Gene/Protein
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Enzyme
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Query: EC:2.4.99.7 (
sialyltransferase
)
1,534
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The zona pellucida receptor for
spermatozoa
has not been identified and the mechanism by which
spermatozoa
traverse the zona pellucida has not been elucidated. It is proposed that the zona pellucida receptor is a glycoprotein and the receptor per se is galactosamine or N-acetyl galactosamine. The mechanism by which
spermatozoa
transverse the zona pellucida may be by its structural modification, by the transfer of spermatozoal sialic acid. In addition, male infertility resulting from oligozoospermia or polyzoospermia, may be due to lack of spermatozoal bound
sialyltransferase
. A total of 43 semen samples were examined for cytidine monophosphate-sialic acid synthetase and
sialyltransferase
activities. It was found that both these enzymes are present in seminal plasma and bound to the
spermatozoa
. The spermatozoal bound enzymes may be derived from the seminal plasma which may be a limiting factor in terms of infertility.
...
PMID:Seminal plasma biochemistry II: seminal plasma and spermatozoal cytidine monophosphate-sialic acid synthetase and sialyltransferase activities. 626 56
It has been known that cervical mucus can enhance or impede the passage of
spermatozoa
through the cervical canal. Cervical mucus consists of 2 major fractions, an insoluble gel or mucin, and an aqueous phase containing the soluble components (lipids; fatty acids; prostaglandins; trace metals; proteins; enzyme inhibitors, and immunoglobulins). Mucins are glycoproteins which are characterized by a proportion of more than 40% carbohydrates distributed along the peptide core. Ultrastructure studies of cervical mucin using transmission electron microscopy suggest either a filamentous or honeycomb-like structure. It has also been suggested that the structural integrity of cervical mucin is partly dependent on its sialic acid content, which is increased in midcycle mucin. This raises the issue concerning the type of mucus secreted by the cervical mucosa and whether the structural change of the mucin observed at midcycle is due to the transfer of sialic acid by
sialyltransferase
to the glycoprotein molecules by the mucin in the cervical canal. If the role of the cervical mucus in the capacitation of the
spermatozoa
and the mechanism of fertilization is established, it might explain some cases of infertility and cervical cancer, and may be useful in the development of alternative forms of contraception.
...
PMID:Cervical mucus: its structure and possible biological functions. 718 80
The cytoplasmic droplet of epididymal
spermatozoa
is a small localized outpouching of cytoplasm of the tail of unknown significance. EM revealed flattened saccular elements as the near exclusive membranous component of the droplet. Light and electron microscopic immunolabeling for Golgi/TGN markers showed these saccules to be reactive for antibodies to TGN38, protein affinity-purified alpha 2,6
sialyltransferase
, and anti-human beta 1,4 galactosyltransferase. The saccules were isolated by subcellular fractionation and antibodies raised against this fraction immunolabeled the saccules of the droplet in situ as well as the Golgi region of somatic epithelial cells lining the epididymis. The isolated droplet fraction was enriched in galactosyltransferase and
sialyltransferase
activities, and endogenous glycosylation assays identified the modification of several endogenous glycopeptides. EM lectin staining in situ demonstrated galactose and N-acetyl galactosamine constituents in the saccules. Endocytic studies with cationic and anionic ferritin as well as HRP failed to identify the saccules as components of the endocytic apparatus. Epididymal
spermatozoa
were devoid of markers for the ER as well as the Golgi-associated coatamer protein beta-COP. It is therefore unlikely that the saccular elements of the droplet participate in vesicular protein transport. However, the identification of Golgi/TGN glycosylating activities in the saccules may be related to plasma membrane modifications which occur during epididymal sperm maturation.
...
