BACKGROUND: Eosinophils reside in normal gastrointestinal tracts and increase during disease states. Receptors for eosinophil-derived granule proteins (EDGPs) have not been identified, but highly cationic molecules, similar to eosinophil proteins, bind extracellular calcium-sensing receptors (CaSRs). We hypothesized that stimulation of CaSRs by eosinophil proteins activates epithelial cells. METHODS: Caco2 intestinal epithelial cells, AML14.3D10 eosinophils, wild-type (WT) human embryonic kidney 293 (HEK293) cells not expressing CaSRs (HEK-WT), and CaSR-transfected HEK293 cells (HEK-CaSR) were stimulated with an eosinophil protein analog poly-L-arginine (PA) and phosphorylated extracellular signal-regulated kinase (pERK)1 and pERK2 were measured. Functional activation was measured with collagen lattice contraction assays. RESULTS: Coculture of Caco2 cells with AML14.3D10 eosinophils augmented lattice contraction as compared with lattices containing Caco2 cells alone. PA stimulation of Caco2 lattices augmented contraction. HEK-CaSR stimulation with PA or Ca(2+) resulted in greater pERK activation than that of stimulated HEK-WT cells. PA stimulated greater HEK-CaSR lattice contraction than unstimulated lattices. Contraction of PA-stimulated and PA-unstimulated HEK-WT lattices did not differ. CONCLUSION: Exposure of intestinal epithelia to the EDGP analog PA stimulates CaSR-dependent ERK phosphorylation and epithelial-mediated collagen lattice contraction. We speculate that EDGP release within the epithelial layers activates the CaSR receptor, leading to matrix contraction and tissue fibrosis.
BACKGROUND: Eosinophils reside in normal gastrointestinal tracts and increase during disease states. Receptors for eosinophil-derived granule proteins (EDGPs) have not been identified, but highly cationic molecules, similar to eosinophil proteins, bind extracellular calcium-sensing receptors (CaSRs). We hypothesized that stimulation of CaSRs by eosinophil proteins activates epithelial cells. METHODS:Caco2 intestinal epithelial cells, AML14.3D10 eosinophils, wild-type (WT) humanembryonic kidney293 (HEK293) cells not expressing CaSRs (HEK-WT), and CaSR-transfected HEK293 cells (HEK-CaSR) were stimulated with an eosinophil protein analog poly-L-arginine (PA) and phosphorylated extracellular signal-regulated kinase (pERK)1 and pERK2 were measured. Functional activation was measured with collagen lattice contraction assays. RESULTS: Coculture of Caco2 cells with AML14.3D10 eosinophils augmented lattice contraction as compared with lattices containing Caco2 cells alone. PA stimulation of Caco2 lattices augmented contraction. HEK-CaSR stimulation with PA or Ca(2+) resulted in greater pERK activation than that of stimulated HEK-WT cells. PA stimulated greater HEK-CaSR lattice contraction than unstimulated lattices. Contraction of PA-stimulated and PA-unstimulated HEK-WT lattices did not differ. CONCLUSION: Exposure of intestinal epithelia to the EDGP analog PA stimulates CaSR-dependent ERK phosphorylation and epithelial-mediated collagen lattice contraction. We speculate that EDGP release within the epithelial layers activates the CaSR receptor, leading to matrix contraction and tissue fibrosis.
Authors: Zaixiang Zhang; Weiying Qiu; Stephen J Quinn; Arthur D Conigrave; Edward M Brown; Mei Bai Journal: J Biol Chem Date: 2002-07-02 Impact factor: 5.157
Authors: Zaixiang Zhang; Yongfeng Jiang; Stephen J Quinn; Karen Krapcho; Edward F Nemeth; Mei Bai Journal: J Biol Chem Date: 2002-07-11 Impact factor: 5.157
Authors: G T Furuta; J R Turner; C T Taylor; R M Hershberg; K Comerford; S Narravula; D K Podolsky; S P Colgan Journal: J Exp Med Date: 2001-05-07 Impact factor: 14.307
Authors: Polina L Yarova; Alecia L Stewart; Venkatachalem Sathish; Rodney D Britt; Michael A Thompson; Alexander P P Lowe; Michelle Freeman; Bharathi Aravamudan; Hirohito Kita; Sarah C Brennan; Martin Schepelmann; Thomas Davies; Sun Yung; Zakky Cholisoh; Emma J Kidd; William R Ford; Kenneth J Broadley; Katja Rietdorf; Wenhan Chang; Mohd E Bin Khayat; Donald T Ward; Christopher J Corrigan; Jeremy P T Ward; Paul J Kemp; Christina M Pabelick; Y S Prakash; Daniela Riccardi Journal: Sci Transl Med Date: 2015-04-22 Impact factor: 17.956