In pancreatic islets from type 2 diabetes patients, the dampened circadian oscillators lead to reduced insulin and glucagon exocytosis
Male
0301 basic medicine
obesity
real-time bioluminescence
Mice
ddc:590
info:eu-repo/classification/ddc/616
circadian clock
Flavones/pharmacology
Insulin
info:eu-repo/classification/ddc/612
human pancreatic islet
ddc:616
Biological Sciences
Middle Aged
Circadian Rhythm
3. Good health
secretion
clock
Endokrinologi och diabetes
Female
type 2 diabetes
exocytosis
synchronization
Circadian Rhythm/drug effects
Adult
Insulin/metabolism
Endocrinology and Diabetes
In Vitro Techniques
Exocytosis
Islets of Langerhans
Young Adult
03 medical and health sciences
expression
Diabetes Mellitus
Animals
Humans
rhythms
Glucagon/metabolism
ddc:612
Islets of Langerhans/drug effects/metabolism
info:eu-repo/classification/ddc/590
Flavones
Glucagon
disruption
Type 2/metabolism/physiopathology
Diabetes Mellitus, Type 2
glucose-homeostasis
identification
metabolism
Exocytosis/drug effects
DOI:
10.1073/pnas.1916539117
Publication Date:
2020-01-21T22:59:20Z
AUTHORS (6)
ABSTRACT
Circadian clocks operative in pancreatic islets participate in the regulation of insulin secretion in humans and, if compromised, in the development of type 2 diabetes (T2D) in rodents. Here we demonstrate that human islet α- and β-cells that bear attenuated clocks exhibit strongly disrupted insulin and glucagon granule docking and exocytosis. To examine whether compromised clocks play a role in the pathogenesis of T2D in humans, we quantified parameters of molecular clocks operative in human T2D islets at population, single islet, and single islet cell levels. Strikingly, our experiments reveal that islets from T2D patients contain clocks with diminished circadian amplitudes and reduced in vitro synchronization capacity compared to their nondiabetic counterparts. Moreover, our data suggest that islet clocks orchestrate temporal profiles of insulin and glucagon secretion in a physiological context. This regulation was disrupted in T2D subjects, implying a role for the islet cell-autonomous clocks in T2D progression. Finally, Nobiletin, an agonist of the core-clock proteins RORα/γ, boosted both circadian amplitude of T2D islet clocks and insulin secretion by these islets. Our study emphasizes a link between the circadian clockwork and T2D and proposes that clock modulators hold promise as putative therapeutic agents for this frequent disorder.
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CITATIONS (86)
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