Hippocalcin, new Ca2+ sensor of a ROS-GC subfamily member, ONE-GC, membrane guanylate cyclase transduction system

Hippocalcin is a member of the neuronal Ca 2+ sensor protein family. Among its many biochemical functions, its established physiological function is that via neuronal apoptosis inhibitory protein it protects the neurons from Ca 2+ -induced cell death. The precise biochemical mechanism/s, through whi...

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Published inMolecular and cellular biochemistry Vol. 325; no. 1-2; pp. 1 - 14
Main Authors Krishnan, Anuradha, Duda, Teresa, Pertzev, Alexandre, Kobayashi, Masaaki, Takamatsu, Ken, Sharma, Rameshwar K.
Format Journal Article
LanguageEnglish
Published Boston Springer US 01.05.2009
Springer Nature B.V
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Summary:Hippocalcin is a member of the neuronal Ca 2+ sensor protein family. Among its many biochemical functions, its established physiological function is that via neuronal apoptosis inhibitory protein it protects the neurons from Ca 2+ -induced cell death. The precise biochemical mechanism/s, through which hippocalcin functions, is not clear. In the present study, a new mechanism by which it functions is defined. The bovine form of hippocalcin (BovHpca) native to the hippocampus has been purified, sequenced, cloned, and studied. The findings show that there is the evolutionary conservation of its structure. It is a Ca 2+ -sensor of a variant form of the ROS-GC subfamily of membrane guanylate cyclases, ONE-GC. It senses physiological increments of Ca 2+ with a K 1/2 of 0.5 µM and stimulates ONE-GC or ONE-GC-like membrane guanylate cyclase. The Hpca-modulated ONE-GC-like transduction system exists in the hippocampal neurons. And hippocalcin-modulated ONE-GC transduction system exists in the olfactory receptor neuroepithelium. The Hpca-gene knock out studies demonstrate that the portion of this is about 30% of the total membrane guanylate cyclase transduction system. The findings establish Hpca as a new Ca 2+ sensor modulator of the ROS-GC membrane guanylate cyclase transduction subfamily. They support the concept on universality of the presence and operation of the ROS-GC transduction system in the sensory and sensory-linked neurons. They validate that the ROS-GC transduction system exists in multiple forms. And they provide an additional mechanism by which ROS-GC subfamily acts as a transducer of the Ca 2+ signals originating in the neurons.
ISSN:0300-8177
1573-4919
DOI:10.1007/s11010-008-0015-z