PMID:The cytoplasmic droplet of rat epididymal spermatozoa contains saccular elements with Golgi characteristics. 822 42
Spermatozoa acquire fertilizing ability during passage through the epididymis. Modification of oligosaccharide moieties on sperm surface glycoproteins are some of the biochemical changes believed to be important in the production of functionally mature
spermatozoa
during passage through the epididymis. In an attempt to understand the mechanism underlying these modifications, we quantified four glycosyltransferase activities (the enzymes that catalyze the transfer of sugar residues from nucleotide sugar donor to the sugar chains on glycoproteins and glycolipids) of
spermatozoa
and fluid from various regions of the epididymis. Our results are as follows. (1) Only 10-20% of the total glycosyltransferase activities (
sialyltransferase
, fucosyltransferase, galactosyltransferase, and N-acetyl glucosaminyltransferase) sedimented with the
spermatozoa
; the remaining 80-90% of the four enzymes were present in soluble form in the epididymal fluid. (2) When the four transferase activities were expressed per 10(6)
spermatozoa
, only
sialyltransferase
and fucosyltransferase activities showed maturation-dependent changes. The former enzyme was significantly higher on the proximal caput
spermatozoa
and the latter on the distal caput
spermatozoa
. The higher levels of the two enzymes on caput
spermatozoa
could be due to their binding to the endogenous sugar acceptor molecules on the sperm surface, and subsequent release following sequential sialylation and fucosylation of the molecules in the proximal and distal caput
spermatozoa
, respectively. (3) When
spermatozoa
from the proximal and distal caput, corpus, and proximal and distal cauda were incubated with fucose-labeled nucleotide sugar (GDP[14C]fucose), higher levels of radioactivity were routinely incorporated into the
spermatozoa
from the distal caput. (4) The [14C]fucose-labeled
spermatozoa
or sperm plasma membranes, when solubilized, resolved on SDS-PAGE, and visualized by autoradiography, showed that the radioactivity had been incorporated into an endogenous acceptor of 86 kDa (major component) and several minor components. Treatment of the solubilized
spermatozoa
with N-glycanase suggested that the [14C]fucose is mainly present on N-linked oligosaccharide units. These studies demonstrate that some of the sperm surface components are fucosylated during sperm maturation. The potential significance of the in vitro fucosylation of sperm surface components in the production of functionally mature
spermatozoa
is discussed.
...
PMID:Glycosylation of rat sperm plasma membrane during epididymal maturation. 843 31
Sperm surface glycoproteins are modified during passage through the epididymis, a process believed to be important in the production of functionally mature
spermatozoa
. The effect of various cytokines on reproductive events has recently been investigated, with conflicting results. In the present investigation, the effect of interferon-alpha-2b (IFN alpha 2b) on
sialyltransferase
(ST) activity and beta-galactoside alpha-2,6-sialyltransferase (Gal 2,6-ST) mRNA expression was studied in rat testicular tissue. The results revealed the presence of Gal 2,6-ST mRNA in rat testicular tissue, similar in molecular size to that found previously in rat spleen, lung, ovary, kidney, heart, and brain. In addition, we observed that IFN alpha 2b reduced Gal 2,6-ST mRNA and ST activity in rat testes by a comparable magnitude. These findings provide insight into an additional mechanism by which cytokines may affect the reproductive system.
...
PMID:Interferon alpha-2b modulates beta-galactoside alpha-2,6-sialyltransferase gene expression in rat testes. 856 5
Mammalian
spermatozoa
must undergo maturational changes between the events of mating and fertilization. These biochemical and functional alterations, collectively termed capacitation, take place as
spermatozoa
traverse the female reproductive tract. The preparatory biochemical changes include removal, modification, and reorganization of sperm surface molecules. Although details of all the changes are not known, lectin binding studies have provided evidence suggesting that carbohydrate moieties of sperm surface glycoproteins are modified during capacitation. In an attempt to gain insight into the potential modifications of sperm plasma membrane glycoproteins, we quantified glycoprotein-modifying enzyme activities in the uterine and oviductal fluid of the hamster during the 4 days of the estrous cycle. These enzymes are known to modify existing glycoproteins, either by adding sugar residues (glycosyltransferases) or by removing terminal sugar residues (glycosidases). Data from these studies showed that 1) levels of all glycosyltransferase activities assayed (
sialyltransferase
, fucosyltransferase, galactosyltransferase, and N-acetylglucosaminyltransferase) were negligible in the uterine fluid at the onset of ovulation (Day 1) but sharply increased preceding ovulation (Day 4); 2) levels of the four glycosyltransferase activities assayed were higher in the oviductal fluid at the onset of ovulation (Day 1) and then gradually decreased through the remainder of the estrous cycle (Day 2 to Day 4); 3) levels of all glycohydrolase activities (acidic alpha-D-mannosidase, beta-D-galactosidase, beta-D-glucuronidase, beta-D-glucosaminidase, and alpha-L-fucosidase) and protein in the uterine and oviductal fluids did not vary widely during the 4 days of the cycle. These results demonstrate a temporal surge of glycosyltransferase activities in the genital tract fluids of the hamster. The temporal changes in the glycoprotein-modifying enzymes may have an effect on the glycosylation of sperm plasma membrane and zona pellucida glycoproteins at the site of fertilization or may alter the surface glycoproteins of the fertilized egg in the uterus prior to implantation.
...
PMID:Temporal surge of glycosyltransferase activities in the genital tract of the hamster during the estrous cycle. 872 23
