2010
DOI: 10.1074/jbc.m109.097436
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Proenzyme Structure and Activation of Astacin Metallopeptidase

Abstract: Proteolysis is regulated by inactive (latent) zymogens, with a prosegment preventing access of substrates to the activesite cleft of the enzyme. How latency is maintained often depends on the catalytic mechanism of the protease. For example, in several families of the metzincin metallopeptidases, a "cysteine switch" mechanism involves a conserved prosegment motif with a cysteine residue that coordinates the catalytic zinc ion. Another family of metzincins, the astacins, do not possess a cysteine switch, so lat… Show more

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Cited by 74 publications
(89 citation statements)
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References 54 publications
(49 reference statements)
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“…The name was based on a cysteine Sγ atom replacing the catalytic solvent molecule in the zymogen (25,26). Such an aspartate-switch mechanism has been described for proastacin (27). In this zymogen, however, the PD is much shorter (34 residues), the zinc-binding aspartate is provided by a wide loop immediately downstream of a prodomain helix that occupies the primed side of the cleft, and no interactions are observed between the PD and the upper-rim strand.…”
Section: Resultsmentioning
confidence: 99%
“…The name was based on a cysteine Sγ atom replacing the catalytic solvent molecule in the zymogen (25,26). Such an aspartate-switch mechanism has been described for proastacin (27). In this zymogen, however, the PD is much shorter (34 residues), the zinc-binding aspartate is provided by a wide loop immediately downstream of a prodomain helix that occupies the primed side of the cleft, and no interactions are observed between the PD and the upper-rim strand.…”
Section: Resultsmentioning
confidence: 99%
“…To date, aspartate-switch zymogenic mechanisms have been described only for astacins (7,88) and fragilysins (26), which are only distantly related MPs grouped with MMPs within the metzincins. To verify the function of Asp 25 in latency in pKly18, we used mutant pKly18-Y35A (from pKAR8), as the wild-type form (pKAR7) was insoluble.…”
Section: Journal Of Biological Chemistry 4735mentioning
confidence: 99%
“…To our surprise, ovulin and Acp36DE were processed in these mates ( Figure S4, C and D, respectively), albeit slowly and in the case of ovulin, not to completion, suggesting that Semp1 has a small amount of activity in the absence of processing by seminase. To parallel the activation mechanism of the canonical Astacus astacus astacin protease (Guevara et al 2010), we will refer to the removal of Semp1's propeptide region by seminase as "activational cleavage." Semp1 mutated at its predicted activational cleavage site fails to cleave its substrates Despite the fact that Semp1 cleaves ovulin and Acp36DE, and that the protease and its substrates are made in the same tissue, cleavage does not occur until these proteins are within the mated female's RT.…”
Section: Identification Of a Semp1 Null Allelementioning
confidence: 99%
“…I46A mutation blocked the second (and final) cleavage event, but incompletely blocked the first. This type of activation mechanism exists for the canonical A. astacus astacin protease (Guevara et al 2010), which is first cleaved by a trypsin protease a few amino acids N-terminal to its propeptide cleavage site. Following this tryptic cleavage event, the remaining residues are removed from the propeptide by an intramolecular cleavage by astacin itself, producing the active protease (Guevara et al 2010).…”
Section: Identification Of a Semp1 Null Allelementioning
confidence: 99%