Pan Cheng, Pan Junru, Zhaxi Yangzong, Li Haiyan, Zhang Zhenzhen, Guan Feng, Jinmei Jiacuo, Baijiu Zhaxi, Baima Sangzhu, Yixi Quzhu, Song Tianzeng, Zhao Wangsheng
School of Life Sciences and Agri-forestry, Southwest University of Science and Technology, Mianyang, Sichuan, China.
Institute of Animal Science, Xizang Academy of Agricultural and Animal Husbandry Science, Lhasa, Xizang, China.
mSystems. 2025 Apr 22;10(4):e0155724. doi: 10.1128/msystems.01557-24. Epub 2025 Mar 28.
The interaction between microbiota and muscle by the rumen-muscle axis and its impact on sheep meat flavor has received little attention. This study selected Xizang sheep under summer and autumn grazing conditions as models for different rumen bacteria and intramuscular fat (IMF) to attempt to address the current research gap. Specifically, the deposition characteristics of IMF and the expression of lipid metabolism genes in Xizang sheep were determined; 16S rDNA sequencing technology and gas chromatography were used to study the rumen microbiota and its metabolic products, short-chain fatty acids (SCFAs); RNA sequencing was used to identify the transcriptome of the rumen epithelium. Based on the above results, we proposed the hypothesis that the flavor of Xizang sheep meat is regulated by the microbiota-rumen-muscle axis. SCFAs produced in the rumen of Xizang sheep are absorbed by the rumen epithelium under the regulation of the solute carrier family genes (). SCFAs can directly reach muscle tissue through the circulatory system and then activate the expression of the peroxisome proliferator-activated receptor Gamma () gene through the rumen-muscle axis. The expression of fat synthesis genes carnitine palmitoyltransferase II (), fatty acid synthase (), patatin-like phospholipase domain-containing 2 (), and stearoyl-CoA desaturase 1 () is correspondingly upregulated, promoting the deposition of IMF in Xizang sheep and thus affecting its flavor. This study introduces the theory of the microbiota-rumen-muscle axis into the research of the flavor of ruminant animal food, comprehensively elucidating the regulatory mechanism of the flavor of Xizang sheep meat.IMPORTANCEOur study employed a multi-omics approach to reveal how the rumen microbiota regulate muscle lipid metabolism in Xizang sheep through the activation of the transcription factor. Importantly, by developing models of Xizang sheep with varying rumen microbial communities and muscle fatty acid profiles, we established the critical role of the microbiota-rumen-muscle axis in determining the flavor of Xizang sheep meat. This finding suggests that modulating the composition of the microbial community could serve as a strategy to improve the flavor of ruminant-derived food products. These insights provide valuable understanding of the complex interactions between rumen bacteria and mutton flavor, offering new approaches for research in this field.
瘤胃-肌肉轴介导的微生物群与肌肉之间的相互作用及其对绵羊肉风味的影响鲜受关注。本研究选取夏秋放牧条件下的藏羊作为不同瘤胃细菌和肌内脂肪(IMF)的模型,试图填补当前研究空白。具体而言,测定了藏羊IMF的沉积特征和脂质代谢基因的表达;采用16S rDNA测序技术和气相色谱法研究瘤胃微生物群及其代谢产物短链脂肪酸(SCFAs);利用RNA测序鉴定瘤胃上皮的转录组。基于上述结果,我们提出了藏羊肉风味受微生物群-瘤胃-肌肉轴调控的假说。藏羊瘤胃中产生的SCFAs在溶质载体家族基因()的调控下被瘤胃上皮吸收。SCFAs可通过循环系统直接到达肌肉组织,然后通过瘤胃-肌肉轴激活过氧化物酶体增殖物激活受体γ()基因的表达。脂肪合成基因肉碱棕榈酰转移酶II()、脂肪酸合酶()、含patatin样磷脂酶结构域2()和硬脂酰辅酶A去饱和酶1()的表达相应上调,促进藏羊IMF的沉积,进而影响其风味。本研究将微生物群-瘤胃-肌肉轴理论引入反刍动物食品风味研究,全面阐明了藏羊肉风味的调控机制。
重要性
我们的研究采用多组学方法揭示瘤胃微生物群如何通过激活转录因子来调节藏羊的肌肉脂质代谢。重要的是,通过建立具有不同瘤胃微生物群落和肌肉脂肪酸谱的藏羊模型,我们确立了微生物群-瘤胃-肌肉轴在决定藏羊肉风味方面的关键作用。这一发现表明,调节微生物群落组成可作为改善反刍动物源性食品风味的一种策略。这些见解为理解瘤胃细菌与羊肉风味之间的复杂相互作用提供了有价值的认识,为该领域的研究提供了新的方法。
