Abstract
Human fetuin-B plays a key physiological role in human fertility through its inhibitory action on ovastacin, a member of the astacin family of metallopeptidases. The inhibitor consists of tandem cystatin-like domains (CY1 and CY2), which are connected by a linker containing a “CPDCP-trunk” and followed by a C-terminal region (CTR) void of regular secondary structure. Here, we solved the crystal structure of the complex of the inhibitor with archetypal astacin from crayfish, which is a useful model of human ovastacin. Two hairpins from CY2, the linker, and the tip of the “legumain-binding loop” of CY1 inhibit crayfish astacin following the “raised-elephant-trunk mechanism” recently reported for mouse fetuin-B. This inhibition is exerted by blocking active-site cleft sub-sites upstream and downstream of the catalytic zinc ion, but not those flanking the scissile bond. However, contrary to the mouse complex, which was obtained with fetuin-B nicked at a single site but otherwise intact, most of the CTR was proteolytically removed during crystallization of the human complex. Moreover, the two complexes present in the crystallographic asymmetric unit diverged in the relative arrangement of CY1 and CY2, while the two complexes found for the mouse complex crystal structure were equivalent. Biochemical studies in vitro confirmed the differential cleavage susceptibility of human and mouse fetuin-B in front of crayfish astacin and revealed that the cleaved human inhibitor blocks crayfish astacin and human meprin α and β only slightly less potently than the intact variant. Therefore, the CTR of animal fetuin-B orthologs may have a function in maintaining a particular relative orientation of CY1 and CY2 that nonetheless is dispensable for peptidase inhibition.
Highlights
Metallopeptidases (MPs) are engaged in spatially and temporally regulated physiological processes including maturation, shedding and inactivation[1,2,3]
Meprins, crayfish astacin, nephrosin from cyprinid fishes, and ovastacin are strongly inhibited by fetuin-B forms from mammals, which are strictly selective for astacins[33,34,35,36], and by fish fetuin, which acts as the physiological antagonist of nephrosin[37]
Recent crystal structures of the mouse ortholog, isolated and in complex with crayfish astacin[36], have revealed that the inhibitor consists of the tandem cystatin-type modules 1 and 2 (CY1 and CY2), which are united by a linker (LNK) with a “CPDCP-trunk” and followed by a C-terminal region (CTR)
Summary
Metallopeptidases (MPs) are engaged in spatially and temporally regulated physiological processes including maturation, shedding and inactivation[1,2,3]. The inhibitor blocks the active-site cleft of the MP following a novel “raised-elephant-trunk” mechanism[36] To complement these studies, we here report the crystal structure of the complex between the human ortholog of fetuin-B (hFB), which is the physiologically relevant species for studying human fertility[42], and 202-residue mature crayfish astacin, which is a useful model for the 197-residue catalytic domain of human ovastacin (35% sequence identity; 48% similarity; see [35]). We here report the crystal structure of the complex between the human ortholog of fetuin-B (hFB), which is the physiologically relevant species for studying human fertility[42], and 202-residue mature crayfish astacin, which is a useful model for the 197-residue catalytic domain of human ovastacin (35% sequence identity; 48% similarity; see [35]) These studies revealed unexpected differences with mFB in terms of proteolytic susceptibility and the spatial arrangement of the cystatin domains, which enabled us to identify dispensable structural elements for inhibition. We verified these structural findings by means of biochemical studies with crayfish astacin and human meprins in vitro
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