A novel membrane proteinase of the nosocomial important bacteria species
Bacillus cereus (synonyms: camelysin, CCMP) was purified up to homogeneity as was shown by mass spectrometry in its ...amphiphilic form. Camelysin is a neutral metalloprotease with a molecular mass of 19 kDa. Its unique N-terminus Phe-Phe-Ser-Asp-Lys-Glu-Val-Ser-Asn-Asn-Thr-Phe-Ala-Ala-Gly-Thr-Leu-Asp-Leu-Thr-Leu-Asn-Pro-Lys-Thr-Leu-Val-Asp-(Ile-Lys-Asp)- was not detected in the protein data bases during BLAST searches, but in the partially sequenced genome of
Bacillus anthracis, coding for an unknown protein. Cleavage sites of the membrane proteinase for the insulin A- and B-chains were determined by mass spectrometry and N-terminal sequencing. Camelysin prefers cleavage sites in front of aliphatic and hydrophilic amino acid residues (–OH, –SO
3H, amido group), avoiding bulky aromatic residues. The internally quenched fluorogenic substrates of the matrix metalloproteases 2 and 7 were cleaved with the highest efficiency at the Leu-↓-Gly or Leu-↓-Ala bond with the smaller residue in the P
1′ position. The protein specificity is broad – all various kinds of casein were cleaved as well as acid-soluble collagen, globin and ovalbumin; intact insulin was destroyed only to a low extent. Actin, collagen type I, fibrinogen, fibrin, α
2-antiplasmin and α
1-antitrypsin were cleaved. The protease formed SDS-stable complexes with Glu-plasminogen and antithrombin III, visible after SDS electrophoresis by gold staining and Western blot. The CCMP–plasminogen complex caused a partial activation of plasminogen to plasmin. Camelysin interacts with proteins of the blood coagulation cascade and could facilitate the penetration of fibrin clots and of the extracellular matrix during bacterial invasion.
Thirteen dipeptide
p-nitroanilides of the common structure H-Xaa-Pro-4-NA (Xaa = serine, threonine and tyrosine) and seven tripeptide p-nitroanilides of the common structure H-Gly-Xaa-Pro-4-NA (Xaa = ...serine or threonine) were prepared and analyzed as substrates of the proline-specific peptidases dipeptidyl peptidase IV and prolyl endopeptidase, respectively. The side chains of the hydroxy amino acids were synthetically modified by various acyl-, benzyl- and phosphate residues. The presence of aliphatic or aromatic residues attached to the side; chain of the P
2 hydroxy amino acids resulted in no significant change of the specificity constants of the enzyme-catalyzed substrate hydrolysis. In some cases, however, substrate inhibition was observed.In contrast, the reactivity of dipeptidyl peptidase IV and prolyl endopeptidase decreases more than two orders of magnitude towards the phosphorylated di- and tripeptide substrates compared to the hydrolysis of unmodified substrates. The kinetic data obtained with the model compounds suggest that side-chain modification of proline-containing peptide substrates may influence their resistance towards the hydrolytic activity of proline-specific hydrolases. Additionally, the results support that structural changes of the substrate during enzyme-hydrolysis may be involved in the mechanism of action of proline-specific serine peptidases. From this result we speculate that posttranslational phosphorylation of peptide sequences found in protein kinase recognition motifs such as -Xaa-Ser/Thr-Pro-Yaa- and -Xaa-Pro-Ser/Thr-Yaa- may serve as structural determinants that modulate their proteolytic stability.
A series of N-peptidyl-O-acyl hydroxylamines was synthesized and tested as inactivators of cysteine proteinases. Depending on the structure of the peptidyl residue of the inhibitors, rapid and ...complete irreversible inactivation of the lysosomal cathepsins, B, L and S, may be achieved. The most effective inhibitors display second-order rate constants of the inactivation in the range 10(5)-10(6) M-1.s-1. By contrast, the activity of the aminoendopeptidase cathepsin H is only negligibly affected by the N-terminal-protected peptidyl inhibitors.
Highly active D-proline reductase was obtained from Clostridium sticklandii by a modified purification scheme. The cytoplasmic enzyme had a molecular mass of about 870 kDa and was composed of three ...subunits with molecular masses of 23, 26, and 45 kDa. The 23-kDa subunit contained a carbonyl group at its N terminus, which could either be labeled with fluorescein thiosemicarbazide or removed by o-phenylenediamine; thus, N-terminal sequencing became feasible for this subunit. L-14Cproline was covalently bound to the 23-kDa subunit if proline racemase and NaBH4 were added. Selenocysteine was detected in the 26-kDa subunit, which correlated with an observed selenium content of 10.6 g-atoms in D-proline reductase. No other non-proteinaceous cofactor was identified in the enzyme. A 4.8-kilobase pair (kb) EcoRI fragment was isolated and sequenced containing the two genes prdA and prdB. prdA coding for a 68-kDa protein was most likely translated as a proprotein that was posttranslationally cleaved at a threonine-cysteine site to give the 45-kDa subunit and most probably a pyruvoyl-containing 23-kDa subunit. The gene prdB encoded the 26-kDa subunit and contained an in frame UGA codon for selenocysteine insertion. prdA and prdB were transcribed together on a transcript of 4.5 kb; prdB was additionally transcribed as indicated by a 0.8-kb mRNA species.
