Enhanced activity of an angiotensin-(1-7) neuropeptidase in glucocorticoid-induced fetal programming.

We previously identified angiotensin converting enzyme (ACE) and an endopeptidase activity that degraded angiotensin-(1-7) [Ang-(1-7)] to Ang-(1-5) and Ang-(1-4), respectively, in the cerebrospinal fluid (CSF) of 6-month old male sheep. The present study undertook a more comprehensive analysis of the CSF peptidase that converts Ang-(1-7) to Ang-(1-4) in control and in utero betamethasone-exposed sheep (BMX). Characterization of the Ang-(1-7) peptidase revealed that the thiol agents 4-aminophenylmercuric acetate (APMA) and p-chloromercuribenzoic acid (PCMB), as well as the metallo-chelators o-phenanthroline and EDTA essentially abolished the enzyme activity. Additional inhibitors for serine, aspartyl, and cysteine proteases, as well as selective inhibitors against the endopeptidases neprilysin, neurolysin, prolyl and thimet oligopeptidases did not attenuate enzymatic activity. Competition studies against the peptidase revealed similar IC50s for Ang-(1-7) (5µM) and Ang II (3µM), but lower values for Ala(1)-Ang-(1-7) and Ang-(2-7) of 1.8 and 2.0µM, respectively. In contrast, bradykinin exhibited a 6-fold higher IC50 (32µM) than Ang-(1-7) while neurotensin was a poor competitor. Mean arterial pressure (78±1 vs. 94±2mmHg, N=4-5, P<0.01) and Ang-(1-7) peptidase activity (14.2±1 vs 32±1.5fmol/min/ml CSF, N=5, P<0.01) were higher in the BMX group, and enzyme activity inversely correlated with Ang-(1-7) content in CSF. Lower Ang-(1-7) expression in brain is linked to baroreflex impairment in hypertension and aging, thus, increased activity of an Ang-(1-7) peptidase may contribute to lower CSF Ang-(1-7) levels, elevated blood pressure and impaired reflex function in this model of fetal programming.

Utility of combining MMP-9 enzyme-linked immunosorbent assay and MMP-9 activity assay data to monitor plasma enzyme specific activity.

The aim of this study was to combine matrix metalloproteinase-9 (MMP-9) protein (enzyme-linked immunosorbent assay [ELISA]) and MMP-9 activity (fluorescence resonance energy transfer [FRET] assay) data to generate units of specific activity in endogenous and p-aminophenylmercuric acetate (APMA)-activated lithium heparin plasma. The results indicate that specific activity is constant in APMA-activated plasma (mean value=1359.4 pmol/min/microg) and approximately 12% plasma MMP-9 is endogenously active. Exogenous tissue inhibitor of metalloproteinase-1 (TIMP-1) has a greater inhibitory effect on endogenously active MMP-9 than on APMA-activated MMP-9. In conclusion, specific activity can be used as a tool to monitor MMP-9 inhibition. APMA activation affects natural enzyme inhibition, possibly by chemical modification of the C-terminal portion of the enzyme containing the TIMP-1 binding site.

The canonical methionine 392 of matrix metalloproteinase 2 (gelatinase A) is not required for catalytic efficiency or structural integrity: probing the role of the methionine-turn in the metzincin metalloprotease superfamily.

Matrix metalloproteinases (MMPs) are an important family of extracellular proteases that process a variety of biologically significant molecules. MMPs are members of the metzincin superfamily of >770 zinc endopeptidases, which includes astacins, serralysins, adamalysins, leishmanolysins, and snapalysins. Metzincins are characterized by an absolutely conserved methionine residue COOH-terminal to the third histidine in the consensus sequence HEXXHXXGXX(H/D), where the histidine residues chelate a catalytic zinc ion. The canonical methionine is part of a tight 1,4-beta-turn that loops the polypeptide chain beneath the catalytic zinc ion, forming a hydrophobic floor to the Zn(2+) ion binding site. The role of this methionine is uncertain, but its absolute conservation indicates an essential catalytic or structural function. To investigate this hypothesis, we replaced Met-392 that forms the Met-turn of human MMP-2 (gelatinase A) by site-directed mutagenesis. The catalytic competence of leucine and serine mutants was assessed. (M392L)MMP-2 and (M392S)MMP-2 cleaved the physiological substrates gelatin, native type I collagen, and the chemokine monocyte chemoattractant protein-3 with similar efficiency to wild-type MMP-2. These mutants also cleaved two quenched fluorescent peptide substrates with a k(cat)/K(m) comparable to wild-type MMP-2 and underwent 4-aminophenylmercuric acetate-induced autoactivation with similar kinetics. (M392L)MMP-2 and (M392S)MMP-2 were inhibited by tissue inhibitor of metalloproteinases (TIMP)-1, -2, and -4 and by the zinc chelators 1,10-phenanthroline and a synthetic hydroxamate inhibitor, Batimastat, similar to the wild-type protein, indicating an unaltered active site topography. A tryptic susceptibility assay also suggested that (M392L)MMP-2 and (M392S)MMP-2 were correctly folded. These results challenge the dogma that this methionine residue and the Met-turn, which are absolutely conserved in all of the subfamilies of the metzincins, play an essential role in catalysis or active site structure.

Selective processing of a follicular matrix metalloproteinase-2 isoform by human oviducal fluid.

