Identification of human urinary trefoil factor 1 as a novel calcium oxalate crystal growth inhibitor
Somchai Chutipongtanate, … , Prida Malasit, Visith Thongboonkerd
Somchai Chutipongtanate, … , Prida Malasit, Visith Thongboonkerd
Published December 1, 2005
Citation Information: J Clin Invest. 2005;115(12):3613-3622. https://doi.org/10.1172/JCI25342.
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Identification of human urinary trefoil factor 1 as a novel calcium oxalate crystal growth inhibitor

Abstract

Previous research on proteins that inhibit kidney stone formation has identified a relatively small number of well-characterized inhibitors. Identification of additional stone inhibitors would increase understanding of the pathogenesis and pathophysiology of nephrolithiasis. We have combined conventional biochemical methods with recent advances in mass spectrometry (MS) to identify a novel calcium oxalate (CaOx) crystal growth inhibitor in normal human urine. Anionic proteins were isolated by DEAE adsorption and separated by HiLoad 16/60 Superdex 75 gel filtration. A fraction with potent inhibitory activity against CaOx crystal growth was isolated and purified by anion exchange chromatography. The protein in 2 subfractions that retained inhibitory activity was identified by matrix-assisted laser desorption/ionization–time-of-flight MS and electrospray ionization–quadrupole–time-of-flight tandem MS as human trefoil factor 1 (TFF1). Western blot analysis confirmed the mass spectrometric protein identification. Functional studies of urinary TFF1 demonstrated that its inhibitory potency was similar to that of nephrocalcin. The inhibitory activity of urinary TFF1 was dose dependent and was inhibited by TFF1 antisera. Anti–C-terminal antibody was particularly effective, consistent with our proposed model in which the 4 C-terminal glutamic residues of TFF1 interact with calcium ions to prevent CaOx crystal growth. Concentrations and relative amounts of TFF1 in the urine of patients with idiopathic CaOx kidney stone were significantly less (2.5-fold for the concentrations and 5- to 22-fold for the relative amounts) than those found in controls. These data indicate that TFF1 is a novel potent CaOx crystal growth inhibitor with a potential pathophysiological role in nephrolithiasis.

Authors

Somchai Chutipongtanate, Yasushi Nakagawa, Suchai Sritippayawan, Jeeraporn Pittayamateekul, Paisal Parichatikanond, Bruce R. Westley, Felicity E.B. May, Prida Malasit, Visith Thongboonkerd

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Figure 7

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Characterization of the inhibitory activity of urinary TFF1 against CaOx...
Characterization of the inhibitory activity of urinary TFF1 against CaOx crystal growth. (A) The CaOx crystal growth–inhibitory activity of urinary TFF1 was similar to that of nephrocalcin when an equal amount of protein was used and more potent than that of Tamm-Horsfall protein, even though a smaller amount of TFF1 was used. Lysozyme was used as a negative control. (B) The inhibitory activity of urinary TFF1 was dose dependent. (C) The inhibitory activity of recombinant TFF1 was also dose dependent and comparable with that of urinary TFF1. With an equal amount of protein used, the inhibitory activity of recombinant TFF3 was significantly less (approximately 2-fold) than that of recombinant or urinary TFF1. (D) Incubation of urinary TFF1 with an anti–C-terminal TFF1 antibody significantly reduced the CaOx crystal growth–inhibitory activity of TFF1. The neutralizing effect of anti–C-terminal TFF1 antibody was more potent than that of anti–N-terminal TFF1 antibody. These data indicate that the C terminus of TFF1, which contains multiple glutamic acid residues, is particularly important in mediating the CaOx crystal growth–inhibitory function of TFF1. *P < 0.001. n = 4 per sample.