Using proembryonic masses (PEMs) of Digitalis lanata Erh., it was demonstrated that cold hormonal or osmotic stress, which increased freezing tolerance during cryopreservation, induced an increasing ...level of two peptidyl-prolyl-cis/trans-isomerases (PPIases). The difference in pI (9.2 +/- 0.2 and 9.5 +/- 0.2, +/- SD; n = 3) allowed the separation of the two enzymes by free-flow isoelectrophoresis. Both were inhibited by cyclosporin A and thus belong to the cyclophilin family of PPIases. The enzymes differed slightly in their substrate specificity and their relative molecular masses of 18038 +/- 4 Da (D. lanataCyp18.0) and 18132 +/- 3 Da (D. lanataCyp18.1). Both cyclophilins were blocked N-terminally. Partial internal amino acid sequences from the two cyclophilins, with a length of 34 amino acids, displayed 82% sequence identity to each other Pretreatment of PEMs with abscisic acid, sorbitol or a combination of both substances led to a 270 +/- 30% elevation of the total cytosolic cyclophilin concentration determined with a cyclophylin affinity sensor. During the first 4 d of pretreatment, the total PPIase activity was enhanced up to 230 +/- SD% compared with the control culture. The lag phase between maximal PPIase concentration after 4 d of pretreatment and maximal effect of freezing tolerance after 10 d of pretreatment indicated that increasing levels of cytosolic PPIases may be necessary to overcome the stress induced by hormones and osmotica during pretreatment but not to protect against freezing/thawing stress.
This study examines the role new technology is playing in the writer/editor relationship. The study is based on responses to a mail questionnaire sent to a sample of consumer and specialized business ...editors. Editors reported that the new technology is affecting their relationship with writers and that free-lancers are less apt to use expensive new technology than staff writers. The magazine industry - especially the consumer segment - is moving toward the “virtual workplace.” Authors speculate about the possibility of free-lancers becoming a “technological underclass.”
A membrane proteinase from
Pseudomonas aeruginosa, called insulin-cleaving membrane proteinase (ICMP), was located in the outer membrane leaflet of the cell envelope. The enzyme is expressed early in ...the logarithmic phase parallel to the bacterial growth during growth on peptide rich media. It is located with its active center facing to the outermost side of the cell, because its whole activity could be measured in intact cells. The very labile membrane proteinase was solubilized by non-ionic detergents (Nonidet P-40, Triton X-100) and purified in its amphiphilic form to apparent homogeneity in SDS-PAGE by copper chelate chromatography and two subsequent chromatographic steps on Red-Sepharose CL-4B (yield 58.3%, purification factor 776.3). It consisted of a single polypeptide chain with a molecular mass of 44.6 kDa, determined by mass spectrometry. ICMP was characterized to be a metalloprotease with pH-optimum in the neutral range. The ICMP readily hydrolyzed Glu
13-Ala
14 and Tyr
16-Leu
17 bonds in the insulin B-chain. Phe
25-Tyr
26 and His
10-Leu
11 were secondary cleavage sites suggesting a primary specificity of the enzyme for hydrophobic or aromatic residues at P′
1-position. The ICMP differed from elastase, alkaline protease and LasA in its cleavage specificity, inhibition behavior and was immunologically diverse from elastase. The amino acid sequence of internal peptides showed no homologies with the known proteinases. This outer membrane proteinase was capable of specific cleavage of α and β fibrinogen chains. Among the
p-nitroanilide substrates tested, substrates of plasminogen activator, complement convertase and kallikrein with arginine residues in the P
1-subsite were the substrates best accepted, but they were only cleaved at a very low rate.
A low degree of amino acid sequence similarity to FK506-binding proteins (FKBPs) has been obtained for the peptidyl prolyl
cis/trans isomerase (PPIase) domain of
E. coli trigger factor (TF) that was ...thought to be significant with regard to the enzymatic properties of the bacterial enzyme. We examined whether the alteration of a negatively charged side-chain at position 37 (FKBP numbering) and a phenylalanine at position 99, both highly conserved through both types of enzymes, leads to parallel effects on the catalytic activity of both FKBP12 and TF-PPIase domain in a series of tetrapeptide substrates with different P
1 subsites. For the latter enzyme, substitution of Glu
178 by Val or Lys, which aligns to Asp
37 in human FKBP12, enhanced the PPIase activity, whereas a strongly decreased enzymatic activity was determined for the Asp
37Leu and Asp
37Val variants of FKBP12. Regardless of the P
1 subsite of the substrate used for the assay, mutation of Phe
233Tyr generated a protein variant of the TF-PPIase domain with about 1% of the wild type PPIase activity. Dependent on the substrate nature, a moderate decrease as well as a 4.8-fold increase in
k
cat/
K
M could be determined for the corresponding Phe
99Tyr FKBP12 variant. Neither of the mutations of the TF-PPIase domain was able to implant FK506 inhibition found as a major characteristic of the FKBP family of PPIases.
We identified a periplasmic peptidyl-prolyl cis/trans-isomerase (PPIase) of the (FK506-binding protein (FKBP) type in Escherichia coli (FK506 represents a natural peptidomacrolide containing an ...acylated pipecolic acid residue). After purification to homogeneity, its complete amino acid sequence was determined by a combination of Edman degradation and electrospray mass spectrometry of the authentic protein and peptides generated by proteolysis. The molecular mass calculated from the amino acid sequence of the protein was 22,085.53 Da, which corresponded perfectly with the value of 22,084 +/- 1.47 Da as determined by mass spectrometry. The corresponding gene was cloned and analyzed, and Southern blot experiments revealed the existence of similar genes in various Gram-negative bacteria. The amino acid sequence of the novel FKBP22 shows similarity to Mip (macrophage infectivity potentiator)-like proteins produced by a number of pathogenic bacteria. However, FKBP22 is inhibited more strongly by FK506 than are other Mip-homologues, as indicated by the Ki value of 25 nM. The subsite specificity regarding the P1 position of the substrate resembles that for Mip-FKBP25 from Legionella pneumophila. The mature FKBP22 enzyme of 205 amino acids exists as a dimer in solution.
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