D. R. P. Tulsiani scite author profile

Abstract. a-mannosidases I and II (Man I and 11) are resident enzymes of the Golgi complex involved in oligosaccharide processing during N-linked glycoprotein biosynthesis that are widely considered to be markers of the cis-and medial-Golgi compartments, respectively. We have investigated the distribution of these enzymes in several cell types by immunofluorescence and immunoelectron microscopy. Man 1I was most commonly found in medial-and/or trans-cisternae but showed cell type-dependent variations in intra-Golgi distribution. It was variously localized to either medial (NRK and CHO ceils), both medial and trans (pancreatic acinar cells, enterocytes), or trans-(goblet ceils) cisternae, or distributed across the entire Golgi stack (hepatocytes and some enterocytes). The distribution of Man I largely coincided with that of Man II in that it was detected primarily in medialand trans-cisternae. It also showed cell type dependent variations in its intra-Golgi distribution. Man I and Man II were also detected within secretory granules and at the cell surface of some cell types (enterocytes, pancreatic acinar cells, goblet cells). In the case of Man II, cell surface staining was shown not to be due to antibody cross-reactivity with oligosaccharide epitopes. These results indicate that the distribution of Man I and Man II within the Golgi stack of a given cell type overlaps considerably, and their distribution from one cell type to another is more variable and less compartmentalized than previously assumed.

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Mammalian Sperm Acrosome: Formation, Contents, and Function

Abou-Haïla

Tulsiani

2000

Archives of Biochemistry and Biophysics

219

173

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Mammalian Fertilization: A Carbohydrate-Mediated Event1

Tulsiani¹,

Yoshida-Komiya²,

Araki³

1997

184

161

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The Biological and Functional Significance of the Sperm Acrosome and Acrosomal Enzymes in Mammalian Fertilization

Tulsiani

Abou-Haïla

Loeser

et al. 1998

Experimental Cell Research

150

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Inhibition of the Mouse Sperm Surface α-D-Mannosidase Inhibits Sperm-Egg Binding in Vitro1

1991

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In previous reports from this laboratory, we identified the presence of a novel alpha-D-mannosidase on the surface of rat, mouse, hamster, and human spermatozoa [J Cell Biol 1989; 109:1257-1267 and Biol Reprod 1990; 42:843-858]. Since it has been suggested that mannosyl residues on the egg zona pellucida may be important for sperm-egg binding, studies were undertaken to examine the potential role of the sperm alpha-D-mannosidase during fertilization. Incubation of mouse spermatozoa in the presence of increasing concentrations of the inhibitory sugars, alpha-methyl mannoside, alpha-methyl glucoside, D-mannose, or D-mannitol, resulted in a dose-dependent decrease in the number of spermatozoa bound per egg without a deleterious effect on sperm motility or on the sperm acrosome, and a dose-dependent inhibition of the sperm mannosidase activity. Galactose, however had no effect on sperm-egg binding or on sperm mannosidase activity. Two nucleotide sugars (UDP-GlcNAc and UDP-gal) were also tested and shown to reduce sperm-egg binding but with only a minimal effect on sperm mannosidase activity. In additional studies, spermatozoa incubated in the presence of a mannose-containing oligosaccharide exhibited a dramatic reduction in sperm-egg binding that correlated with a similar inhibition of sperm mannosidase activity. The oligosaccharide substrate did not affect sperm motility or the sperm acrosome. These studies suggest that the sperm alpha-D-mannosidase may play an important role during fertilization.

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D. R. P. Tulsiani

Cell type-dependent variations in the subcellular distribution of alpha-mannosidase I and II

Mammalian Sperm Acrosome: Formation, Contents, and Function

Mammalian Fertilization: A Carbohydrate-Mediated Event1

The Biological and Functional Significance of the Sperm Acrosome and Acrosomal Enzymes in Mammalian Fertilization

Inhibition of the Mouse Sperm Surface α-D-Mannosidase Inhibits Sperm-Egg Binding in Vitro1

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