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Query: EC:3.4.24.64 (
MPP
)
1,876
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The plant
mitochondrial processing peptidase
(
MPP
) that catalyses the cleavage of the presequences from precursor proteins during or after protein import is a membrane-bound enzyme that constitutes an integral part of the bc1 complex of the respiratory chain. In contrast,
MPP
from mammals is soluble in the matrix space and does not form part of the respiratory chain. In the present study, we have compared the substrate specificity of the isolated spinach leaf bc1/
MPP
with rat liver
MPP
using synthetic signal peptides and different mitochondrial precursor proteins. Inhibition studies of processing with synthetic peptides showed a similar inhibition pattern for plant and rat
MPP
activity. A peptide derived from the presequence of rat liver mitochondrial
aldehyde dehydrogenase
(
ALDH
) was a potent inhibitor of the spinach and rat
MPP
. Two nonprocessed signal peptides, rhodanese and linker-deleted
ALDH
(a form of
ALDH
that lacks the RGP linker connecting two helices in the presequence) had lower inhibitory effects towards each protease. The signal peptide from thiolase, another nonprocessed protein, had little inhibitory effect on
MPP
. Peptides derived from presequence of the plant Nicotiana plumbaginifolia F1 beta also showed a similar inhibitory pattern with rat
MPP
as with spinach
MPP
processing. In-vitro synthesised precursors of plant N. plumbaginifolia F1 beta and rat liver
ALDH
were cleaved to mature form by both spinach and rat
MPP
. However, the efficiency of processing was higher with the homologous precursor. Linker-deleted
ALDH
, rhodanese, and thiolase were not processed by the mammalian or plant
MPP
. However, both forms of
MPP
cleaved a mutated form of rhodanese that possesses a typical
MPP
cleavage motif, RXY S. Addition of the same cleavage motif to thiolase did not result in processing by either
MPP
. These results show that similar higher-order structural elements upstream from the cleavage site are important for processing by both the membrane-bound plant and the soluble mammalian
MPP
.
...
PMID:Studies on protein processing for membrane-bound spinach leaf mitochondrial processing peptidase integrated into the cytochrome bc1 complex and the soluble rat liver matrix mitochondrial processing peptidase. 895 61
3,4-Dihydroxyphenylacetaldehyde (DOPAL) is a toxic metabolite formed by the oxidative deamination of dopamine. This aldehyde is mainly oxidized to 3,4-dihydroxyphenylacetic acid (DOPAC) by
aldehyde dehydrogenase
(
ALDH
), but is also partly reduced to 3, 4-dihydroxyphenylethanol (DOPET) by aldehyde or aldose reductase (ARs). In a previous study, we found that rotenone, a complex I inhibitor, induced a rapid accumulation of DOPAL and DOPET in the medium of cultured PC12 cells. Here, we examined the potential role of DOPAL in the toxicity induced by complex I inhibition in PC12 cells and compared the effects of rotenone on concentrations of DOPAL and DOPET to those of
MPP
(+). DOPAL and DOPET levels were increased by rotenone but decreased by
MPP
(+). Inhibition of
ALDH
by daidzein reduced the formation of DOPAC and increased the accumulation of DOPAL. Inhibition of ARs (with AL1576) diminished DOPET formation and elevated DOPAL concentrations. Combined inhibition of
ALDH
and ARs markedly elevated DOPAL concentrations while diminishing DOPET and DOPAC levels. The elevation of DOPAL levels induced by combined inhibition of
ALDH
and ARs had no effect on cell viability. However, combined inhibition of
ALDH
and ARs potentiated rotenone-induced toxicity. Both the potentiation of toxicity and the increase in DOPAL levels were blocked by inhibition of monoamine oxidase with clorgyline indicating that accumulation of DOPAL was responsible for the potentiated rotenone-induced toxicity following combined inhibition of
ALDH
and ARs. Since complex I dysfunction is reported to be involved in the pathogenesis of Parkinson's disease, DOPAL potentiation of the deleterious effects of complex I inhibition may contribute to the specific vulnerability of dopaminergic neurons to injury.
...
PMID:3,4-Dihydroxyphenylacetaldehyde potentiates the toxic effects of metabolic stress in PC12 cells. 1085 71
Most mitochondrial matrix space proteins are synthesized as a precursor protein, and the N-terminal extension of amino acids that served as the leader sequence is removed after import by the action of a metalloprotease called
mitochondrial processing peptidase
(
MPP
). The crystal structure of
MPP
has been solved very recently, and it has been shown that synthetic leader peptides bind with
MPP
in an extended conformation. However, it is not known how
MPP
recognizes hundreds of leader peptides with different primary and secondary structures or when during import the leader is removed. Here we took advantage of the fact that the structure of the leader from rat liver
aldehyde dehydrogenase
has been determined by 2D-NMR to possess two helical portions separated by a three amino acid (RGP) linker. When the linker was deleted, the leader formed one long continuous helix that can target a protein to the matrix space but is not removed by the action of
MPP
. Repeats of two and three leaders were fused to the precursor protein to determine the stage of import at which processing occurs, if
MPP
could function as an endo peptidase, and if it would process if the cleavage site was part of a helix. Native or linker deleted constructs were used. Import into isolated yeast mitochondria or processing with recombinantly expressed
MPP
was performed. It was concluded that processing did not occur as the precursor was just entering the matrix space, but most likely coincided with the folding of the protein. Further, finding that hydrolysis could not take place if the processing site was part of a stable helix is consistent with the crystal structure of
MPP
. Lastly, it was found that
MPP
could function at sites as far as 108 residues from the N terminus of the precursor protein, but its ability to process decreases exponentially as the distance increases.
...
PMID:Timing and structural consideration for the processing of mitochondrial matrix space proteins by the mitochondrial processing peptidase (MPP). 1196 60
It is not known why leader peptides are removed by the
mitochondrial processing peptidase
after import into the matrix space. The leaders of yeast
aldehyde dehydrogenase
(pALDH) and malate dehydrogenase were mutated so that they would not be processed after import. The recombinant nonprocessed precursor of yeast pALDH possessed a similar specific activity as the corresponding mature form but was much less stable. The nonprocessed pALDH was transformed into a yeast strain missing ALDHs. The transformed yeast grew slowly on ethanol as the sole carbon source showing that the nonprocessed precursor was functional in vivo. Western blot analysis showed that the amount of precursor was 15-20% of that found in cells transformed with the native enzyme. Pulse-chase experiments revealed that the turnover rate for the nonprocessed precursor was greater than that of the mature protein indicating that the nonprocessed precursor could have been degraded. By using carbonyl cyanide m-chlorophenylhydrazone, we showed that the nonprocessed precursor was degraded in the matrix space. The nonprocessed precursor forms of precursor yeast malate dehydrogenase and rat liver pALDH also were degraded in the matrix space of HeLa cell mitochondria faster than their corresponding mature forms. In the presence of o-phenanthroline, an inhibitor of
mitochondrial processing peptidase
, the wild type precursor was readily degraded in the matrix space. Collectively, this study showed that the precursor form is less stable in the matrix space than is the mature form and provides an explanation for why the leader peptide is removed from the precursors.
...
PMID:Precursor protein is readily degraded in mitochondrial matrix space if the leader is not processed by mitochondrial processing peptidase. 1795 99
