucose intolerance as a result of an insulin secretory defect and not ? cell mass reduction. The ? cell insulin secretory defect was distal to glucose-dependent Ca2+ influx and resulted from reduced proinsulin biosynthesis and insulin content. Islets from offspring of LP0.5-fed dams exhibited reduced mTOR and increased expression of a subset of microRNAs, and blockade of microRNA-199a-3p and -342 in these islets restored mTOR and insulin secretion to normal. Finally, transient ? cell activation of mTORC1 signaling in offspring during the last week of pregnancy of mothers fed a LP0.5 rescued the defect in the neonatal ? cell fraction and metabolic abnormalities in the adult. Together, these findings indicate that a maternal low-protein diet alters microRNA and mTOR expression in the offspring, influencing insulin secretion and glucose homeostasis.

SUBMITTER: Alejandro EU 

PROVIDER: S-EPMC4191023 | biostudies-literature | 2014 Oct

REPOSITORIES: biostudies-literature

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Maternal diet-induced microRNAs and mTOR underlie β cell dysfunction in offspring.

Alejandro Emilyn U EU   Gregg Brigid B   Wallen Taylor T   Kumusoglu Doga D   Meister Daniel D   Chen Angela A   Merrins Matthew J MJ   Satin Leslie S LS   Liu Ming M   Arvan Peter P   Bernal-Mizrachi Ernesto E  

The Journal of clinical investigation 20140902 10


A maternal diet that is low in protein increases the susceptibility of offspring to type 2 diabetes by inducing long-term alterations in β cell mass and function. Nutrients and growth factor signaling converge through mTOR, suggesting that this pathway participates in β cell programming during fetal development. Here, we revealed that newborns of dams exposed to low-protein diet (LP0.5) throughout pregnancy exhibited decreased insulin levels, a lower β cell fraction, and reduced mTOR signaling.  ...[more]

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