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Literature DB >> 34374393

Tryptophan improves porcine intestinal epithelial cell restitution through the CaSR/Rac1/PLC-γ1 signaling pathway.

Ke Gu^1,2, Guangmang Liu^1,2, Caimei Wu^1,2, Gang Jia^1,2, Hua Zhao^1,2, Xiaoling Chen^1,2, Gang Tian^1,2, Jingyi Cai^1,2, Ruinan Zhang^1,2, Jing Wang³.

Abstract

This study aimed to investigate the effect of tryptophan on cell migration and its underlying mechanism in porcine intestine epithelial cells (IPEC-J2). This study shows that tryptophan can modulate IPEC-J2 cell proliferation, enhance cell migration and the protein concentration of calcium-sensing receptors (CaSR), total ras-related C3 botulinum toxin substrate 1 (total Rac1), Rho family member 1 of GTP-binding protein (GTP-rac1), and phosphorylated phospholipase Cγ1 (p-PLC-γ1). Moreover, Rac1, phospholipase C-γ1 (PLC-γ1) silencing or CaSR inhibitor (NPS2143) inhibited tryptophan-induced upregulation of cell migration. In contrast, tryptophan enhanced the cell migration area and protein concentration of total Rac1, GTP-rac1, and phosphorylated PLCγ1 in cells transfected with wild type CaSR. The overexpression of CaSR increased cell migration, which was reduced by Rac1 or PLC-γ1 silencing. Collectively, our results suggested that tryptophan can improve IPEC-J2 cell migration through the CaSR/Rac1/PLC-γ1 signaling pathway.

Entities: Chemical

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Year: 2021 PMID： 34374393 DOI： 10.1039/d1fo01075a

Source DB: PubMed Journal: Food Funct ISSN： 2042-6496 Impact factor: 5.396

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Cited

4 in total

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Journal: Antioxidants (Basel) Date: 2022-04-28

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3. Tryptophan Ameliorates Barrier Integrity and Alleviates the Inflammatory Response to Enterotoxigenic Escherichia coli K88 Through the CaSR/Rac1/PLC-γ1 Signaling Pathway in Porcine Intestinal Epithelial Cells.

Authors: Guangmang Liu; Ke Gu; Fang Wang; Gang Jia; Hua Zhao; Xiaoling Chen; Caimei Wu; Ruinan Zhang; Gang Tian; Jingyi Cai; Jiayong Tang; Jing Wang
Journal: Front Immunol Date: 2021-10-21 Impact factor: 7.561

4. A novel role of FoxO3a in the migration and invasion of trophoblast cells: from metabolic remodeling to transcriptional reprogramming.

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