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Query: UNIPROT:P56851 (
epididymal
)
11,273
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nevertheless, a nonviable sperm population is present in the cauda epididymidis of many species. Degenerating spermatozoa release enzymes that could have detrimental effects on the viability of neighboring cells, and they are source of autoantigens that induce an autoimmune response if they escape the blood-epididymis barrier. Does the epididymis have specialized protective mechanism(s) to segregate the viable sperm population from defective spermatozoa? Previously, we identified a fibrinogen-like protein-2 (fgl2) that specifically binds to and polymerizes into a cocoon-like complex coating defective spermatozoa and sperm fragments. The objective of the present study is to identify the subunit composition of the fgl2-containing oligomers both in the soluble and cocoon-like complex. Our proteomic studies indicate that the 260/280kDa oligomers (termed eFGL) contain two distinct disulfide-linked subunits; 64kDa fgl2 and 33kDa fgl1. Utilizing a PCR-based cloning strategy, the 33kDa polypeptide has been identified as fibrinogen-like protein-1 (fgl1). Immunocytochemical studies revealed that fgl1 selectively binds to defective spermatozoa in the cauda epididymidis. Northern blot analysis and in situ hybridization demonstrated the high expression of fgl1 in the principal cells of the proximal cauda epididymidis. Co-immunoprecipitation analyses of cauda
epididymal
fluid, using anti-fgl2, demonstrate that both fgl1 and fgl2 are present in the soluble eFGL. Our study is the first to show an association of fgl1 and fgl2 both in the soluble and in the sperm-associated eFGL. We conclude that our results provide new insights into the mechanisms by which the potentially unique
epididymal protein
functions in the recognition and elimination of defective spermatozoa.
...
PMID:Two fibrinogen-like proteins, FGL1 and FGL2 are disulfide-linked subunits of oligomers that specifically bind nonviable spermatozoa. 2773 89
A recent study has demonstrated that porcine spermatozoa recognize with high affinity carbohydrate structures containing Lewis X motifs. Sperm adhesion to Lewis X is proposed to mediate sperm binding to the oviduct epithelium to form a reservoir. The objective of this study was to identify Lewis X-binding proteins from porcine spermatozoa as candidate receptors for oviduct glycans. To identify low-abundance proteins typically masked by proteins originating from seminal fluid, Lewis X candidate receptors were enriched from cauda
epididymal
boar spermatozoa. Plasma membrane preparations from cauda
epididymal
spermatozoa were subjected to RP-HPLC and glycan blotting assays to isolate and detect proteins that bind Lewis X. Following bottom-up LC-MS/MS analysis, among the two bands that bound sulfated Lewis X, ADAM5, which spermatozoa, was confidently identified. ADAM family members have been established as contributors to sperm entry into the oviduct. A second sulfated Lewis X-binding protein identified was the peripheral membrane protein
lactadherin
(also known as P47,
SED1
and MFG-E8 in different species). The interaction between Lewis X and
lactadherin
was functionally important because competitive inhibition by soluble recombinant
lactadherin
reduced sperm binding to the oviduct epithelium. Furthermore, far-western blotting demonstrated that purified
lactadherin
could bind oviduct cells. In summary, these findings reveal that, in addition to the previously reported glycan affinity of accessory gland proteins that adhere to spermatozoa, multiple proteins intrinsic to spermatozoa have affinity for a specific oviduct glycan. Further, in addition to binding to the zona pellucida,
lactadherin
is now implicated in binding to oviduct glycans to promote formation of the sperm reservoir.
...
