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Query: EC:3.4.24.55 (
PTR
)
433
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
N-arginine dibasic convertase (NRD convertase) (accession number L27124) is a metalloendopeptidase from rat brain cortex and testis which cleaves peptide substrates on the N-terminus of arginine residues in basic doublets. Its predicted amino acid sequence contains the putative zinc binding motif HXXEH in a region which exhibits 35% and 48% similarity with E coli protease III (
pitrilysin
E.C 3.4.99.44) and rat or human insulinase (E.C 3.4.99.45) respectively. This feature clearly classifies this endopeptidase as a member of the
pitrilysin family
of zinc-metalloproteases. However, the NRD convertase sequence contains a distinctive additional feature consisting of a 71 acidic amino acid stretch. Its substrate selectivity and the characteristic motifs of its amino acid sequence allow us to propose this new metalloendopeptidase as the first member of a new class of processing enzymes.
...
PMID:N-arginine dibasic convertase (NRD convertase): a newcomer to the family of processing endopeptidases. An overview. 781 28
N-Arg dibasic convertase is a metalloendopeptidase from rat brain cortex and testis that cleaves peptide substrates on the N terminus of Arg residues in dibasic stretches. By using both an oligonucleotide and antibodies to screen a rat testis cDNA library, a full-length cDNA was isolated. The sequence contains an open reading frame of 1161 codons corresponding to a protein of 133 kDa that exhibits 35% and 48% similarity with
Escherichia coli protease III
(
pitrilysin
, EC 3.4.99.44) and rat or human insulinase (EC 3.4.99.45), respectively. Moreover, the presence of the HXXEH amino acid signature (XX = FL) clearly classifies N-Arg dibasic convertase as a member of the
pitrilysin family
of zinc-metalloendopeptidases. In addition, a Cys residue that may be responsible for the thiol sensitivity of the insulinase and N-Arg dibasic convertase was proposed. The protein sequence contains a distinctive additional feature consisting of a stretch of 71 acidic amino acids. We hypothesize that this metalloendopeptidase may be a member of a distinct class of processing enzymes.
...
PMID:N-arginine dibasic convertase, a metalloendopeptidase as a prototype of a class of processing enzymes. 801 18
An endoprotease and an aminopeptidase B were isolated from rat testis and characterized. The first one is a metalloendopeptidase of 1161 residues which contains a canonical HXXEHX76E Zn(2+)-binding site and an acidic stretch of 71 amino acids containing 79% of Glu and Asp. It exhibits an in vitro selectivity for peptide bonds at the N-terminus of Arg (R) moieties in dibasic sites and was thus called NRD convertase (Nardilysin: EC 3.4.24.61). It belongs to the
pitrilysin family
and shows 24 and 34% identity with E. coli protease III (EC 3.4.24.54) and insulysin (
EC 3.4.24.55
) respectively. The aminopeptidase B component is a 72 kDa metalloexopeptidase which is able to remove Lys and Arg residues from naphtylamide derivatives and from the N-terminus of various peptide substrates. A combination of biochemical and immunochemical studies revealed its ubiquitous character. In the testis, both enzymes are highly expressed at late stages of spermatogenesis and NRD convertase expression is exclusively restricted to the germ cells. The subcellular localization of both enzymes supports the involvement of aminopeptidase B in processing events associated with the secretory pathway but led to new hypothesis on the possible physiological role(s) of NRD convertase.
...
