AI Article Synopsis

  • Cistanche tubulosa, a traditional Chinese herbal medicine, is known for its ability to tonify the kidney and protect the liver, especially in alleviating alcoholic liver disease (ALD) through its phenylethanol glycosides (CPhGs).
  • The study aimed to explore how CPhGs might enhance treatment outcomes for ALD by influencing the gut microbiota and improving the gut-liver axis.
  • Results showed that CPhGs improved ALD symptoms, restored gut barrier function, and corrected gut microbiota imbalances in treated mice, highlighting the importance of gut health in managing liver diseases.

Article Abstract

Ethnopharmacological Relevance: Cistanche tubulosa (Schenk) Wight, a Chinese herbal medicine (Rou Cong Rong) with Xinjiang characteristics, was recorded in many medical books in ancient China and often used as a tonic medicine. Supported by the traditional Chinese medicine theory of "homology of liver and kidney," C. tubulosa (Schenk) Wight has many clinical applications in tonifying the kidney and protecting the liver. Modern pharmacological studies have also found that the protective effects of phenylethanol glycosides from C. tubulosa (Schenk) Wight (CPhGs) play an important role in ameliorating alcoholic liver injury.

Aim Of The Study: We aimed to investigate whether CPhGs can enhance the therapeutic outcome of alcoholic liver disease (ALD) by targeting the "gut-liver axis," thus contributing to the knowledge of how Chinese herbs alleviate disease by influencing the gut microbiota.

Materials And Methods: An ALD mouse model was established using the Lieber-DeCarli alcohol liquid diet, and the effects of CPhGs on the intestinal barrier and gut microbiota of ALD mice were investigated in a pseudo-sterile mouse model and fecal microbiota transplantation (FMT) mouse model. We fed female C57BL/6N mice with Lieber-DeCarli ethanol liquid diet, according to the NIAAA model. Animal experiment of long-term, ethanol diet intervention for 6W, and short-term for 11d. The FMT experiments were also performed.

Results: CPhGs significantly improved ALD manifestations. ALD mice demonstrated significant gut microbiota dysbiosis and significantly abnormal proliferation of Allobaculum compared with the control diet group in long-term NIAAA mouse model (L-Pair). In mice that received the long-term intervention, the improvement in gut barrier function in the CPhGs-treated group was accompanied by a significant decrease in the abundance of Allobaculum and a significant increase in the abundance of Akkermansia. Furthermore, compared with the mouse were gavaged fecal microbiota from the long-term NIAAA mouse donors (FMT-EtOH), the number of goblet cells, abundance of Akkermansia, and the intestinal short-chain fatty acid concentrations were significantly increased in the mouse were gavaged fecal microbiota from high (700 mg/kg) doses of CPhGs orally in long-term NIAAA model donors (FMT-EtOH-H). Network analysis and species distribution results demonstrated that Akkermansia and Allobaculum were the genera with the highest abundances in the gut microbiota and that their interaction was related to propionic acid metabolism.

Conclusions: The results suggest that CPhGs exert a protective effect against ALD by modulating the abundance and composition of Akkermansia and Allobaculum in the intestine, maintaining the intestinal mucus balance, and safeguarding intestinal barrier integrity.

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Source
http://dx.doi.org/10.1016/j.jep.2024.118925DOI Listing

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