Quantification and partial characterization of the hamster sperm proacrosin-acrosin system

The proacrosin-acrosin proteinase system was measured and partially characterized in unpurified extracts of washed hamster epididymal sperm. Autoactivation experiments demonstrated that proacrosin accounted for greater than 98% of the acrosin activity in the sperm extracts from individual animals. Several bands of proteinase activity were observed on gelatin-sodium dodecyl sulfate-polyacrylamide gel electrophoretic (gelatin-SDS-PAGE) zymography. The major proteinase activities in the nonactivated extracts corresponded to relative molecular masses (Mr) of 51,000 to 56,000, while less distinct digestion occurred with relative molecular masses of 37,000 to 49,000. It was demonstrated that after a serial dilution of the sperm extract, the proteinase activity in as few as 6,000 sperm could readily be detected by the gelatin-SDS-PAGE methods. Time-course activation studies showed that the zymogen was completely converted to active proteinase in 45-60 min at pH 8.0 and 25 degrees C. This autoconversion process was markedly inhibited by calcium, sodium, and heparin. However, each of these compounds stimulated the proteolytic activity of acrosin. These studies demonstrate that the proacrosin-acrosin system can be investigated in extracts of nonpurified hamster epididymal sperm.     

Studies on the rabbit proacrosin-acrosin system

A single molecular form (Mr = 68,000 approx) of a homogeneous preparation of rabbit testis proacrosin (S. K. Mukerji and S. Meizel (1979) J. Biol. Chem. 254, 117;21-11728) was initially converted by autoactivation into an acrosin (Mr = 68,000); both gave a single activity and protein bands with similar electrophoretic mobilities (Rm = 0.25) when subjected to polyacrylamide disc gel electrophoresis on 7.5% gel at pH 4.5. Two additional bands (Rm values of 0.395-0.412 and 0.497-0.519, respectively) were noticeable only when proacrosin was activated further after attaining maximum activity. The slowest- and the fastest-moving bands were separated into two acrosin activity peaks by Sephadex G-100 gel-filtration chromatography on a calibrated column. The molecular weights of the two proteins, determined by rechromatography on the same column, was estimated to be 68,000 and 34,000, respectively. Also, sodium dodecyl sulfate-polyacrylamide disc gel electrophoresis of three acrosins gave protein bands which corresponded to molecular weights of approximately 68,000, 52,000, and 34,000, respectively. Electrophoresis data suggest that the loss of acrosin activity generally observed following prolonged activation of proacrosin is caused by self-aggregation of the Mr 34,000 form of acrosin. This property was not shown by Mr 68,000 acrosin. Initial acrosin (Mr = 68,000) was activated by divalent cations such as Ca2+ and Mg2+. The enzyme was inhibited by Zn2+, Fe2+, Hg2+, and sulfhydryl blockers such as 5,5'-dithiobis(2-nitrobenzoic acid), p-hydroxymercuribenzoate, and iodoacetate, apparently due to their reaction with one out of six titratable sulfhydryl groups per mole of acrosin. Probably Zn2+ is involved in acrosomal stabilization. The initial rabbit acrosin (Mr = 68,000) appears to be the major and most stable form, and is generated from proacrosin with little structural alteration. This may be the functionally active form which plays an essential role in mammalian fertilization.     

Purification and initial characterization of guinea pig testicular acrosin

Guinea pig (GP) acrosin was purified following acid extraction of testicular acetone powder, pH precipitation of the soluble extract, gel filtration on Sephadex G-100, ion-exchange chromatography on SP-Sephadex, and affinity chromatography on Concanavalin A-Sepharose. Final purification was achieved by re-chromatography on Sephadex G-100. Enzymatic activity was detected by following the hydrolysis of N-benzyloxycarbonylarginyl amide of 7-amino-4-trifluoromethylcoumarin at 37 degrees C, pH 8.0, before and after activation. GP testicular acrosin exhibited a molecular weight of 48,000 by gel filtration and 34,000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Following SDS-PAGE in gels containing 0.1% gelatin, protease activity was observed to comigrate with the major protein detected by silver staining. The purified GP acrosin showed cross-reactivity with a monospecific polyclonal rabbit antiserum directed against boar sperm acrosin and exhibited reversible pH-dependent activation. The physiochemical characteristics of the purified protein, including the amino acid composition, resemble those reported for acrosins from other species.     

