Calbindin Independence of Calcium Transport in Developing Teeth Contradicts the Calcium Ferry Dogma

Cytosolic calcium-binding proteins termed calbindins are widely regarded as a key component of the machinery used to transport calcium safely across cells. Acting as mobile buffers, calbindins are thought to ferry calcium in bulk and simultaneously protect against its potentially cytotoxic effects....

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Veröffentlicht in:	The Journal of biological chemistry 2004-12, Vol.279 (53), p.55850-55854
Hauptverfasser:	Turnbull, Chris I., Looi, Ken, Mangum, Jonathan E., Meyer, Michael, Sayer, Rod J., Hubbard, Michael J.
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Sprache:	eng
Schlagworte:	Animals Calbindins Calcium - chemistry Calcium - metabolism Cytosol - metabolism Electrophoresis, Polyacrylamide Gel Mice Mice, Inbred C57BL Mutation Osteoblasts - metabolism Protein Binding Protein Conformation S100 Calcium Binding Protein G - chemistry S100 Calcium Binding Protein G - metabolism S100 Calcium Binding Protein G - physiology Time Factors Tooth - embryology
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container_end_page	55854
container_issue	53
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container_title	The Journal of biological chemistry
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creator	Turnbull, Chris I. Looi, Ken Mangum, Jonathan E. Meyer, Michael Sayer, Rod J. Hubbard, Michael J.
description	Cytosolic calcium-binding proteins termed calbindins are widely regarded as a key component of the machinery used to transport calcium safely across cells. Acting as mobile buffers, calbindins are thought to ferry calcium in bulk and simultaneously protect against its potentially cytotoxic effects. Here, we contradict this dogma by showing that teeth and bones were produced normally in null mutant mice lacking calbindin28kDa. Structural analysis of dental enamel, the development of which depends critically on active calcium transport, showed that mineralization was unaffected in calbindin28kDa-null mutants. An unchanged rate of calcium transport was verified by measurements of 45Ca incorporation into developing teeth in vivo. In enamel-forming cells, the absence of calbindin28kDa was not compensated by other cytosolic calcium-binding proteins as detectable by 45Ca overlay, two-dimensional gel, and equilibrium binding analyses. Despite a 33% decrease in cytosolic buffer capacity, cytotoxicity was not evident in either the null mutant enamel or its formative cells. This is the first definitive evidence that calbindins are not required for active calcium transport, either as ferries or as facilitative buffers. Moreover, in challenging the broader notion of a cytosolic route for calcium, the findings support an alternative paradigm involving passage via calcium-tolerant organelles.
doi_str_mv	10.1074/jbc.M409299200
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Acting as mobile buffers, calbindins are thought to ferry calcium in bulk and simultaneously protect against its potentially cytotoxic effects. Here, we contradict this dogma by showing that teeth and bones were produced normally in null mutant mice lacking calbindin28kDa. Structural analysis of dental enamel, the development of which depends critically on active calcium transport, showed that mineralization was unaffected in calbindin28kDa-null mutants. An unchanged rate of calcium transport was verified by measurements of 45Ca incorporation into developing teeth in vivo. In enamel-forming cells, the absence of calbindin28kDa was not compensated by other cytosolic calcium-binding proteins as detectable by 45Ca overlay, two-dimensional gel, and equilibrium binding analyses. Despite a 33% decrease in cytosolic buffer capacity, cytotoxicity was not evident in either the null mutant enamel or its formative cells. This is the first definitive evidence that calbindins are not required for active calcium transport, either as ferries or as facilitative buffers. 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Acting as mobile buffers, calbindins are thought to ferry calcium in bulk and simultaneously protect against its potentially cytotoxic effects. Here, we contradict this dogma by showing that teeth and bones were produced normally in null mutant mice lacking calbindin28kDa. Structural analysis of dental enamel, the development of which depends critically on active calcium transport, showed that mineralization was unaffected in calbindin28kDa-null mutants. An unchanged rate of calcium transport was verified by measurements of 45Ca incorporation into developing teeth in vivo. In enamel-forming cells, the absence of calbindin28kDa was not compensated by other cytosolic calcium-binding proteins as detectable by 45Ca overlay, two-dimensional gel, and equilibrium binding analyses. Despite a 33% decrease in cytosolic buffer capacity, cytotoxicity was not evident in either the null mutant enamel or its formative cells. This is the first definitive evidence that calbindins are not required for active calcium transport, either as ferries or as facilitative buffers. 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subjects	Animals Calbindins Calcium - chemistry Calcium - metabolism Cytosol - metabolism Electrophoresis, Polyacrylamide Gel Mice Mice, Inbred C57BL Mutation Osteoblasts - metabolism Protein Binding Protein Conformation S100 Calcium Binding Protein G - chemistry S100 Calcium Binding Protein G - metabolism S100 Calcium Binding Protein G - physiology Time Factors Tooth - embryology
title	Calbindin Independence of Calcium Transport in Developing Teeth Contradicts the Calcium Ferry Dogma
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