The present study demonstrates that a unique isoform of matrix metalloproteinase (MMP)-2 present in human follicular fluid (FF) can be processed selectively by human oviducal fluid (OF). A gelatin zymogram of untreated FF showed distinct 88-, 84- and 62-kDa gelatinases. Treatment of FF with EDTA resulted in the appearance of 110-kDa gelatinase (GA110). Most gelatinases, except for the 88- and 84-kDa gelatinases, were abolished by pretreatment with EDTA or phenanthroline, but not by pretreatment with a serine/threonine protease inhibitor. When EDTA-pretreated FF was mixed with OF, the GA110 of the FF was specifically reduced. The reduction in GA110 was dependent upon the amount of OF protein and the incubation period after mixing. Treatment of FF with aminophenylmercuric acetate reduced GA110 activity, but this reduction was accompanied by a concomitant increase of 62-kDa gelatinase activity. Anti-human MMP-2 antibody strongly reacted with both GA110 and 62-kDa gelatinases of FF, but only GA110 immunoreactivity was abolished when FF was mixed with OF. The results suggest that the GA110 of FF is an MMP-2 isoform that can be processed selectively by OF.

Gelatinase activity of matrix metalloproteinases in the cerebrospinal fluid of various patient populations.

We have studied the enzymatic gelatinolytic activity of matrix metalloproteinases (MMPs) present in cerebrospinal fluid (CSF) of samples obtained from 67 individuals, twenty-one nonneurological patients (considered controls) and 46 subjects with various neurological disorders e.g., vascular lesions, demyelination, inflammatory, degenerative and prion diseases. Biochemical characterization of MMPs, a family of neutral proteolytic enzymes involved in extracellular matrix modeling, included determination of substrate specificity and Ca+2 dependency, as well as the effects of protease inactivators, carboxylic and His (histidine) residue modifiers, and antibiotics. Whereas all CSF samples expressed MMP-2 (gelatinase A) activity, it corresponded in most cases (normal and pathological samples) to its latent form (proenzyme; pMMP-2). In general, inflammatory neurological diseases (especially meningitis and neurocisticercosis) were associated with the presence of a second enzyme, MMP-9 (or gelatinase B). Whereas MMP-9 was found in the CSF of every tropical spastic paraparesis patient studied, its presence in samples from individuals with vascular lesions was uncommon. Patients blood-brain barrier damage was ascertained by determining total CSF protein content using both, the conventional polyacrylamide gel electrophoresis procedure under denaturing conditions and capillary zone electrophoresis.

Production and purification of human fibroblast collagenase (MMP-1) expressed in the methylotrophic yeast Pichia pastoris.

The cDNA that encodes the proenzyme form of human fibroblast collagenase (proMMP-1) was expressed in the methylotrophic yeast Pichia pastoris. The proMMP-1 encoding DNA was fused to the Saccharomyces cerevisiae pre-pro alpha-mating factor secretion signal in the P. pastoris pPIC9 expression plasmid, transformed into strain GS115 (His-), and His+ Muts (slow methanol utilization) transformants were selected. Full-length proenzyme and processed forms of the protein could be detected in yeast culture supernatants following shake flask and 10-liter fermentations. The protein was purified to greater than 95% homogeneity. The recombinant proMMP-1 was comparable to the native fibroblast material based on (i) migration of the full-length molecule as a 52-kDa protein on reducing SDS-PAGE, (ii) correct N-terminal amino acid sequence, (iii) activation of the full-length molecule by 4-amino-phenylmercuric acetate to yield processed protein species, (iv) degradation of gelatin as monitored by zymogram gels, and (v) enzymatic activity. These data suggest that the P. pastoris expression system offers a convenient and efficient means to produce and purify MMP-1.

Compatibility of a commercially available low-density polyethylene eye-drop container with antimicrobial preservatives and potassium ascorbate.

The compatibility of the 7 ml size of Steri-Dropper, a commercially available low-density polyethylene sterile eye-drop container, was studied for use with solutions containing the antimicrobial preservatives benzalkonium chloride and phenylmercuric acetate. For benzalkonium chloride, there was no difference between the Steri-Dropper and the glass eye-drop bottles throughout the study period of 84 days. However, there was less phenylmercuric acetate present in the Steri-Dropper compared to the glass containers by the end of the study. The suitability of the Steri-Dropper bottle was also studied for use with potassium ascorbate eye drops; these degraded more in Steri-Dropper compared to glass containers and a yellow discoloration of the product was also seen in these containers. The Steri-Dropper bottle is therefore potentially compatible with dispensed formulations containing benzalkonium chloride and, for short periods only, with phenylmercuric acetate. The container would only be suitable for use with oxygen-sensitive drugs for short periods. Further validation of the suitability of the Steri-Dropper bottle would be required for use with any specific formulation.

Application of new fluorescent thiol reagent to diagnosis of homocystinuria.

A new fluorescent thiol reagent, dansyl-aminophenylmercuric acetate (DAPMA), was applied to the diagnosis of homocystinuria, a disorder which can be associated with vascular disease at an early age. DAPMA was added to urine containing metabisulphite and the resulting fluorescent derivatives were extracted on a cyclohexyl silica column and separated by thin-layer chromatography. 102 coded samples were tested. The derivative of homocysteine was easily identified in samples from 4 children with homocystinuria but was absent from all samples from normal subjects and patients with unrelated disorders. Other thiols (cysteine, acetylcysteine, mercaptolactate, thiosulphate, and thiocyanate) were also identified in urine from healthy fasting subjects.