Guinea pig adrenocortical cells: in vitro characterization of separated zonal cell types

This paper reports a quick, relatively simple and reproducible technique for obtaining populations of zona fasciculata and zona glomerulosa cells up to 80-90% pure, which can be maintained in vitro for study of adrenocortical cell function. Isolated guinea pig adrenocortical cells were separated on a 1-28% bovine serum albumin/Ca++, Mg++-free buffer gradient (wt/vol at 4% increments) using equilibrium density centrifugation (570 g, 30 min). Over 60% of the 8 x 10(5) viable cells/adrenal obtained in the total isolate were recovered after separation. 80% of the zona glomerulosa cells were found in the lower three bands of the gradient. 78% of the zona fasciculata cells were found in the top three bands. Of the cells in the first two bands, 78-91% were zona fasciculata cells, whereas of the cells in the bottom two bands 92-95% were zona glomerulosa cells. The cells retained the morphological characteristics of cells in situ and could be maintained in vitro for periods up to 11 d. They produced a wide variety of steroids, cortisol, corticosterone, aldosterone, 11-beta- hydroxyandrostenedione, deoxycortisol, deoxycorticosterone, cortisone, 18-hydroxycorticosterone, and a product tentatively identified as dehydroepiandrosterone, and they responded to ACTH in a dose-responsive manner with enhanced levels of steroid output. Zona glomerulosa- enriched populations differed from zona fasciculata-enriched populations in their abundant production of aldosterone and in the pattern of steroid production. None of the cultures responded to angiotensin II (100 pg/ml) with increased steroid production.     

Purification and preliminary characterization of guinea pig testicular proteinase inhibitors

Three guinea pig testicular, low-molecular-weight, acid-stable inhibitors specific for trypsin-like proteinases were isolated, purified, and characterized. The procedure comprised acid extraction of testicular acetone powder, pH precipitation of the extract, gel filtration of the supernatant on Sephadex G-100 and G-50, ion-exchange chromatography on SP-Sephadex, followed by QAE-Sephadex. Final purification was by rechromatography on Sephadex G-50 superfine gel. The three proteinase inhibitors were labeled A, B, and Cnb, the latter to denote nonbinding of Cnb to the QAE-Sephadex. Components A and Cnb showed competitive, whereas B showed noncompetitive, inhibition against trypsin. All three inhibitors were active against trypsin but were ineffective against chymotrypsin. The inhibition constants, Ki, were obtained using trypsin-catalyzed hydrolysis of the N-benzyloxycarbonyl-L-arginyl amide of 7-amino-4-trifluoro-methylcoumarin (CBZ-Arg-AFC) at pH 8.0. The values were calculated to be, for A, 1.5 x 10(-8) M; for B, 1.5 x 10(-8) M; and, for Cnb, 2.2 x 10(-7) M. The Ki values calculated from inhibition of trypsin-catalyzed hydrolysis of the active site titrant 4-methylumbelliferyl-p-guanidinobenzoate (MUGB) using Easson-Stedman plots were, for A, 7.7 x 10(-9) M; for B, 6.7 x 10(-9) M; and, for Cnb, 1.4 x 10(-7) M. The Mrs as determined by active site titration with MUGB were A, 11.2 kDa; B, 10.5 kDa; Cnb, 17.0 kDa. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis gave Mr values for A of 11 kDa, for B of 4 kDa, and for Cnb of 19 kDa. The discrepancy in Mr values for B indicates that it may function as a dimer or trimer in the active state.     

Guinea pig liver aldehyde oxidase as a sulfoxide reductase: Its purification and characterization

Guinea pig aldehyde oxidase was purified about 120-fold at a yield of 26% from liver cytosol by sequential column chromatography using DEAE-cellulose, FMN-Sepharose 4B, and Sephacryl S-300. The purified enzyme showed many similarities with the rabbit liver aldehyde oxidase reported by other workers with respect to its absolute spectra, molecular weight, and cofactor compositions of molybdenum, FAD, and nonheme iron. This enzyme efficiently utilized 2-hydroxypyrimidine and benzaldehyde as electron donors while N¹-methylnicotinamide was 40 times less effective than 2-hydroxypyrimidine. Diphenyl sulfoxide was reduced anaerobically to diphenyl sulfide in the presence of electron donors. This activity was highly susceptible to SKF 525-A as well as the known inhibitors for aldehyde oxidase such as menadione, estradiol, and potassium cyanide. This enzyme also reduced dibenzyl sulfoxide, phenothiazine sulfoxide, d-biotin methyl ester d-sulfoxide, and quinoline N-oxide, but not l-methionine sulfoxide, dimethyl sulfoxide, d-biotin methyl ester l-sulfoxide, and d-biotin d- and l-sulfoxides, as well as diphenyl sulfone. These results indicate that aldehyde oxidase in guinea pig liver functions as a sulfoxide reductase with selective substrate specificity under anaerobic conditions.     

