A specific plasma amino acid profile in the Insulin2Q104del Kuma mice at the diabetic state and reversal from hyperglycemia

The metabolites in the plasma serve as potential biomarkers of disease. We previously established an early-onset diabetes mouse model, Ins2+/Q104del Kuma mice, under a severe immune-deficient (Rag-2/Jak3 double-deficient in BALB/c) background. Here, we revealed the differences in plasma amino acid p...

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Veröffentlicht in:Biochemical and biophysical research communications 2023-10, Vol.679, p.58-65
Hauptverfasser: Hiyoshi, Naoya, Enomoto, Takayuki, Uefune, Fumiya, Kato, Yusuke, Wu, Yumeng, Araki, Kimi, Sakano, Daisuke, Shiraki, Nobuaki, Kume, Shoen
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container_title Biochemical and biophysical research communications
container_volume 679
creator Hiyoshi, Naoya
Enomoto, Takayuki
Uefune, Fumiya
Kato, Yusuke
Wu, Yumeng
Araki, Kimi
Sakano, Daisuke
Shiraki, Nobuaki
Kume, Shoen
description The metabolites in the plasma serve as potential biomarkers of disease. We previously established an early-onset diabetes mouse model, Ins2+/Q104del Kuma mice, under a severe immune-deficient (Rag-2/Jak3 double-deficient in BALB/c) background. Here, we revealed the differences in plasma amino acid profiles between Kuma and the wild-type mice. We observed an early reduction in glucogenic and ketogenic amino acids, a late increase in branched-chain amino acids (BCAAs) and succinyl CoA-related amino acids, and a trend of increasing ketogenic amino acids in Kuma mice than in the wild-type mice. Kuma mice exhibited hyperglucagonemia at high blood glucose, leading to perturbations in plasma amino acid profiles. The reversal of blood glucose by islet transplantation normalized the increases of the BCAAs and several aspects of the altered metabolic profiles in Kuma mice. Our results indicate that the Kuma mice are a unique animal model to study the link between plasma amino acid profile and the progression of diabetes for monitoring the therapeutic effects. •The diabetic Ins2+/Q104del Kuma mice showed characteristic plasma amino acid profiles.•Kuma mice showed an early reduction in glucogenic and ketogenic amino acids.•A late increase in branched-chain amino acids (BCAAs) was observed in the Kuma mice.•Islet transplantation corrected blood glucose and metabolic profile to some extent.•Increases in plasma glucagon in Kuma mice may explain the elevated BCAAs.
doi_str_mv 10.1016/j.bbrc.2023.08.064
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subjects Diabetes
Insulin mutation
Metabolite
Mouse
Plasma amino acid profile
title A specific plasma amino acid profile in the Insulin2Q104del Kuma mice at the diabetic state and reversal from hyperglycemia
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