PMID:NRD convertase and aminopeptidase B: two processing metallopeptidases with a selectivity for basic residues. 968 93
A 1242 base pair DNA fragment from Bacillus halodurans H4 isolated from alkaline sediments of Lake Bogoria (Kenya) coding for a potential protease was cloned and sequenced. The hexa-histidine-tagged enzyme was overexpressed in Escherichia coli and was purified in one step by immobilized-metal affinity chromatography (IMAC) on Ni-NTA resin. The protease (ppBH4) presents an inverted zincin motif, HXXEH, which defines the inverzincin family. It shares several biochemical and molecular properties with the clan ME family M16 metallopeptidases (pitrilysins), as well as with database hypothetical proteins that are potential M16 family enzymes. Thus, like insulysin and nardilysin, but contrary to bacterial
pitrilysin
, ppBH4 is inactivated by sulfhydryl alkylating agents. On the other hand, like bacterial
pitrilysin
, ppBH4 is sensitive to reducing agents. The enzymatic activity of ppBH4 is limited to substrates smaller than proteins. In contrast to insulin, dynorphin and insulin B-chain are very good substrates for ppBH4 and several cleavage sites are common with those observed with well-characterized pitrilysins. As deduced from amino acid sequence, as well as determined by gel-filtration and SDS-polyacrylamide gel electrophoresis, ppBH4 is an active monomer of 46.5 kDa. This feature distinguishes ppBH4 from all other enzymes of the
pitrilysin family
so far described whose molecular masses range from 100 to 140 kDa.
...
PMID:Cloning, expression and characterization of a 46.5-kDa metallopeptidase from Bacillus halodurans H4 sharing properties with the pitrilysin family. 1586 16
Recently we have identified the novel mitochondrial peptidase responsible for degrading presequences and other short unstructured peptides in mitochondria, the presequence peptidase, which we named
PreP peptidasome
. In the present study we have identified and characterized the human
PreP
homologue,
hPreP
, in brain mitochondria, and we show its capacity to degrade the amyloid beta-protein (Abeta).
PreP
belongs to the
pitrilysin
oligopeptidase family M16C containing an inverted zinc-binding motif. We show that
hPreP
is localized to the mitochondrial matrix. In situ immuno-inactivation studies in human brain mitochondria using anti-
hPreP
antibodies showed complete inhibition of proteolytic activity against Abeta. We have cloned, overexpressed, and purified recombinant
hPreP
and its mutant with catalytic base Glu(78) in the inverted zinc-binding motif replaced by Gln. In vitro studies using recombinant
hPreP
and liquid chromatography nanospray tandem mass spectrometry revealed novel cleavage specificities against Abeta-(1-42), Abeta-(1-40), and Abeta Arctic, a protein that causes increased protofibril formation an early onset familial variant of Alzheimer disease. In contrast to insulin degrading enzyme, which is a functional analogue of
hPreP
,
hPreP
does not degrade insulin but does degrade insulin B-chain. Molecular modeling of
hPreP
based on the crystal structure at 2.1 A resolution of AtPreP allowed us to identify Cys(90) and Cys(527) that form disulfide bridges under oxidized conditions and might be involved in redox regulation of the enzyme. Degradation of the mitochondrial Abeta by
hPreP
may potentially be of importance in the pathology of Alzheimer disease.
...
PMID:Degradation of the amyloid beta-protein by the novel mitochondrial peptidasome, PreP. 1684 25
The novel peptidasome, called presequence protease,
PreP
, was originally identified and characterized in Arabidopsis thaliana as a mitochondrial matrix and chloroplast stroma localized metalloprotease.
PreP
has a function as the organellar peptide clearing protease and is responsible for degrading free targeting peptides and also other unstructured peptides up to 65 amino acid residues that might be toxic to organellar functions.
PreP
contains an inverted Zn-binding motif and belongs to the
pitrilysin
protease family. The crystal structure of AtPreP refined at 2.1 A demonstrated a unique totally enclosed large cavity of 10000 A3 that opens and closes in response to peptide binding, revealing a novel catalytic mechanism for proteolysis. Homologues of
PreP
have been found in yeast and human mitochondria. Interestingly, the human
PreP
,
hPreP
, is the protease that is responsible for clearing the human brain mitochondria from the toxic amyloid-beta peptide (Abeta) associated with Alzheimer's disease (AD). Accumulation of Abeta has been shown in the brain mitochondria from AD patients and mutant transgenic mice overexpressing Abeta. Here, we present a review of our present knowledge on structural and functional characteristics of
PreP
and discuss its mitochondrial Abeta-degrading activity in the human brain mitochondria in relation to AD.
...
PMID:The organellar peptidasome, PreP: a journey from Arabidopsis to Alzheimer's disease. 2003 33
