北京市农林科学院机构知识库

RESEARCH Chenodeoxycholic acid fortified diet drives ovarian steroidogenesis to improve embryo implantation through enhancing uterine receptivity via progesterone receptor signaling pathway in rats

收藏
分享
全文链接

文献类型：外文期刊

作者： Chen, Meixia ¹ ; Zhao, Xiaoyi ¹ ; Chang, Zhuo ³ ; Liu, Hui ¹ ; Zhu, Longlong ¹ ; Wang, Sixin ¹ ; Zhang, Dongyang ¹ ; Wang, Jing ¹ ;

作者机构： 1.Beijing Acad Agr & Forestry Sci, Inst Anim Husb & Vet Med, 9 Shuguang Huayuan Middle Rd, Beijing 100097, Peoples R China

2.Shanxi Agr Univ, Coll Anim Sci, Taiyuan, Shanxi, Peoples R China

3.Beijing Gen Stn Anim Husb, Beijing, Peoples R China

4.Henan Univ Sci & Technol, Coll Anim Sci & Technol, Luoyang, Henan, Peoples R China

关键词： Chenodeoxycholic acid; Embryo implantation; Metabolome; Ovarian steroid hormone; Progesterone receptor

期刊名称：JOURNAL OF NUTRITIONAL BIOCHEMISTRY （影响因子：4.9；五年影响因子：5.5 ）

ISSN： 0955-2863

年卷期： 2024 年 134 卷

页码：

收录情况： SCI

摘要： Infertility is a worldwide reproductive health problem influenced by the embryo implantation efficiency. We previously revealed that dietary chenodeoxycholic acid (CDCA) positively influence the early embryo implantation. But how CDCA regulate embryo implantation is largely unexplored. Herein, we investigated the mechanism behind CDCA's regulation on embryo implantation in rats. Results showed that CDCA promoted uterine receptivity, leading to increased number of implantation sites. Mechanistically, CDCA reshaped maternal amino acid metabolism and enhanced serum progesterone levels. CDCA enhanced ovarian progesterone synthesis by improving steroidogenesis-related protein (StAR and CYP11A1) expression via Takeda G-protein-coupled receptor 5. Elevated progesterone exaggerated uterine progesterone but weakened the estradiol signaling in the CDCA group, contributing to better uterine receptive for embryo implantation. Additionally, elevated transcription repressor Stat5b induced the down-regulation of progesterone-metabolizing enzyme 20-hydroxysteroid dehydrogenase 20 alpha-HSD, complementally explained uterine progesterone signaling enhancement. Overall, our data revealed that CDCA drove ovarian steroidogenesis to improve embryo implantation through enhancing uterine receptivity via progesterone receptor pathway in rats. Therefore, CDCA diet may be a potential favorable nutritional strategy for infertility and pregnancy management. (c) 2024 Elsevier Inc. All rights are reserved, including those for text and data mining, AI training, and similar technologies.

相关文献

作者其他论文更多>>

Altering Carotene Hydroxylase Activity of DcCYP97C1 Affects Carotenoid Flux and Changes Taproot Colour in Carrot

作者：Deng, Yuan-Jie;Duan, Ao-Qi;Li, Tong;Tan, Shan-Shan;Liu, Shan-Shan;Wang, Ya-Hui;Ma, Jing;Li, Jing-Wen;Liu, Hui;Xu, Zhi-Sheng;Xiong, Ai-Sheng;Liang, Yi;Zhou, Jian-Hua

关键词：carotene hydroxylase; carotenoid; carrot; CRISPR/Cas9
Carotene hydroxylase DcCYP97A3 affects carotenoid metabolic flow and taproot color by influencing the conversion of α-carotene to lutein in carrot

作者：Wang, Hui-Ru;Zhang, Rong-Rong;Wang, Ya-Hui;Sun, Miao;Wang, Li-Xiang;Zhang, Yu-Qing;Xu, Zhi-Sheng;Ma, Jing;Liu, Hui;Tao, Jian-Ping;Xiong, Ai-Sheng;Zhou, Jian-Hua;Sun, Miao;Liang, Yi;Li, Xiao-Jie

关键词：
EasyMetagenome: A user-friendly and flexible pipeline for shotgun metagenomic analysis in microbiome research

