Taurine promotes insulin synthesis by enhancing Isl-1 expression through miR-7a/RAF1/ERK1/2 pathway

• Published in: In vitro cellular & developmental biology. Animal Vol. 60; no. 1; pp. 23 - 35
• Main Authors: Liu, Hui, Niu, Tongjuan, Qiu, Guobin, Cui, Sheng, Zhang, Di
• Format: Journal Article
• Language: English
• Published: New York Springer US 2024; Society for In Vitro Biology
• Subjects: Animal Genetics and Genomics; Animal models; Beta cells; Biomedical and Life Sciences; Cell Biology; Cell Culture; Developmental Biology; Diabetes mellitus; Extracellular signal-regulated kinase; Gene expression; Homeobox; Insulin; Life Sciences; Metabolism; Pancreas; Signal transduction; Stem Cells; Synthesis; Taurine; Taurine transporter; Transcription factors; Taurine; miR-7a; Isl-1; Pancreas; Taurine transporter; Insulin
• ISSN: 1071-2690; 1543-706X
• DOI: 10.1007/s11626-023-00835-6

It has been well established that the circulating taurine affects the insulin synthesis in pancreatic islet β-cells, whereas miR-7a and LIM-homeodomain transcription factor Isl-1 are important intracellular factors regulating insulin transcription and synthesis. However, it still remains unknown whether taurine regulates insulin synthesis by affecting miR‐7a and/or Isl-1 expressions in mouse pancreatic islet β-cells. The present study was thus proposed to identify the effects of taurine on the expressions of miR‐7a and/or Isl-1 and their relations to insulin synthesis in mouse pancreatic islet β-cells by using miR-7a2 knockout (KO) and taurine transporter (TauT) KO mouse models and the related in vitro experiments. The results demonstrated that taurine supplement significantly decreased the pancreas miR-7a expression, but sharply upregulated the pancreas Isl-1 and insulin expressions, and serum insulin levels. However, the enhanced effects of taurine on Isl-1 expression and insulin synthesis were mitigated in the TauT KO and miR-7a2 KO mice. In addition, our results confirmed that taurine markedly increased pancreas RAF1 and ERK1/2 expressions. Collectively, the present study firstly demonstrates that taurine regulates insulin synthesis through TauT/miR-7a/RAF1/ERK1/2/Isl-1 signaling pathway, which are crucial for our understanding the mechanisms of taurine affecting insulin synthesis, and also potential for establishing the therapeutic strategies for diabetes and the diseases related to metabolism.