Abstract
We describe here the identification and characterization of a novel member of the family of K(+)-dependent Na(+)/Ca(2+) exchangers, NCKX3 (gene SLC24A3). Human NCKX3 encodes a protein of 644 amino acids that displayed a high level of sequence identity to the other family members, rod NCKX1 and cone/neuronal NCKX2, in the hydrophobic regions surrounding the "alpha -repeat" sequences thought to form the ion-binding pocket for transport. Outside of these regions NCKX3 showed no significant identity to other known proteins. As anticipated from this sequence similarity, NCKX3 displayed K(+)-dependent Na(+)/Ca(2+) exchanger activity when assayed in heterologous expression systems, using digital imaging of fura-2 fluorescence, electrophysiology, or radioactive (45)Ca(2+) uptake. The N-terminal region of NCKX3, although not essential for expression, increased functional activity at least 10-fold and may represent a cleavable signal sequence. NCKX3 transcripts were most abundant in brain, with highest levels found in selected thalamic nuclei, in hippocampal CA1 neurons, and in layer IV of the cerebral cortex. Many other tissues also expressed NCKX3 at lower levels, especially aorta, uterus, and intestine, which are rich in smooth muscle. The discovery of NCKX3 thus expands the K(+)-dependent Na(+)/Ca(2+) exchanger family and suggests this class of transporter has a more widespread role in cellular Ca(2+) handling than previously appreciated.
Highlights
Plasma membrane Naϩ/Ca2ϩ exchangers are an important component of intracellular Ca2ϩ homeostasis and have been extensively studied in various cell systems (1)
In this study we have described the cloning and characterization of a cDNA encoding a novel, third, member of the family of Kϩ-dependent Naϩ/Ca2ϩ exchangers, NCKX3
Like the other two members, rod NCKX1 and cone/neuronal NCKX2, NCKX3 demonstrated Kϩ-dependent Naϩ/Ca2ϩ exchange activity when measured with the fluorescent Ca2ϩ dye fura2, with ion currents, or with 45Ca2ϩ uptake
Summary
Plasma membrane Naϩ/Ca2ϩ exchangers are an important component of intracellular Ca2ϩ homeostasis and have been extensively studied in various cell systems (1). Analysis of NCKX mRNA expression using probes from regions of sequence conservation under conditions of reduced stringency has revealed evidence for further, as yet uncharacterized, mammalian members of the NCKX family (20).3 These findings lend support to the idea that the NCKX gene family predates the evolution of vertebrate vision and that the encoded proteins are an essential component of intracellular Ca2ϩ homeostasis in many different cells and tissues.
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