The characterization of a novel S100A1 binding site in the N-terminus of TRPM1

0463996 - ÚOCHB 2017 RIV GB eng J - Journal Article
Jirků, M. - Lánský, Z. - Bednárová, Lucie - Šulc, M. - Monincová, Lenka - Majer, Pavel - Vyklický, L. - Vondrášek, Jiří - Teisinger, J. - Boušová, Kristýna
The characterization of a novel S100A1 binding site in the N-terminus of TRPM1.
International Journal of Biochemistry and Cell Biology. Roč. 78, Sep (2016), s. 186-193. ISSN 1357-2725. E-ISSN 1878-5875
Institutional support: RVO:61388963
Keywords : TRPM1 channel * binding site * calcium-binding protein S100A1 * steady-state fluorescence anisotropy * molecular modeling * circular dichroism
Subject RIV: CE - Biochemistry
Impact factor: 3.505, year: 2016

Transient receptor potential melastatin-1 channel (TRPM1) is an important mediator of calcium influx into the cell that is expressed in melanoma and ON-bipolar cells. Similar to other members of the TRP channel family, the intracellular N- and C- terminal domains of TRPM1 are expected to play important roles in the modulation of TRPM1 receptor function. Among the most commonly occurring modulators of TRP channels are the cytoplasmically expressed calcium binding proteins calmodulin and 5100 calcium binding protein A1 (S100A1), but the interaction of TRPM1 with S100A1 has not been described yet. Here, using a combination of biophysical and bioinformatics methods, we have determined that the N-terminal L242-E344 region of TRPM1 is a S100A1 binding domain. We show that formation of the TRPM1/S100A1 complex is calcium-dependent. Moreover, our structural model of the complex explained data obtained from fluorescence spectroscopy measurements revealing that the complex formation is facilitated through interactions of clusters positively charged (K271A, R273A, R274A) and hydrophobic (L263A,V270A, L276A) residues at the N-terminus of TRPM1. Taken together, our data suggest a molecular mechanism for the potential regulation of TRPM1 by S100A1.
Permanent Link: http://hdl.handle.net/11104/0263083