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The Zn2+ and Ca2+‐binding S100B and S100A1 proteins: beyond the myths
Authors:Jacques Baudier  Jean Christophe Deloulme  Gary S Shaw
Abstract:The S100 genes encode a conserved group of 21 vertebrate‐specific EF‐hand calcium‐binding proteins. Since their discovery in 1965, S100 proteins have remained enigmatic in terms of their cellular functions. In this review, we summarize the calcium‐ and zinc‐binding properties of the dimeric S100B and S100A1 proteins and highlight data that shed new light on the extracellular and intracellular regulation and functions of S100B. We point out that S100B and S100A1 homodimers are not functionally interchangeable and that in a S100A1/S100B heterodimer, S100A1 acts as a negative regulator for the ability of S100B to bind Zn2+. The Ca2+ and Zn2+‐dependent interactions of S100B with a wide array of proteins form the basis of its activities and have led to the derivation of some initial rules for S100B recognition of protein targets. However, recent findings have strongly suggested that these rules need to be revisited. Here, we describe a new consensus S100B binding motif present in intracellular and extracellular vertebrate‐specific proteins and propose a new model for stable interactions of S100B dimers with full‐length target proteins. A chaperone‐associated function for intracellular S100B in adaptive cellular stress responses is also discussed. This review may help guide future studies on the functions of S100 proteins in general.
Keywords:S100B  S100A1  S100 proteins  calcium  zinc  chaperone  p53  ATAD3  AHNAK  RAGE
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