Guinea pig liver alcohol dehydrogenase: isolation and characterization of two distinct classes of isozymes

1. Two distinct classes of alcohol dehydrogenase (ADH) isozymes were purified from guinea pig liver. 2. While the two classes of isozymes have similar subunit weight and electrophoretic mobility on starch gel, they differ markedly in catalytic properties. 3. The class A ADH oxidizes rapidly, exhibits saturated kinetics with both primary and secondary alcohols and is inhibited very effectively by 4-methylpyrazole (Ki = 0.58 microM) and o-phenanthroline (I50 = 0.1 mM). 4. The class B isozyme does not oxidize secondary alcohols, exhibits saturated kinetics only with long chain primary alcohols and is less sensitive to the ADH inhibitors 4-methylpyrazole (Ki = 15 mM) and o-phenanthroline (I50 greater than 10 mM).     

Activation of methionine synthase: further characterization of flavoprotein system.

Two homogeneous flavoproteins (R and F components) which, in conjunction with catalytic amounts of NADPH and adenosylmethionine, comprise an efficient system for activation of the B₁₂-containing methionine synthase (M component) from Escherichia coli K-12, have been characterized with respect to oxidation-reduction properties and participation in the activation process. The flavin (FAD) of R component is reduced to FADH₂ by NADPH. Reduced R, in turn, reduces the flavin (FMN) of F component to a blue semiquinone (FMNH ·). Reduction potentials (at pH 7.0) for R and F are ?0.30 and ?0.29 V, respectively. Various other compounds such as ferricyanide, 2,6-dichlorophenol-indophenol, menadione, and -cytochrome c can also serve as electron acceptors for reduced R, but only F can efficiently mediate the NADPH- and R-dependent activation of M component. Activation is assumed, therefore, to involve the sequence: NADPH → R → F → M. During operation of the complete system, the amount of NADPH consumed is less than 2% of the amount of methionine synthesized.     

Guinea pig acylphosphatase: The amino acid sequence

We determined the primary structure of guinea pig skeletal muscle acylphosphatase, using the high degree of homology with several vertebrate acylphosphatases to obtain correct alignment of the complete series of tryptic peptides. Their sequences were obtained mainly by Edman degradation; FAB mass spectrometry was used to identify the acyl group blocking the NH₂-terminal residue and to elucidate the structure of the NH₂-terminal tryptic peptide. The comparison among acylphosphatase sequences from skeletal muscle of several vertebrate species is presented and discussed.     

Aldosterone-induced glycoproteins: further characterization

Aldosterone induces the synthesis of a group of glycoproteins (GP65,70) in toad urinary bladders which are potential effectors of the natriferic action of this hormone. The GP65,70 complex is composed of two molecular weight classes of proteins (Mr 65 and 70 kDa), each class being composed of several discrete proteins of varying isoelectric points (5.8-6.2). These proteins can be partially enriched (approximately 20-fold) using wheat germ agglutinin-sepharose affinity chromatography, are neuraminidase-resistant, and can be N-deglycosylated by endoglycosidase-H and N-glycanase. Treatment with N-glycanase leads to the appearance of a microheterogeneous group of proteins, all having the same Mr (approximately 40 kDa). From these studies it can be concluded that these particular aldosterone-induced proteins: (1) are heavily glycosylated, (2) contain multiple high mannose and hybrid oligosaccharides side chains, and (3) contain similar (if not identical) peptide backbones. Post-translational N-glycosylation accounts, at least in part, for their electrophoretic polymorphism (variation in Mr) but not for their electrophoretic microheterogeneity (variation in pI). The latter may reflect other types of post-translational modification (e.g. O-glycosylation, phosphorylation) or may be due to subtle differences in amino acid composition. The partial purification and biochemical characterization of GP65,70 should ultimately lead to a better understanding of the function of these putative "effectors" of aldosterone-stimulated Na+ transport.     

Guinea pig liver transglutaminase: A modified purification procedure affording enzyme with superior activity in greater yield.

