Results 101 to 110 of about 213,970 (199)

5’‐Methylthioadenosine Metabolic Reprogramming Drives H3K79 Monomethylation‐Mediated PAK2 Upregulation to Promote Cadmium‐Induced Breast Cancer Progression by Impairing Autophagic Flux

Advanced Science, EarlyView.
Cadmium, a carcinogenic heavy metal, drives breast cancer progression via metabolic reprogramming and autophagic flux disruption. Multi‐omics revealed cadmium‐induced 5'‐methylthioadenosine depletion activates DOT1L‐mediated H3K79me1 at PAK2 promoter, upregulating PAK2 to block autophagy and driving malignancy. Clinically, 5'‐methylthioadenosine levels
Jingdian Li, Ping Deng, Tengfei Fan, Yuchen Qu, Miduo Tan, Yidan Liang, Peng Gao, Yongchun Peng, Mingke Qin, Sheng Jie, Rongrong Hao, Liting Wang, Lei Zhang, Chunhai Chen, Mindi He, Qinlong Ma, Yan Luo, Li Tian, Jia Xie, Mengyan Chen, Rui Tian, Min Li, Zhengping Yu, Zhou Zhou, Huifeng Pi   +24 more
wiley   +1 more source

Transcriptomic profiling reveals neural-immune-stromal dysregulation and risk-associated gene signatures in advanced keratoconus. [PDF]

Sci Rep
Du K, Peng R, Xiao G, Qu Y, Han L, Hong J.   +5 more
europepmc   +1 more source

Melatonin Modulates Glucose Metabolism Reprogramming via Targeting G6PD to Alleviate Lead‐Induced Hepatocytes Pyroptosis in Common Carp (Cyprinus carpio L.)

Advanced Science, EarlyView.
This study reveals that Lead reprograms glucose metabolism to enhance H3K18la, driving DRP1‐dependent mitochondrial DNA leakage and cGAS‐STING‐mediated pyroptosis. Melatonin targets G6PD to suppress glycolysis‐driven H3K18la and restore mitochondrial homeostasis, thereby alleviating Lead‐induced liver injury in common carp through disruption of the ...
Zhiying Miao, Xiaofeng Ji, Lai Wei, Zhiruo Miao, Shiwen Xu   +4 more
wiley   +1 more source

Integrated transcriptomics unveils mitochondrial oxidative phosphorylation dysfunction as a shared mechanism in sarcopenia and obesity. [PDF]

Sci Rep
Yu R, Miao L, Wang J, Wang D, Liu Y, Wang L, Wang R.   +6 more
europepmc   +1 more source

PRDM16 Reduces Cellular Senescence by Upregulating GSTM1

Advanced Science, EarlyView.
Cellular senescence drives aging and aging‐related organ disorders, yet PRDM16's role remains unexplored. This work uncovers that PRDM16 decreases significantly in aged organs, while its loss accelerates cellular senescence and aging‐related organ injury.
Qian Yuan, Yuting Zhu, Ben Tang, Yaru Xie, Mingcun Hu, Hua Su, Youhua Liu, Chun Zhang   +7 more
wiley   +1 more source

Daily fluctuation of genus <i>Prevotella</i> in porcine colon under <i>ad libitum</i> feeding and its association with nutrient substrates. [PDF]

Front Microbiol
Li Y, You J, Liao Y, Wang D, Wang H, Su Y.   +5 more
europepmc   +1 more source

The Pathogenic Roles of Local Vitamin D Metabolism Defect in Valve Inflammation and Calcification

Advanced Science, EarlyView.
This study identifies the valvular interstitial cell populations responsible for valvular calcification induced by hyperphosphatemia and likely aging, uncovers local vitamin D metabolism defect‐induced inflammation as a critical pathogenic factor of calcific aortic valve disease, and highlights active vitamin D and ERK inhibitor as potential preventive
Ruichen Yang, Chong Han, Yangli Xie, Shoutao Qiu, Shaoyang Zhang, Jingjia He, Zejian Wang, Zhenlin Zhang, Huijuan Liu, Lin Chen, Baojie Li   +10 more
wiley   +1 more source

Identification and verification of hub biomarkers and immune-related pathways participating in the trabecular meshwork after using corticosteroid. [PDF]

PLoS One
Wang L, Wu D, Ma Z, Song D, Sun Y, Pan X, Zhang J.   +6 more
europepmc   +1 more source

A Peripheral Mechanism of Depression: Disturbed Intestinal Epithelial Per2 Gene Expression Causes Depressive Behaviors in Mice with Circadian Rhythm Disruption via Gut Barrier Damage and Microbiota Dysbiosis

Advanced Science, EarlyView.
Circardian rhythm disorder (CRD) causes abnormal expression of intestinal Period 2 (Per2) gene, which compromising intestinal barrier integrity and altering the gut microenvironment. Microbiota dysbiosis and aberrant metabolites production drive central inflammation, impair neurogenesis, and promote functional deficits, ultimately facilitating the ...
Huiliang Zhang, Xuan Qin, Haiyue Song, Jieru Zhou, Hui Wei, Lun Zhang, Yi Liu, Zhuoqun Wang, Yiren Zhang, Yiwen Lai, Jiayu Yang, Wenting Hu, Zhongshan Chen, Ji Zeng, Yu Jin, Xiaochuan Wang, Rong Liu   +16 more
wiley   +1 more source

Alcohol exposure significantly influences gene expression in the hypothalamus, highlighting complex links with gonadotropin-releasing hormone signaling and thyroid hormone production in adolescent mice. [PDF]

BMC Med Genomics
Sun G, Peng Y, Hu C, Zheng Y, Cheng Y, Qi X, Jin Y.   +6 more
europepmc   +1 more source