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Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
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Query: UMLS:C0023241 (
Legionella
)
6,990
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Metalloproteinase of
Legionella
pneumophila is the major extracellular proteinase of this bacterial species which splits human immunoglobulin G in the hinge region to form the (Fab')2 fragment. This fragment is relatively stable and undergoes further proteolysis at a slow rate. The c' fragment is unstable and is apparently split down to fragments CH2 and CH3. The
metalloproteinase
splits human serum albumin down to products having lower molecular masses. Another bacterial
metalloproteinase
, thermolysin, produces a similar effect, although at a slower rate.
...
PMID:[Limited proteolysis of human albumin and immunoglobulin G by Legionella pneumophila metalloproteinase]. 163 17
Antitryptic activity of human blood serum was decreased after incubation with
metalloproteinase
from
Legionella
pneumophila. The enzymatic activity depends on the time of incubation as well as on the ratio between the enzyme content and blood serum total protein. Cross immunoelectrophoresis, involving monospecific rabbit antiserum towards the alpha 1-antitrypsin, demonstrated highly effective hydrolysis of alpha 1-antitrypsin by the
metalloproteinase
. As shown by polyacrylamide gel electrophoresis the
metalloproteinase
hydrolyzed acid stable inhibitor of serine proteinases into fragments with distinct loss of the inhibitor activity. Thermolysine hydrolyzed similarly the proteins studied but at a lower rate. The
metalloproteinase
from L. pneumophila appears to be mainly responsible for production of utilizable components from protein substrates involved in vital activity of the bacteria. It may not be excluded that the enzyme is able to impair some host protective mechanisms.
...
PMID:[The effect of Legionella pneumophila metalloproteinase on certain human blood proteins. Cleavage of anti(1)-antitrypsin and acid-stable serine proteinase inhibitors]. 194 72
Prochymosin can be converted into chymosin by an action of external proteinases. Thus, thermolysin at pH 5.05 converts calf prochymosin into active Phe-chymosin, which is one amino acid longer than chymosin from the N-terminus with a yield of 73%. Even better results were achieved with prochymosin activation by
Legionella
pneumophila
metalloproteinase
. Apparently the stretch of prochymosin polypeptide chain adjacent to the normally observed activation point becomes available for an attack by an external proteinase at pH 5.0-6.0. These data indicate that the intermolecular activation pathway might be of physiological importance.
...
PMID:Prochymosin activation by non-aspartic proteinases. 210 38
Phenylalanineaminopeptidase was isolated and purified from the culture filtrate of
Legionella
pneumophila by affinity chromatography on O-tert-butyl-L-threonyl-L-phenylalanyl-L-prolylglycyl-aminosilo chrom and by gel-filtration; a 401-fold purification with a yield of 18% was achieved. The enzyme was a metalloenzyme with a molecular weight of 35000 and a pI of 5.8. It was stable at pH 7-9 and had an activity optimum in the range of pH 8-9.5 with L-phenylalanine p-nitroanilide as substrate. Enzyme activity was highest towards the latter compound, substantially lower towards L-leucine p-nitroanilide and only marginal towards other p-nitroanilides. Besides phenylalanineaminopeptidase, a
metalloproteinase
and a serine proteinase were also detected in L. pneumophila culture filtrate.
...
PMID:Proteinases of Legionella: phenylalanineaminopeptidase of L. pneumophila. 371 61
We previously identified
Legionella
pneumophila PlaB as the major cell-associated phospholipase A/lysophospholipase A with contact-dependent hemolytic activity. In this study, we further characterized this protein and found it to be involved in the virulence of L. pneumophila. PlaB was mainly expressed and active during exponential growth. Active PlaB was outer membrane-associated and at least in parts surface-exposed. Transport to the outer membrane was not dependent on the type I (T1SS), II (T2SS), IVB (T4BSS) or Tat secretion pathways. Furthermore, PlaB activity was not dependent on the presence of the macrophage infectivity potentiator (Mip) or the major secreted zinc
metalloproteinase
A (MspA). Despite the fact that PlaB is not essential for replication in protozoa or macrophage cell lines, we found that plaB mutants were impaired for replication in the lungs and dissemination to the spleen in the guinea pig infection model. Histological sections monitored less inflammation and destruction of the lung tissue after infection with the plaB mutants compared to L. pneumophila wild type. Taken together, PlaB is the first phospholipase A/lysophospholipase A with a confirmed role in the establishment of
Legionnaires' disease
.
...
PMID:Phospholipase PlaB is a new virulence factor of Legionella pneumophila. 2015 94
Enzymes secreted by
Legionella
pneumophila, such as phospholipases A (PLAs) and glycerophospholipid:cholesterol acyltransferases (GCATs), may target host cell lipids and therefore contribute to the establishment of
Legionnaires disease
. L. pneumophila possesses three proteins, PlaA, PlaC, and PlaD, belonging to the GDSL family of lipases/acyltransferases. We have shown previously that PlaC is the major GCAT secreted by L. pneumophila and that the zinc
metalloproteinase
ProA is essential for GCAT activity. Here we characterized the mode of PlaC GCAT activation and determined that ProA directly processes PlaC. We further found that not only cholesterol but also ergosterol present in protozoa was palmitoylated by PlaC. Such ester formations were not induced by either PlaA or PlaD. PlaD was shown here to possess lysophospholipase A activity, and interestingly, all three GDSL enzymes transferred short chain fatty acids to sterols. The three single putative catalytic amino acids (Ser-37, Asp-398, and His-401) proved essential for all PlaC-associated PLA, lysophospholipase A, and GCAT activities. A further four cysteine residues are important for the PLA/GCAT activities as well as their oxidized state, and we therefore conclude that PlaC likely forms at least one disulfide loop. Analysis of cleavage site and loop deletion mutants suggested that for GCAT activation deletion of several amino acids within the loop is necessary rather than cleavage at a single site. Our data therefore suggest a novel enzyme inhibition/activation mechanism where a disulfide loop inhibits PlaC GCAT activity until the protein is exported to the external space where it is ProA-activated.
...
PMID:Zinc metalloproteinase ProA directly activates Legionella pneumophila PlaC glycerophospholipid:cholesterol acyltransferase. 2258 91
L. pneumophila, an important facultative intracellular bacterium, infects the human lung and environmental protozoa. At least fifteen phospholipases A (PLA) are encoded in its genome. Three of which, namely PlaA, PlaC, and PlaD, belong to the GDSL lipase family abundant in bacteria and higher plants. PlaA is a lysophospholipase A (LPLA) that destabilizes the phagosomal membrane in absence of a protective factor. PlaC shows PLA and glycerophospholipid: cholesterol acyltransferase (GCAT) activities which are activated by zinc
metalloproteinase
ProA via cleavage of a disulphide loop. In this work, we compared GDSL enzyme activities, their secretion, and activation of PlaA. We found that PlaA majorly contributed to LPLA, PlaC to PLA, and both substrate-dependently to GCAT activity. Western blotting revealed that PlaA and PlaC are type II-secreted and both processed by ProA. Interestingly, ProA steeply increased LPLA but diminished GCAT activity of PlaA. Deletion of 20 amino acids within a predicted disulfide loop of PlaA had the same effect. In summary, we propose a model by which ProA processes PlaA via disulfide loop cleavage leading to a steep increase in LPLA activity. Our results help to further characterize the L. pneumophila GDSL hydrolases, particularly PlaA, an enzyme acting in the
Legionella
-containing phagosome.
...
PMID:Disulfide loop cleavage of Legionella pneumophila PlaA boosts lysophospholipase A activity. 2917 77