Tissue transglutaminase purified from guinea pig livers has a very broad substrate specificity in comparison with other members of the transglutaminase family and therefore is useful for substrate analogue kinetic studies. Modifications made in our laboratory to the standard purification protocol (J. E. Folk and S. I. Chung, 1985, Methods Enzymol. 113, 358-364) have yielded a 28% increase in specific activity and 55% increase in overall yield, while reducing the number of steps to the purification. Herein we report some of the highest yields and specific activities for guinea pig liver transglutaminase found in the literature, as well as the use of lyophilization as a solution to the long-standing problem of enzyme stability during storage.     

Angiotensin-converting enzyme 2 autoantibodies: further evidence for a role of the renin-angiotensin system in inflammation

Traditionally viewed as important in the regulation of blood pressure, the renin-angiotensin system - and specifically the angiotensin-converting enzyme (ACE)-angiotensin (Ang) II-AT₁ receptor axis - may play a prominent role to promote inflammation and fibrosis. ACE2, a new component of the renin-angiotensin system, has emerged as a key enzyme that selectively degrades Ang II and generates Ang-(1-7), a bioactive peptide with anti-inflammatory and anti-fibrotic actions. Takahashi and colleagues demonstrate circulating titers of inhibitory autoantibodies against ACE2 in patients with systemic sclerosis. The current study reveals a potentially novel mechanism to attenuate the catalytic activity of ACE2, thereby promoting the actions of Ang II.     

Phosphoenolpyruvate-dependent mannitol phosphotransferase system of Escherichia coli: overexpression, purification, and characterization of the enzymatically active C-terminal domain of enzyme IImtl equivalent to enzyme IIImtl

The extreme C-terminus (Ser-490 to Lys-637) of the Escherichia coli EIImtl was subcloned to test structural and mechanistic proposals about the existence of an EIII-like domain in this enzyme. Oligonucleotide-directed mutagenesis was used to produce a unique NcoI restriction site and, at the same time, to change Ser-490 into methionine in a flexible region in front of the proposed EIII-like domain. The 16-kDa C-terminal domain (CI) was overexpressed in Escherichia coli, purified, and analyzed in vitro for catalytic activity in the presence of an EIImtl mutated at its first phosphorylation site, His-554 (EII-H554A). The results presented show that this domain can be expressed as a structurally stable, enzymatically active entity which is able to restore the PEP-dependent phosphorylation activity of the mutant EIImtl-H554A to 25% of wild-type levels. To demonstrate the EIII activity of the CI domain in a more direct way, we also substituted it for EIIImtl in the Staphylococcus carnosus system. The CI domain was active in transferring the phosphoryl group to Staph. carnosus EII; however, it was 6.5 times less active compared to Staph. carnosus EIIImtl itself. EIIImtl from Staph. carnosus, on the other hand, was able to substitute for the isolated C-terminal domain in the E. coli mannitol phosphorylation assay; however, it appeared to be 2 or 3 times less effective.     

The response of testicular leukocytes to lipopolysaccharide-induced inflammation: further evidence for heterogeneity of the testicular macrophage population

The majority of macrophages in the rat testis can be identified by the tissue-resident macrophage marker ED2. A smaller population of intratesticular macrophages do not express the ED2 antigen but are positive for the monocyte/macrophage marker ED1. Treatment of adult rats with the inflammatory stimulus lipopolysaccharide (LPS) had no effect on the number of testicular resident (ED2(+)) macrophages but caused a transient increase in ED1(+)ED2(-) monocyte-like macrophages (an average three-fold increase 12 h later). In both control and LPS-treated rat testes, a majority of macrophages that expressed ED1 and all Leydig cells were immuno-positive for the inducible isoform of nitric oxide synthase (iNOS). However, less than 6% of ED2(+) macrophages showed any iNOS expression, even after LPS treatment. This deficiency was confirmed by the finding that isolated ED2(+) testicular macrophages (>98% pure) stimulated with LPS did not produce NO in vitro. In contrast, resident macrophages from the peritoneum showed the expected NO response, and purified Leydig cells produced significant NO regardless of the presence or absence of LPS. Collectively, these data indicate the presence of at least two macrophage subsets in the adult rat testis: (1) the ED2(+) resident macrophages, which do not alter following LPS-treatment and mostly do not express iNOS or produce NO in response to an inflammatory stimulus, and (2) the ED1(+)ED2(-) monocyte-like macrophages, which increase in number after LPS-treatment and express iNOS even in the absence of exogenous inflammatory stimulation. It is highly probable that these different subsets have different functional roles within the testis.     

