METTL1-deficient mesenchymal stem cells protect against metabolic-associated fatty liver disease by increasing NAMPT secretion
Jiang Du, Yuxuan Zhang, Chiheng Wang, Yuyuan Wang, Hongen Zhang, Dunyong Zhao, Juntang Lin

TL;DR
Modifying mesenchymal stem cells to lack METTL1 helps reduce fatty liver disease by boosting NAMPT, which improves liver metabolism.
Contribution
METTL1-deficient MSCs are shown to protect against MASLD via NAMPT secretion and SIRT1/SREBP1 signaling modulation.
Findings
METTL1-deficient MSCs reduce lipid accumulation in MASLD models.
NAMPT secretion by these MSCs activates SIRT1 and inhibits SREBP1-mediated lipogenesis.
Inhibiting NAMPT reverses the protective effects of METTL1-deficient MSCs.
Abstract
Genetically modified mesenchymal stem cells (MSCs) have been shown to enhance their therapeutic properties, offering more effective treatment options for various diseases, including metabolic associated fatty liver disease (MASLD). The m7G methyltransferase METTL1 plays a critical role in regulating RNA splicing, stability, and translation. This study presents our findings on METTL1 modified human umbilical cord MSCs, emphasizing their therapeutic effects and the mechanisms involved in treating MASLD. METTL1 knockdown MSCs were generated via lentiviral shRNA. Key characteristics, including senescence, proliferation, cell cycle, and apoptosis, were assessed in vitro. A high-fat diet (HFD)-induced MASLD mouse model was used to evaluate the effects of MSC transplantation through serological, biochemical, and pathological analyses. Molecular mechanisms were explored using…
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Taxonomy
TopicsRNA modifications and cancer · Sirtuins and Resveratrol in Medicine · Cancer-related molecular mechanisms research
