Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P56851 (
epididymal
)
11,273
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A number of cDNA clones encoding a small (0.5-0.6 kb) transcript have been isolated from a monkey (Macaca fascicularis)
epididymal
cDNA library. DNA sequence analysis indicates that this abundant
epididymal
transcript is homologous to the human CAMPATH-1 (CDw52) antigen precursor, a
GPI
-anchored membrane glycoprotein previously described on lymphocytes and monocytes.
...
PMID:Identification of an abundant monkey epididymal transcript encoding a homologue of human CAMPATH-1 antigen precursor. 138 18
The membrane of testicular spermatozoa undergoes extensive changes in the epididymis, including rearrangement, modification and loss of pre-existing components, addition of new glycoproteins from
epididymal
secretions, and exchange of lipid constituents. As a result, the membrane of cauda epididymidal spermatozoa has a different composition and different properties, which collectively contribute to male fertility. Special significance has been attributed to sperm surface structures that only appear post-testicularly in the epididymis, the so-called "maturation antigens". Therefore, human post-testicular proteins have been cloned by substractive screening of
epididymal
cDNA libraries, employing testis as the primary negative control. To date, there is scanty information on their function and mechanism of deposition on the sperm surface. However, the major maturation antigen CD52 seems to bind firmly to the sperm membrane via its
GPI
anchor. Its synthesis is carefully regulated by the cells of the
epididymal
epithelium, with temperature and androgens acting synergistically on CD52 mRNA levels.
...
PMID:The molecular biology of the sperm surface. Post-testicular membrane remodelling. 936 96
Human post-testicular proteins were cloned by subtractive screening of
epididymal
cDNA libraries, employing testis as the primary negative control. This method identified six human
epididymal
cDNAs, named HE1-HE6, which are derived from abundant
epididymal
mRNAs. With the exception of HE5, which turned out to be identical to the lymphocyte surface antigen CD52, they represented completely novel human gene products. To date, there is little information on their function and the mechanism of their deposition on the sperm surface. Unlike the sperm coating antigens, CD52 binds firmly to the sperm membrane via its
GPI
anchor during
epididymal
passage. Its synthesis is carefully regulated by the
epididymal
epithelium. From the results of both in vivo and in vitro studies it was concluded that androgen and temperature are principal factors synergistically modulating
epididymal
CD52 expression. The human counterparts of two well-known major rodent
epididymal
proteins, secretory
epididymal
glutathione peroxidase (sGPX) and acidic
epididymal
glycoprotein (AEG = Protein DE), were not cloned by the subtractive screening approach, but by RT-PCR amplification.
...
PMID:Function of human epididymal proteins in sperm maturation. 973 19
The identification of unique sperm surface epitopes that are not expressed or exposed in the female reproductive tract is a key element in the development of antibody-based contraceptives. Western blotting and immunohistochemistry were performed to define the tissue distribution of the S19 epitope, which has been proposed as a target for immunocontraception. S19 is an IgG1 murine monoclonal antibody (mAb) directed to an N-linked carbohydrate epitope on a 15-25 kDa glycoprotein, sperm agglutination antigen-1 (SAGA-1), containing a peptide core identical to that of the lymphocytic surface protein CD52. In this study, the S19 epitope was shown to be absent from human lymphocytes, demonstrating a distinction between this epitope and the CAMPATH epitope that is recognized by an antibody against the terminal tripeptide and
GPI
-anchor of CD52. Further tissue specificity analysis identified the S19 epitope in the epithelium of the human epididymis and vas deferens, as well as on both
epididymal
and ejaculated spermatozoa. In contrast, the S19 epitope was absent in the five human female reproductive tract and 18 other somatic tissues tested. These results support the use of the S19 epitope as a contraceptive immunogen and the suitability of the S19 mAb as an intravaginal contraceptive. To test the agglutinating activity of the S19 mAb in a formulation designed for vaginal use, S19 mAb were bound to the surface of Novasomes, a multilamellar liposome delivery vehicle. S19-Novasome formulations agglutinated human spermatozoa and were as effective as unbound S19 mAb, demonstrating the feasibility of spermistatic contraceptives targeted to the male reproductive tract specific carbohydrate epitope.
...
PMID:A male genital tract-specific carbohydrate epitope on human CD52: implications for immunocontraception. 1249 11
CD52 is a human
GPI
-anchored antigen, expressed exclusively in the immune system and part of the reproductive system (
epididymal
cells). Sperm cells acquire the antigen from the
epididymal
secretions when transiting in the
epididymal
corpus and cauda. The peptide backbone of CD52, consisting of only 12 aminoacids, is generally considered no more than a scaffold for post-translational modifications, such as
GPI
-anchor and especially N-glycosylation which occur at the third asparagine. The latter modification is highly heterogeneous, especially in the reproductive system, giving rise to many different glycoforms, some of which are tissue specific. A peculiar O-glycan-containing glycoform is also found in reproductive and immune systems. We determined to locate CD52 in microdomains of leukocytes and sperm membranes using two antibodies: (1) CAMPATH-1G, the epitope of which includes the last three aminoacids and part of the
GPI
-anchor of glycoforms present in leukocytes and sperm cells; (2) anti-gp20, the epitope of which belongs to the unique O-glycan-bearing glycoform also present in both cell types. Using a Brij 98 solubilization protocol and sucrose gradient partition we demonstrated that the CD52 glycoforms recognized by both antibodies are markers of typical raft microdomains in leukocytes, whereas in capacitated sperm the O-glycoform is included in GM3-rich microdomains different from the cholesterol and GM1-rich lipid rafts with which CAMPATH antigen is stably associated. The importance of the association between GM3 and O-glycans for formation of specialized microdomains was confirmed by heterologous CD52 insertion experiments. When prostasomes from human seminal fluid were incubated with rat sperm from different
epididymal
regions, the CD52 glycoform recognized by anti-gp20 decorated rat
epididymal
corpus and cauda sperm, associated with the same low-cholesterol GM3-rich sperm membrane fractions as in human sperm. The glycoforms recognized by CAMPATH-1G were not found in rat sperm. The relationship between this differential insertion and differences in glycosylation of rat and human CD52 is discussed.
...
PMID:Different glycoforms of the human GPI-anchored antigen CD52 associate differently with lipid microdomains in leukocytes and sperm membranes. 1626 89
