Characterization and Purification of a Na+/Ca2+ Exchanger from an Archaebacterium

Gabriel Mercado Besserer,Debora A Nicoll,Jeff Abramson,Kenneth D Philipson

doi:10.1074/jbc.m111.331280

Gabriel Mercado Besserer, Debora A Nicoll + Show 2 more

Open Access

https://doi.org/10.1074/jbc.m111.331280

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Abstract

The superfamily of cation/Ca(2+) exchangers includes both Na(+)/Ca(2+) exchangers (NCXs) and Na(+)/Ca(2+),K(+) exchangers (NCKX) as the families characterized in most detail. These Ca(2+) transporters have prominent physiological roles. For example, NCX and NCKX are important in regulation of cardiac contractility and visual processes, respectively. The superfamily also has a large number of members of the YrbG family expressed in prokaryotes. However, no members of this family have been functionally expressed, and their transport properties are unknown. We have expressed, purified, and characterized a member of the YrbG family, MaX1 from Methanosarcina acetivorans. MaX1 catalyzes Ca(2+) uptake into membrane vesicles. The Ca(2+) uptake requires intravesicular Na(+) and is stimulated by an inside positive membrane potential. Despite very limited sequence similarity, MaX1 is a Na(+)/Ca(2+) exchanger with kinetic properties similar to those of NCX. The availability of a prokaryotic Na(+)/Ca(2+) exchanger should facilitate structural and mechanistic investigations.

Highlights

Databases include many putative prokaryotic Naϩ/Ca2ϩ exchangers, but none have been functionally expressed
The animal Na؉/Ca2؉ exchangers (NCXs) and NCKX proteins are members of a larger cation/Ca2ϩ exchanger superfamily (9), which consists of five discrete clade groups of structural homologs
We report here the functional characterization of the M. acetivorans NCX homolog (MaX1), the first known prokaryotic Naϩ/Ca2ϩ exchanger protein

Summary

Introduction

Databases include many putative prokaryotic Naϩ/Ca2ϩ exchangers, but none have been functionally expressed. Results: A membrane protein (MaX1) of Methanosarcina acetivorans catalyzes electrogenic countertransport of Naϩ and Ca2ϩ. The animal NCX and NCKX proteins are members of a larger cation/Ca2ϩ exchanger superfamily (9), which consists of five discrete clade groups of structural homologs. We report here the functional characterization of the M. acetivorans NCX homolog (MaX1), the first known prokaryotic Naϩ/Ca2ϩ exchanger protein.

Results

Conclusion