Interaction Between Rumen Microbiota and Epithelial Mitochondrial Dynamics in Tibetan Sheep: Elucidating the Mechanism of Rumen Epithelial Energy Metabolism
Ying Xu, Yuzhu Sha, Xiaowei Chen, Qianling Chen, Xiu Liu, Yanyu He, Wei Huang, Yapeng He, Xu Gao

TL;DR
This study explores how Tibetan sheep adapt to high altitudes by examining changes in rumen microbiota and mitochondrial activity in epithelial cells.
Contribution
The paper reveals novel altitude-dependent interactions between rumen microbiota and mitochondrial dynamics in Tibetan sheep epithelium.
Findings
Mitochondrial fission genes (FIS1, DRP1, MFF) are significantly upregulated at the highest altitude (4500m).
Ketogenesis pathway genes (HMGCS2) show altitude-dependent upregulation, correlating with increased β-hydroxybutyrate levels.
Microbiota groups like Ruminococcaceae_NK4A214_Group positively correlate with mitochondrial fusion genes (Mfn1/OPA1).
Abstract
Investigating the functional interactions between rumen microbial fermentation and epithelial mitochondrial dynamics/energy metabolism in Tibetan sheep at different altitudes, this study examined ultrastructural changes in rumen epithelial tissues, expression levels of mitochondrial dynamics-related genes (fusion: Mfn1, Mfn2, OPA1, Mic60; fission: Drp1, Fis1, MFF), and ketogenesis pathway genes (HMGS2, HMGCL) in Tibetan sheep raised at three altitudes (TS 2500m, TS 3500m, TS 4500m). Correlation analysis was performed between rumen microbiota/metabolites and mitochondrial energy metabolism. Results: Ultrastructural variations were observed across altitudes. With increasing altitude, keratinized layer became more compact; desmosome connections between granular layer cells increased; mitochondrial quantity and distribution in spinous and basal layers increased. Mitochondrial dynamics…
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Taxonomy
TopicsRuminant Nutrition and Digestive Physiology · Agricultural Productivity and Crop Improvement · Alkaline Phosphatase Research Studies
