Decreased KATP Channel Activity Contributes to the Low Glucose Threshold for Insulin Secretion of Rat Neonatal Islets.
Juxiang YangBatoul HammoudChanghong LiAbigail RidlerDaphne YauJunil KimKyoung-Jae WonCharles A StanleyToshinori HoshiDiana E ClementsPublished in: Endocrinology (2021)
Transitional hypoglycemia in normal newborns occurs in the first 3 days of life and has clinical features consistent with hyperinsulinism. We found a lower threshold for glucose-stimulated insulin secretion from freshly isolated embryonic day (E) 22 rat islets, which persisted into the first postnatal days. The threshold reached the adult level by postnatal day (P) 14. Culturing P14 islets also decreased the glucose threshold. Freshly isolated P1 rat islets had a lower threshold for insulin secretion in response to 2-aminobicyclo-(2, 2, 1)-heptane-2-carboxylic acid, a nonmetabolizable leucine analog, and diminished insulin release in response to tolbutamide, an inhibitor of β-cell KATP channels. These findings suggested that decreased KATP channel function could be responsible for the lower glucose threshold for insulin secretion. Single-cell transcriptomic analysis did not reveal a lower expression of KATP subunit genes in E22 compared with P14 β cells. The investigation of electrophysiological characteristics of dispersed β cells showed that early neonatal and cultured cells had fewer functional KATP channels per unit membrane area. Our findings suggest that decreased surface density of KATP channels may contribute to the observed differences in glucose threshold for insulin release.
Keyphrases
- induced apoptosis
- single cell
- type diabetes
- cell cycle arrest
- blood glucose
- oxidative stress
- glycemic control
- signaling pathway
- preterm infants
- rna seq
- pregnant women
- cell death
- high throughput
- gene expression
- stem cells
- mesenchymal stem cells
- cell therapy
- pi k akt
- transcription factor
- adipose tissue
- binding protein
- weight loss
- cord blood
- preterm birth