In a previous study, evidence was provided for the presence of a novel plasma-membrane-associated neutral-pH-optimum alpha-L-fucosidase in rat sperm. In the present study, rat sperm alpha-L-fucosidase was characterized during epididymal maturation. The pH 7 activity optimum of alpha-L-fucosidase and its subunit composition (one or two closely spaced immunoreactive protein bands of about 53+/-2 kDa) did not appear to change during transit through the epididymis. Isoelectric focusing of alpha-L-fucosidase indicated the presence of a major isoform (B) with a pI near 7 in sperm from testis, caput, corpus and the proximal half of the cauda. alpha-L-Fucosidase from sperm from the distal half of the cauda, which contained a significant enrichment of sperm and alpha-L-fucosidase activity, contained isoform B and an additional minor isoform (A) with a pI near 5.2. Isoform B and small amounts of isoform A were present in sperm from the vas deferens. The two fucosidase isoforms present in sperm from the distal cauda were separated by isoelectric focusing and comparatively characterized. They had similar pH-activity curves (with optima near pH 7) and comparable apparent KM values (0.4+/-0.04 mM) for 4-methylumbelliferyl alpha-l-fucopyranoside. Preincubation of the isoforms at different temperatures indicated that isoform A is considerably more thermostable than isoform B. Immunoprecipitation studies using polyclonal antibodies against human liver alpha-L-fucosidase indicated that approx. 90% of the enzymic activity for both isoforms was immunoprecipitable under conditions that immunoprecipitated essentially all the human liver enzyme. Neuraminidase treatment of sperm alpha-L-fucosidase from distal cauda (when compared with the appropriate heat-treated control) led to disappearance of isoform A and a concomitant increase in isoform B. The overall results suggest that isoform A is derived by sialylation of isoform B near the end of epididymal maturation.
1. Immunocytochemical and biochemical techniques have been used to localize and characterize a novel plasma membrane-associated, neutral-pH-optimum alpha-L-fucosidase from rat spermatozoa. Light and electron microscopy specifically localized the fucosidase on the plasma membrane of the convex region of the principal segment of testicular and cauda epididymal sperm heads. Immunoreactivity for alpha-L-fucosidase was also detected in the Golgi apparatus of spermatocytes and spermatids but no immunoreactivity was observed in the acrosome. 2. Fractionation of epididymal sperm homogenates indicated that over 90% of the alpha-L-fucosidase activity was associated with the 48,000 g pellet. This pellet-associated activity could be solubilized with 0.5 M NaCl but not with 0.5% Triton X-100, suggesting that fucosidase is peripherally associated with membranes. Sucrose-density-gradient centrifugation of sperm homogenates indicated that fucosidase was enriched in the plasma membrane-enriched fraction. Analysis of alpha-L-fucosidase on intact epididymal sperm indicated that the enzyme was active, displayed linear kinetics and had a pH-activity curve (with an optimum near 7) which was comparable to that of fucosidase from epididymal sperm extracts. These results further suggest that fucosidase is associated with plasma membranes, and that its active site is accessible to fucoconjugates. Evidence that most of the fucosidase is associated with the exterior of the plasma membrane came from studies in which intact sperm had fucosidase activity comparable to that of sperm sonicates, and from studies in which approx. 90% of the fucosidase activity on intact sperm could be released from the sperm by gentle shaking with 0.5 M NaCl. Isoelectric focusing indicated that the NaCl-solubilized epididymal sperm fucosidase appears to have one major and one minor isoform with pIs near 7.2 and 5.2, respectively. SDS/PAGE and Western blotting indicated that the NaCl-solubilized extract of epididymal sperm contains two protein bands of 54 and 50 kDa which were highly immunoreactive with the IgG fraction of anti-fucosidase antibodies. Although the function of the novel sperm fucosidase is not known, its specific localization to the plasma membrane of the region of the rat sperm head involved in sperm-egg binding and its high enzymic activity at neutral pH on intact sperm suggest that this enzyme may have a role in sperm-egg interactions.
