Protective Effects of Different Selenium Green Tea Polysaccharides on the Development of Type 2 Diabetes in Mice-Reference-Cited by-同舟云学术

Protective Effects of Different Selenium Green Tea Polysaccharides on the Development of Type 2 Diabetes in Mice

Published:2023-11-21 Issue:23 Volume:12 Page:4190
ISSN:2304-8158
Container-title:Foods
language:en
Short-container-title:Foods

Author:

Gao Weilan¹²^ORCID,Zheng Zhan¹,Wang Xuehua¹,Wang Li¹,Zhang Na¹,Liu Haiyuan³,Cong Xin¹³,Li Shuyi¹,Zhu Zhenzhou¹

Affiliation:

1. National R&D Center for Se-Rich Agricultural Products Processing, Hubei Engineering Research Center for Deep Processing of Green Se-Rich Agricultural Products, School of Modern Industry for Selenium Science and Engineering, Wuhan Polytechnic University, Wuhan 430048, China

2. College of Food Science and Engineering, Wuhan Polytechnic University, Wuhan 430023, China

3. Enshi Se-Run Material Engineering Technology Co., Ltd., Enshi 445000, China

Abstract

Selenium polysaccharides have attracted significant interest due to their superior function to that of individual polysaccharides. However, limited research has compared the protective effects of different selenium polysaccharides from different selenization methods on diabetes. This work aims to compare the preventive effects of natural selenium-enriched green tea polysaccharides (NSe-TPS), synthetic selenized green tea polysaccharides (PCSe-TPS), and a mixture of sodium selenite and green tea polysaccharides (ordinary tea polysaccharides (Ord-TPS)+Se) on the development of diabetes. While establishing a diabetes model induced by a high-sugar, high-fat diet combined with streptozotocin, different selenium polysaccharides were administered daily by gavage for nine weeks. Our findings indicate that PCSe-TPS exhibited superior preventive effects on developing type 2 diabetes compared to NSe-TPS and Ord-TPS+Se. PCSe-TPS effectively regulated glucose metabolism and insulin resistance by activating the PI3K/Akt pathway, thereby preventing elevated blood glucose levels. Additionally, PCSe-TPS mitigated oxidative damage and inflammatory responses in liver tissues. Notably, PCSe-TPS intervention reversed the decline in bacterial species richness and the abundance of unclassified_Oscillospiraceae during the development of diabetes in mice. These results provide valuable insights into the protective effects of PCSe-TPS against diabetes development, highlighting its advantages over NSe-TPS and Ord-TPS+Se.

Funder

Outstanding Young and Middle-aged Science and Technology Innovation Team in Hubei Province

Key Research and Development Program of Hubei Province

Scientific and Technology Project of Enshi Tujia and Miao Autonomous Prefecture

Research and Innovation Initiatives of Wuhan Polytechnic University

Publisher

MDPI AG

Subject

Plant Science,Health Professions (miscellaneous),Health (social science),Microbiology,Food Science

Link

https://www.mdpi.com/2304-8158/12/23/4190/pdf

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