Intrauterine hyperglycaemia during late gestation caused mitochondrial dysfunction in skeletal muscle of male offspring through CREB/PGC1A signaling.
Yi-Shang YanJia-Ying MoYu-Tong HuangHong ZhuHai-Yan WuZhong-Liang LinRui LiuXuan-Qi LiuPing-Ping LvChun FengJian-Zhong ShengMin JinHe-Feng HuangPublished in: Nutrition & diabetes (2024)
Short-term intrauterine hyperglycaemia significantly reduced lean mass in male offspring at 8 weeks, resulting in decreased exercise endurance and metabolic disorders. Disrupted organisation and function of the mitochondria in skeletal muscle were also observed among them. Foetal exposure to hyperglycaemia decreased the ratio of phosphorylated CREB and reduced the transcription of Ppargc1α, which inhibited the transcription of downstream genes involving in mitochondrial biogenesis and oxidative metabolism. Abnormal mitochondria, which might be transmitted through aberrant gametes, were also observed in the F2 generation.
Keyphrases
- skeletal muscle
- gestational age
- high fat diet
- insulin resistance
- transcription factor
- cell death
- high intensity
- reactive oxygen species
- endoplasmic reticulum
- oxidative stress
- preterm infants
- genome wide
- physical activity
- resistance training
- adipose tissue
- bone mineral density
- resting state
- dna methylation
- genome wide analysis
- postmenopausal women