Investigation of Metabolome Underlying the Biological Mechanisms of Acute Heat Stressed Granulosa Cells.
Abdul SammadLirong HuHanpeng LuoZaheer AbbasSaqib UmerShan-Jiang ZhaoQing XuAdnan KhanYajing WangHuabin ZhuYachun WangPublished in: International journal of molecular sciences (2022)
Heat stress affects granulosa cells and the ovarian follicular microenvironment, ultimately resulting in poor oocyte developmental competence. This study aims to investigate the metabo-lomics response of bovine granulosa cells (bGCs) to in vitro acute heat stress of 43 °C. Heat stress triggers oxidative stress-mediated apoptosis in cultured bGCs. Heat-stressed bGCs exhibited a time-dependent recovery of proliferation potential by 48 h. A total of 119 metabolites were identified through LC-MS/MS-based metabolomics of the spent culture media, out of which, 37 metabolites were determined as differentially involved in metabolic pathways related to bioenergetics support mechanisms and the physical adaptations of bGCs. Multiple analyses of metabolome data identified choline, citric acid, 3-hydroxy-3-methylglutaric acid, glutamine, and glycocyamine as being upregulated, while galactosamine, AICAR, ciliatine, 16-hydroxyhexadecanoic acid, lysine, succinic acid, uridine, xanthine, and uraconic acid were the important downregulated metabolites in acute heat stress. These differential metabolites were implicated in various important metabolic pathways directed towards bioenergetics support mechanisms including glycerophospholipid metabolism, the citrate cycle (TCA cycle), glyoxylate and dicarboxylate metabolism, and serine, threonine, and tyrosine metabolism. Our study presents important metabolites and metabolic pathways involved in the adaptation of bGCs to acute heat stress in vitro.
Keyphrases
- heat stress
- induced apoptosis
- liver failure
- heat shock
- ms ms
- drug induced
- oxidative stress
- respiratory failure
- cell cycle arrest
- liver injury
- signaling pathway
- endoplasmic reticulum stress
- polycystic ovary syndrome
- stem cells
- physical activity
- hepatitis b virus
- metabolic syndrome
- skeletal muscle
- risk assessment
- endothelial cells
- adipose tissue
- deep learning
- high intensity
- big data
- mechanical ventilation