Evaluation of the human sperm proacrosin-acrosin system using gelatin-sodium dodecyl sulfate-polyacrylamide gel electrophesis

Proteolytic enzymes in extracts of human sperm have been identified and partially characterized using a technique which incorporates gelatin into a sodium dodecyl sulfate-polyacrylamide gel electrophoresis (gelatin-SDS-PAGE) system. Initially, semen characteristics from four donors were evaluated. Following this, washed sperm were acid extracted and proacrosin and acrosin activities determined spectrophotometrically. Proteinase activity in unactivated sperm extracts was then extracts was then demonstrated using the gelatin-SDS-PAGE system. Three major (Mr approximately equal to 47,000-54,000) and four faint (Mr approximately equal to 34,000-38,000) bands of digestion were observed. Upon activation of sperm extracts it was observed that maximum esterase activity occurred within 7 min of activation while maximum proteinase activity required approximately 15 min. When gels were washed and incubated in the presence of 50 mM benzamidine, no digestion bands were observed. This indicates that all of the digestion bands were due to trypsin-like proteinases. Finally, upon serial dilution of sperm extracts it was found that this SDS-PAGE system is sensitive enough to detect proteinase activity from as few as 30,000 sperm.     

Guinea pig pancreatic polypeptide: structure and pancreatic content

Guinea pig (GP) pancreatic polypeptide (PP) has been purified from an acid-alcohol extract of 6 GP pancreata by a series of 3 HPLC steps. The sequence for GP PP as compared with that of beef and human is shown: (Sequence: see text). In a single GP pancreas weighing 2.4 g the total PP content was 1.0 nmol and the total glucagon content 61 nmol; in a single dog pancreas weighing 35 g the total PP was 385 nmol and the total glucagon 81 nmol. The relatively low content of PP in GP pancreas is consistent with the fact that the GP lacks a ventral pancreas, the region in which PP is found in highest concentration. The high glucagon content of GP pancreas is consistent with that reported in earlier studies.     

Calcium-dependent proteases: an enzyme system active at cellular membranes?

Proteases having a neutral pH optimum and an absolute requirement for calcium ion are found in virtually all mammalian cells. Association of calcium-dependent proteases and a specific inhibitor protein with biological membranes seems to be an important regulatory feature of this proteolytic system, and it is likely that membranes are preferred sites for calcium-dependent protease action. Several recent hypotheses for the physiological function of calcium-dependent proteolysis are consistent with a membrane-associated protease action. Calcium-dependent proteases may participate in cell membrane fusion: the proteolysis of membrane proteins, which is required for the efficient fusion of erythrocytes, may be catalyzed by these enzymes. There is also evidence for the involvement of calcium-dependent proteolysis in postsynaptic membrane remodeling in the hippocampus after long-term potentiation. Although the relationship of the proteolysis to synaptic function is not known, it could have important physiological or pathophysiological consequences. Finally, it has recently been suggested that calcium-dependent proteolysis may be a physiologically significant mechanism for activating membrane-associated protein kinase C after exposure of some cell types to phorbol esters or other mitogens. Further pursuit of these hypotheses may reveal a novel role for intracellular calcium-regulated proteolysis in membrane-associated cell functions.     

Purification and characterization of l,(l/d)-aminopeptidase from Guinea pig serum

Mammalian sera contain enzymes that catalyze the hydrolytic degradation of peptidoglycans and molecules of related structure and are relevant for the metabolism of peptidoglycans. We now report on a novel L,(L/D)-aminopeptidase found in human and mammalian sera. The enzyme hydrolyses the pentapeptide L-Ala-D-iso-Gln-meso-DAP(omegaNH(2))-D-Ala-D-Ala yielding the free L-alanine and the respective tetrapeptide (K(M) 18 mM). L,(L/D)-aminopeptidase from guinea pig serum was highly purified in four chromatographic steps, up to 700-fold. Molecular weight of the enzyme was estimated by HPLC to be approximately 175,000. The configuration of alanine obtained by hydrolysis of the pentapeptide was determined by oxidation with L-amino acid oxidase. The amino acids sequence in the respective tetrapeptide was deduced from the results of mass spectrometry. The novel L,(L/D)-aminopeptidase also hydrolyzed alanine-4-nitroanilide (K(M)=0.6 mM) and several peptides comprising L-amino acids. Peptides containing D-amino acid at the amino end and L-Asp-L-Asp were not the substrates for this enzyme. The purified enzyme also exhibited enkephalin degrading activity, hydrolyzing enkephalins comprising L,L- and L,D-peptide bonds. The enzyme was inhibited strongly by metal chelating agents, bestatin and amastatin.