PMID:Lactadherin is a candidate oviduct Lewis X trisaccharide receptor on porcine spermatozoa. 2829 40
Clusterin (CLU) is known as an extracellular chaperone for proteins under stress, thus preventing them from aggregation and precipitation. We showed herein that CLU, expressed by principal cells of the mouse caput epididymis, was present in high amounts in the lumen. In the cauda epididymis, CLU bound tightly to the sperm head surface and its amount on total sperm was similar to that in the bathing luminal fluid. In both immotile and motile caudal
epididymal
sperm, CLU was localized over the entire sperm head except at the convex ridge, although in the motile sperm population, the CLU immunofluorescence pattern was distinctively mottled with a lower intensity. However, when motile sperm became capacitated, CLU was relocalized to the head hook region, with immunofluorescence intensity being higher than that on the non-capacitated counterparts. Under a slightly acidic pH of the
epididymal
lumen, CLU may chaperone some luminal proteins and deliver them onto the sperm surface. Immunoprecipitation of
epididymal
fluid proteins indicated that CLU interacted with
SED1
, an important egg-binding protein present in a high amount in the
epididymal
lumen. In a number of non-capacitated sperm, fractions of
SED1
and CLU co-localized, but after capacitation,
SED1
and CLU dissociated from one another. While CLU moved to the sperm head hook,
SED1
translocated to the head convex ridge, the egg-binding site. Overall, CLU localization patterns can serve as biomarkers of immotile sperm, and non-capacitated and capacitated sperm in mice. The chaperone role of CLU may also be important for sperm maturation and capacitation.
...
PMID:Clusterin in the mouse epididymis: possible roles in sperm maturation and capacitation. 2897 94
The mammalian epididymis generates one of the most complex intraluminal fluids of any endocrine gland in order to support the post-testicular maturation and storage of spermatozoa. Such complexity arises due to the combined secretory and absorptive activity of the lining epithelial cells. Here, we describe the techniques for the analysis of
epididymal protein
synthesis and secretion by focusing on the model protein family of dynamin (DNM) mechanoenzymes; large GTPases that have the potential to regulate bi-directional membrane trafficking events. For the study of protein expression in
epididymal
tissue, we describe robust methodology for immunofluorescence labeling of target proteins in paraffin-embedded sections and the subsequent detection of the spatial distribution of these proteins via immunofluorescence microscopy. We also describe optimized methodology for the isolation and characterization of exosome like vesicles, known as epididymosomes, which are secreted into the
epididymal
lumen to participate in intercellular communication with maturing sperm cells. As a complementary approach, we also describe the immunofluorescence detection of target proteins in an SV40-immortalized mouse caput
epididymal
epithelial (mECap18) cell line. Moreover, we discuss the utility of the mECap18 cell line as a suitable in vitro model with which to explore the regulation of
epididymal
secretory activity. For this purpose, we describe the culturing requirements for the maintenance of the mECap18 cell line and the use of selective pharmacological inhibition regimens that are capable of influencing their secretory protein profile. The latter are readily assessed via harvesting of conditioned culture medium, concentration of secreted proteins via trichloroacetic acid/acetone precipitation and their subsequent analysis via SDS-PAGE and immunoblotting. We contend that these combined methods are suitable for the analysis of alternative
epididymal protein
targets as a prelude to determining their functional role in sperm maturation and/or storage.
...
PMID:Analysis of Epididymal Protein Synthesis and Secretion. 3019 11
The effect of testosterone on regulation of
epididymal protein
synthesis has been investigated in castrated rhesus monkeys (Macaca mulatta). The proteins in the treated monkeys were characterized using polyacrylamide gel electrophoresis (under nondenaturing and denaturing conditions) and electrofocusing. At least four distinct proteins have been shown to be synthesized by the monkey epididymis under testosterone influence. Two of these proteins were detected following two days of testosterone treatment while the other two proteins were detected after a six-day treatment period. None of these proteins was detectable in monkeys treated with estradiol for six days. Electrofocusing of
epididymal
cytosol proteins from untreated and testosterone-treated and castrated monkeys also confirmed the presence of four androgen-dependent proteins in this species. The isoelectric points of these proteins were shown to range between 5.8 and 6.4. The molecular weights of these proteins were found to vary between 47,500 and 66,000. The in vitro incorporation of
3
H-labeled amino acids was markedly greater in the androgen-primed epididymis as compared with the control tissue.
...
PMID:Effect of testosterone on epididymal proteins in castrated rhesus monkeys. 3199 71
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