Tanshinone IIA May Inhibit Gastric Cancer Via Affecting the Intestinal Microbiome

Overview

Journal Comput Math Methods Med

Publisher Hindawi

Specialty Medical Informatics

Date 2022 Oct 6

PMID 36199775

Authors

Fenggang Lu

Yi Zhang

Pinghui Song

Yu Xu

Zhongkun Wu

Qinyu Wang

Naiying Shen

Affiliations

Soon will be listed here.

Abstract

Background: Gastric cancer (GC) belongs to a type of the most deadly cancer in the world, and the incidence rate of GC will increase in the coming decades. Tanshinone IIA (Tan IIA) is an active component that separated from Danshen. Tan IIA may also exert its therapeutic effects in disease with intestinal dysbacteriosis, at least partially, via regulating the intestinal microbiome. Nevertheless, it is obscure whether Tanshinone IIA affects the intestinal dysbacteriosis and plays antitumor roles. This research was designed to explore Tanshinone IIA potential on the intestinal dysbacteriosis of GC xenograft mice.

Methods: Mouse xenograft GC tumor models were built and treated by Tan IIA. The tumor growth as well as microbiome in the intestinal were compared. Western blot was used to detect the phosphorylation of the NF-B and expressions of the downstream cytokines IL-6 and IL-1.

Results: Microbiome in the intestinal was changed in xenograft tumor mice in comparison with the control mice. What is more, Tan IIA could influence the microbiome in the intestinal of the tumor mice. Tan IIA hinders the growth of xenograft tumor and change the microbiome in the intestinal, but intestinal dysbacteriosis condition partially blocked Tan IIA-stimulated antitumor effects. In addition, intestinal dysbacteriosis abrogated Tan IIA-stimulated decrease in the NF-B signaling in xenograft tumor mice.

Conclusions: Tanshinone IIA may inhibit GC tumor growth via affecting the intestinal microbiome through regulating the NF-B signaling.

Citing Articles

Retracted: Tanshinone IIA May Inhibit Gastric Cancer via Affecting the Intestinal Microbiome.

Methods In Medicine C Comput Math Methods Med. 2023; 2023:9791064.

PMID: 38077876 PMC: 10700902. DOI: 10.1155/2023/9791064.

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