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  • Male castration increases adiposity via small intestinal microbial alterations.

Male castration increases adiposity via small intestinal microbial alterations.

EMBO reports (2020-11-24)
Tae Woong Whon, Hyun Sik Kim, Na-Ri Shin, Eun Sung Jung, Euon Jung Tak, Hojun Sung, Mi-Ja Jung, Yun-Seok Jeong, Dong-Wook Hyun, Pil Soo Kim, Yu Kyung Jang, Choong Hwan Lee, Jin-Woo Bae
ABSTRACT

Castration of young males is widely used in the cattle industry to improve meat quality, but the mechanism linking hypogonadism and host metabolism is not clear. Here, we use metataxonomic and metabolomic approaches to evaluate the intestinal microbiota and host metabolism in male, castrated male (CtM), and female cattle. After pubescence, the CtM cattle harbor distinct ileal microbiota dominated by the family Peptostreptococcaceae and exhibit distinct serum and muscle amino acid profiles (i.e., highly abundant branched-chain amino acids), with increased extra- and intramuscular fat storage. We also evaluate the causative factor(s) that underpin the alteration of the intestinal microbiota and host metabolic phenotype in response to hypogonadism. Castration of male mice phenocopies both the intestinal microbial alterations and obese-prone metabolism observed in cattle. Antibiotic treatment and fecal microbiota transplantation experiments in a mouse model confirm that the intestinal microbial alterations associated with hypogonadism are a key contributor to the obese phenotype in the CtM animals. Collectively, targeting the gut microbiota is a potential therapeutic strategy for the treatment of both hypogonadism and obesity.

MATERIALS
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Sigma-Aldrich
Urease Activity Assay Kit, sufficient for 100 colorimetric tests