盐敏感性肠道微生物群引发性别特异性血压变化。
Salt-Responsive Gut Microbiota Induces Sex-Specific Blood Pressure Changes.
作者信息
Bardhan Pritam, Mei Xue, Lai Ngoc Khanh, Mell Blair, Tummala Ramakumar, Aryal Sachin, Manandhar Ishan, Hwang Hyeongu, Jhuma Tania Akter, Atluri Rohit Reddy, Kyoung Jun, Li Ying, Joe Bina, Li Hong-Bao, Yang Tao
机构信息
Department of Physiology and Pharmacology, Microbiome Consortium, Center for Hypertension and Precision Medicine, University of Toledo College of Medicine and Life Sciences, OH (P.B., X.M., N.K.L., B.M., R.T., S.A., I.M., H.H., T.A.J., R.R.A., J.K., B.J., T.Y.).
Now with Department of Pharmacy, North Sichuan Medical College, Nanchong, China (X.M.).
出版信息
Circ Res. 2024 Dec 6;135(12):1122-1137. doi: 10.1161/CIRCRESAHA.124.325056. Epub 2024 Oct 23.
BACKGROUND
Tryptophan metabolism is important in blood pressure regulation. The tryptophan-indole pathway is exclusively mediated by the gut microbiota. ACE2 (angiotensin-converting enzyme 2) participates in tryptophan absorption, and a lack of ACE2 leads to changes in the gut microbiota. The gut microbiota has been recognized as a regulator of blood pressure. Furthermore, there is ample evidence for sex differences in the gut microbiota. However, it is unclear whether such sex differences impact blood pressure differentially through the tryptophan-indole pathway.
METHODS
To study the sex-specific mechanisms of gut microbiota-mediated tryptophan-indole pathway in hypertension, we generated a novel rat model with Clustered Regularly Interspaced Short Palindromic Repeats/Cas9 (Clustered Regularly Interspaced Short Palindromic Repeats-associated protein 9)-targeted deletion of in the Dahl salt-sensitive rat. Cecal microbiota transfers from donors of both sexes to female S recipients were performed. Also, Dahl salt-sensitive rats of both sexes were orally gavaged with indole to investigate blood pressure response.
RESULTS
The female gut microbiota and its tryptophan-indole pathway exhibited greater buffering capacity when exposed to tryptophan, due to deficiency, and salt. In contrast, the male gut microbiota and its tryptophan-indole pathway were more vulnerable. Female rats with male cecal microbiota responded to salt with a higher blood pressure increase compared with those with female cecal microbiota. Indole, a tryptophan-derived metabolite produced by gut bacteria, increased blood pressure in male but not in female rats. Moreover, salt altered host-mediated tryptophan metabolism, characterized by reduced serum serotonin of both sexes and higher levels of kynurenine derivatives in the females.
CONCLUSIONS
We uncovered a novel sex-specific mechanism in the gut microbiota-mediated tryptophan-indole pathway in blood pressure regulation. Salt tipped the tryptophan metabolism between the host and gut microbiota in a sex-dependent manner. Our study provides evidence for a novel concept that gut microbiota and its metabolism play sex-specific roles in the development of salt-sensitive hypertension.
背景
色氨酸代谢在血压调节中起重要作用。色氨酸 - 吲哚途径仅由肠道微生物群介导。血管紧张素转换酶2(ACE2)参与色氨酸吸收,而ACE2的缺乏会导致肠道微生物群的变化。肠道微生物群已被认为是血压的调节因子。此外,有充分证据表明肠道微生物群存在性别差异。然而,尚不清楚这种性别差异是否通过色氨酸 - 吲哚途径对血压产生不同影响。
方法
为了研究肠道微生物群介导的色氨酸 - 吲哚途径在高血压中的性别特异性机制,我们构建了一种新型大鼠模型,通过成簇规律间隔短回文重复序列/Cas9(成簇规律间隔短回文重复序列相关蛋白9)靶向敲除Dahl盐敏感大鼠中的 。进行了将来自两性供体的盲肠微生物群转移到雌性受体的实验。此外,对两性的Dahl盐敏感大鼠口服吲哚以研究血压反应。
结果
由于 缺乏和盐的作用,雌性肠道微生物群及其色氨酸 - 吲哚途径在暴露于色氨酸时表现出更大的缓冲能力。相比之下,雄性肠道微生物群及其色氨酸 - 吲哚途径更易受影响。接受雄性盲肠微生物群的雌性大鼠对盐的反应是血压升高幅度高于接受雌性盲肠微生物群的大鼠。吲哚是一种由肠道细菌产生的色氨酸衍生代谢产物,可使雄性大鼠血压升高,但对雌性大鼠无此作用。此外,盐改变了宿主介导的色氨酸代谢,其特征是两性血清血清素降低,雌性犬尿氨酸衍生物水平升高。
结论
我们发现了肠道微生物群介导的色氨酸 - 吲哚途径在血压调节中的一种新的性别特异性机制。盐以性别依赖的方式改变了宿主与肠道微生物群之间的色氨酸代谢。我们的研究为肠道微生物群及其代谢在盐敏感性高血压发展中发挥性别特异性作用这一新概念提供了证据。
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