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Mol. Cell. Biol., Jan 1998, 400-408, Vol 18, No. 1
D Powner and J Davey
Members of the kexin family of processing enzymes are responsible for the
cleavage of many proproteins during their transport through the secretory
pathway. The enzymes themselves are made as inactive precursors, and we
investigated the activation process by studying the maturation of Krp1, a
kexin from the fission yeast Schizosaccharomyces pombe. Using a cell-free
translation-translocation system prepared from Xenopus eggs, we found that
Krp1 is made as a preproprotein that loses the presequence during
translocation into the endoplasmic reticulum. The prosequence is also
rapidly cleaved in a reaction that is autocatalytic and probably
intramolecular and is inhibited by disruption of the P domain. Prosequence
cleavage normally occurs at Arg- Tyr-Lys-Arg102/ (primary cleavage site)
but can occur at Lys-Arg82 (internal cleavage site) and/or Trp-Arg99 when
the basic residues are removed from the primary site. Cleavage of the
prosequence is necessary but not sufficient for activation, and Krp1 is
initially unable to process substrates presented in trans. Full activation
is achieved after further incubation in the extract and is coincident with
the addition of O-linked sugars. O glycosylation is not, however, essential
for activity, and the crucial event appears to be cleavage of the initially
cleaved prosequence at the internal site. Our results are consistent with a
model in which the cleaved prosequence remains noncovalently associated
with the catalytic domain and acts as an autoinhibitor of the enzyme.
Inhibition is then relieved by a second (internal) cleavage of the
inhibitory prosequence. Further support for this model is provided by our
finding that overexpression of a Krp1 prosequence lacking a cleavable
internal site dramatically reduced the growth rate of otherwise wild-type
S. pombe cells, an effect that was not seen after overexpression of the
normal, internally cleavable, prosequence or prosequences that lack the
Lys-Arg102 residues.
Copyright © 1998, American Society for Microbiology
Activation of the kexin from Schizosaccharomyces pombe requires internal cleavage of its initially cleaved prosequence
Department of Biological Sciences, University of Warwick, Coventry, United Kingdom.
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