Lysosomes are cell organelles containing hydrolytic enzymes and involved in intracellular digestion. Numerous environmental contaminants can interfere with lysosomes, and the purpose of the present work was to quantify changes induced by petroleum hydrocarbons on the structure of the lysosomal system of mussel digestive cells. Mussels, Mytilus galloprovincialis Lmk., were exposed for three months to the water accommodated fraction (WAF) of two crude oils (URAL and MAYA) and of a lubricant oil. Three different exposure doses (0.6, 6, and 40% WAF) were used for each type of hydrocarbon and mussels were sampled at different time intervals (days 21,49, and 91). A stereological study, using an automated image analysis system, was made on sections stained for demonstration of P-glucuronidase activity and four parameters were calculated: lysosomal volume density, surface density, surface to volume ratio, and numerical density. The results indicate that the effect of the exposure dose on lysosomal structure is variable and there is no linear relationship of lysosomal changes with dose. Regarding the effect of the exposure time, two different responses were evidenced: (a) a short-term response (at day 21) with a decrease in size and numbers of lysosomes and (b) a long-term response (at days 49 and 91) with an increase in lysosomal size and a decrease in their numbers. The short-term response may be due to a disintegration process of the digestive cells with subsequent loss of lysosomes and could represent an adaptative response to hydrocarbon exposure. At long exposure times, lysosomal changes, apparently caused by fusion processes giving rise to enlarged lysosomes, correspond to a "general stress response." o 7995
Lectins from peanuts (PNA) and soy beans (SBA) bind terminal residues of galactose (Gal) and N-acetyl-galactosamine (GalNAc) respectively. Galactose oxidase oxidizes the hydroxyl group at C-6 of terminal Gal and GalNAc blocking the binding of PNA and SBA. Binding of these lectins to sugar residues is also severely limited by the existence of terminal residues of sialic acid. In the present study, lectin cytochemistry in combination with enzymatic treatments and quantitative analysis has been applied at light and electron microscopical levels to develop a simple methodology allowing the in situ discrimination between penultimate and terminal Gal/GalNAc residues. The areas selected for the demonstration of the method included rat zona pellucida and acrosomes of rat spermatids, which contain abundant glycoproteins with terminal Gal/GalNAc residues. Zona pellucida was labelled by LFA, PNA and SBA. After galactose oxidase treatment, terminal Gal/GalNAc residues are oxidized, and reactivity to PNA/SBA is abolished. The sequential application of galactose oxidase, neuraminidase and PNA/SBA has the following effects: (i) oxidation of terminal Gal/GalNAc residues; (ii) elimination of terminal sialic acid residues rendering accessible to the lectins preterminal Gal/GalNAc residues; and (iii) binding of the lectins to the sugar residues. Acrosomes were reactive to PNA and SBA. No LFA reactivity was detected, thus indicating the absence of terminal sialic acid residues. Therefore, no labelling was observed after both galactose oxidase-PNA/SBA and galactose oxidase-neuraminidase-PNA/SBA sequences. In conclusion, the combined application of galactose oxidase, neuraminidase and PNA/SBA cytochemistry is a useful technique for the demonstration of penultimate carbohydrate residues with affinity for these lectins.
In the present study, the formation and development of the acrosome during spermiogenesis in four different rodent species (rat, mouse, hamster and guinea pig) was compared by means of cytochemical and blotting techniques using a lectin from soybean (SBA). This lectin recognizes specifically the acrosome of the four species at all steps of formation. At the ultrastructural level, SBA-binding pattern was similar in the acrosome of the rat, mouse and hamster. SBA preferentially labelled the electron-lucent area of the acrosome in early-spermatids (Golgi and cap phases) and the outer region of the acrosome in mature spermatids (acrosome and maturation phase). The lectin binding pattern was more complex in the guinea pig acrosome. Three different subdomains can be established in the early acrosome of the guinea pig. The lectin bound the three subdomains but mainly a thin fold which spreads over the nucleus during the cap phase. In the acrosome phase, SBA strongly reacted with the principal segment. In contrast, no reactivity was observed in most of this segment in maturation phase spermatids. In this phase, SBA bound preferentially a thin area covering the dorsal region of the apical segment. Lectin blots of detergent-extracted testes indicated that SBA only recognizes proteins of high molecular weight (> 100 kD) in the four species studied. The results obtained in the present study suggest that the development of acrosomal subdomains is very similar in the mouse, rat and hamster but shows a more complex pattern in the guinea pig.
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