作者：Bai, Defeng;Xun, Jiani;Ma, Chuang;Luo, Hao;Yang, Haifei;Hou, Huiyu;Lv, Hujie;Wan, Xiulin;Wang, Yao;Yousuf, Salsabeel;Zeng, Meiyin;Zhang, Tianyuan;Gao, Yunyun;Liu, Yong-Xin;Chen, Tong;Ma, Chuang;Yang, Haifei;Cao, Chen;Cao, Xiaofeng;Cui, Jianzhou;Deng, Yuan-Ping;Deng, Zhaochao;Yu, Hao;Zhang, Chunfang;Dong, Wenxin;Dong, Wenxue;Du, Juan;Fang, Qunkai;Fang, Wei;Fang, Yue;Luan, Yaning;Fu, Fangtian;Fu, Min;Fu, Yi-Tian;Gao, He;Ge, Jingping;Guo, Yuhao;Gong, Qinglong;Lou, Wenbo;Gu, Lunda;Yang, Li;Guo, Peng;Hai, Tang;Liu, Hao;He, Jieqiang;He, Zi-Yang;Huang, Can;Ji, Shuai;Jiang, ChangHai;Jiang, Gui-Lai;Jiang, Lingjuan;Jin, Ling N.;Li, Changchao;Kan, Yuhe;Kang, Da;Kou, Jin;Lam, Ka-Lung;Li, Chong;Li, Fuyi;Li, Liwei;Li, Miao;Li, Xin;Li, Ye;Li, Zheng-Tao;Zhu, Chengshuai;Liang, Jing;Mo, Jiayuan;Lin, Yongxin;Liu, Changzhen;Liu, Danni;Zhang, Jing;Chen, Shifu;Liu, Fengqin;Liu, Jia;Liu, Tianrui;Liu, Tingting;Wang, Xinlong;Liu, Xinyuan;Luo, Yuanyuan;Liu, Yaqun;Liu, Bangyan;Liu, Minghao;Lv, Hujie;Ma, Tengfei;Mai, Zongjiong;Niu, Dongze;Pan, Zhuo;Qi, Heyuan;Shi, Zhanyao;Song, Chunjiao;Sun, Fuxiang;Sun, Yan;Tian, Sihui;Wang, Guoliang;Wang, Hongyang;Wang, Hongyu;Wang, Huanhuan;Wang, Jing;Wang, Jun;Wang, Kang;Wang, Leli;Yao, Xiaofang;Wang, Shao-kun;Xiao, Zufei;Xing, Huichun;Xu, Yifan;Yang, Song;Yan, Shu-yan;Zhang, Yi-Bo;Yang, Yuanming;Lei, Yu;Yuan, Zhengrong;Zhang, Chunge;Zhang, Huimin;Zhang, Na;Zhang, Yupeng;Zhang, Zheng;Zhou, Mingda;Zhou, Yuanping;Zhu, Zhihao;Zhu, Lin;Zhu, Yue;Zou, Hongqin;Zuo, Anna;Dong, Wenxuan;Wen, Tao;Chen, Shifu;Chen, Shifu;Li, Guoliang

关键词：metagenome; microbiome; microbiota; pipeline; visualization
Calycosin, a Bioactive Isoflavone, Ameliorates Oxidative Stress and Inflammation in Lipopolysaccharide-Induced Intestinal Cell Damage Model via the Nrf2 and NF-κB Signaling Pathways

作者：Li, Lu;Che, Yuyan;Zhu, Longlong;Liu, Zeqing;Song, Yanchen;Chen, Meixia;Wang, Jing;Li, Lu;Che, Yuyan;Song, Yanchen;Zhu, Longlong;Liu, Zeqing;Wu, Qiong;Chen, Meixia;Wang, Jing

关键词：calycosin; cell damage; inflammation; LPS; NF-kappa B pathway; Nrf2 pathway; oxidative stress
Chromosome-level genome assembly of tetraploid Chinese cherry (Prunus pseudocerasus)

作者：Zhang, Wei;Wang, Xuncheng;Peng, Junbo;Xing, Qikai;Yan, Jiye;Wang, Jing;Duan, Xuwei;Zhang, Xiaoming;Zhang, Kaichun

关键词：
DcMADS3, a MADS-Box Transcription Factor, Highly Expressed at the Middle Flower Bud Stage and Involved in Petalization Development in Carrot

作者：Tan, Shan-Shan;Liu, Shan-Shan;Duan, Ao-Qi;Deng, Yuan-Jie;Wang, Ya-Hui;Liu, Hui;Xu, Zhi-Sheng;Xiong, Ai-Sheng;Ma, Jing;Liang, Yi

关键词：Carrot; Floral organ; MADS-box transcription factor; Overexpression; Interaction analysis
Large-scale metabolomic landscape of edible maize reveals convergent changes in metabolite differentiation and facilitates its breeding improvement

作者：Li, Chunhui;Li, Zhiyong;Lu, Baishan;Shi, Yaxing;Xiao, Senlin;Dong, Hui;Zhang, Ruyang;Liu, Hui;Jiao, Yanyan;Xu, Li;Su, Aiguo;Wang, Xiaqing;Zhao, Yanxin;Wang, Shuai;Fan, Yanli;Luo, Meijie;Xi, Shengli;Yu, Ainian;Wang, Fengge;Ge, Jianrong;Tian, Hongli;Yi, Hongmei;Wang, Ronghuan;Song, Wei;Zhao, Jiuran;Lv, Yuanda;Li, Huihui

关键词：waxy maize; sweet maize; metabolite differentiation; diversifying selection; metabolome database

RESEARCH Chenodeoxycholic acid fortified diet drives ovarian steroidogenesis to improve embryo implantation through enhancing uterine receptivity via progesterone receptor signaling pathway in rats

作者其他论文 更多>>

Altering Carotene Hydroxylase Activity of DcCYP97C1 Affects Carotenoid Flux and Changes Taproot Colour in Carrot

Carotene hydroxylase DcCYP97A3 affects carotenoid metabolic flow and taproot color by influencing the conversion of α-carotene to lutein in carrot

EasyMetagenome: A user-friendly and flexible pipeline for shotgun metagenomic analysis in microbiome research

Calycosin, a Bioactive Isoflavone, Ameliorates Oxidative Stress and Inflammation in Lipopolysaccharide-Induced Intestinal Cell Damage Model via the Nrf2 and NF-κB Signaling Pathways

Chromosome-level genome assembly of tetraploid Chinese cherry (Prunus pseudocerasus)

DcMADS3, a MADS-Box Transcription Factor, Highly Expressed at the Middle Flower Bud Stage and Involved in Petalization Development in Carrot

Large-scale metabolomic landscape of edible maize reveals convergent changes in metabolite differentiation and facilitates its breeding improvement

意 见 箱

作者其他论文更多>>

意见箱