Journal
JOURNAL OF BIOLOGICAL CHEMISTRY
Volume 281, Issue 44, Pages 33650-33663Publisher
AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC
DOI: 10.1074/jbc.M603298200
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The recent explosion in genome sequencing has revealed the great diversity of the cadherin superfamily. Within the superfamily, protocadherins, which are expressed mainly in the nervous system, constitute the largest subgroup. Nevertheless, the structures of only the classical cadherins are known. Thus, to broaden our understanding of the adhesion repertoire of the cadherin superfamily, we determined the structure of the N-terminal first extracellular cadherin domain of the cadherin-related neuronal receptor/protocadherin-alpha 4. The hydrophobic pocket essential for homophilic adhesiveness in the classical cadherins was not found, and the functional significance of this structural domain was supported by exchanging the first extracellular cadherin domains of protocadherin and classical cadherin. Moreover, potentially crucial variations were observed mainly in the loop regions. These included the protocadherin-specific disulfide-bonded Cys-X-5-Cys motif, which showed Ca2+-induced chemical shifts, and the RGD motif, which has been suggested to be involved in heterophilic cell adhesion via the active form of beta 1 integrin. Our findings reveal that the adhesion repertoire of the cadherin superfamily is far more divergent than would be predicted by studying the classical cadherins alone.
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