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Target Concepts:
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Query: UNIPROT:P56851 (
epididymal
)
11,273
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The luminal environment along the
epididymal
duct is important for spermatozoal maturation. This environment is unique and created by the blood-
epididymal
barrier, which is formed by tight and adhering junctions. For the human epididymis, little information exists on the proteins that comprise these junctions. Our objectives were to assess the gene expression profiles in the different segments of the human epididymis and to identify the proteins that make up the blood-
epididymal
barrier. Using microarrays, we identified 2980 genes that were differentially expressed by at least 2-fold between the various segments. Of the many genes involved in diverse functions, were those that encoded adhesion proteins (cadherins and catenins) and tight junctional proteins (claudins [CLDN] and others). PCR analyses confirmed the microarray data. Immunolocalization of CLDNs 1, 3, 4, 8, and 10 revealed that the localization of CLDNs differed along the epididymis. In all three segments, CLDNs 1, 3, and 4 were localized to tight junctions, along the lateral margins of adjacent principal cells, and at the interface between basal and principal cells.
CLDN8
was localized to tight junctions in all three segments, in addition to being localized in the caput along the lateral margins of principal cells, and in the corpus, at the interface between principal and basal cells. CLDN10, tight junction protein 1, and occludin were localized exclusively to tight junctions in all three
epididymal
segments. These data indicate that the epididymis displays a complex pattern of gene expression, which includes genes that are implicated in the formation of the blood-
epididymal
barrier, which suggests complex regulation of this barrier.
...
PMID:Gene expression profiling and its relevance to the blood-epididymal barrier in the human epididymis. 1728 94
Claudins are integral membrane proteins at tight junctions (TJs) and form TJ strands. In the present study, we found that claudin-7 was localized along the entire lateral membranes of
epididymal
epithelium, including the apical junctional region throughout the epididymis, but
claudin-8
was restricted to the apical junctional region. This finding raises the possibility that aberrant TJ strands may be formed on lateral membranes. Thus, we focused on examining whether TJ strands exist on lateral membranes of
epididymal
epithelium. Freeze-fracture electron microscopy showed that aberrant TJ strands were observed in only a few principal cells in all segments of the epididymis except for the initial segment, indicating that the occurrence of aberrant strands is very rare. Aberrant TJ strands were smooth and not subdivided into individual particles in the protoplasmic face, and complementary grooves in the extracellular face were almost free of particles. Aberrant TJ strands in the distal caput and corpus epididymis were accompanied by many vesicle-like structures but those in the proximal caput and cauda epididymis were not. These results suggest that most of claudin-7 in lateral membranes may exist in a nonpolymerized form and may play some different roles other than the formation of TJ strands, for example, in the formation of a pool of claudin proteins or in the reinforcement of cell adhesion.
...
PMID:Claudin-7 expressed on lateral membrane of rat epididymal epithelium does not form aberrant tight junction strands. 1785 15
The epididymis is responsible for posttesticular sperm maturation. Sperm maturation is dependent on the luminal microenvironments along the epididymis. Though the role of the epididymis is well established, the molecular and cellular mechanisms responsible for sperm maturation remain to be elucidated, particularly in the human, as limited biological tools exist. We have established the first stable epithelial cell lines transformed with SV40 large T antigen (LTAg) from two regions of the human adult epididymis. The cell lines are composed of homogenous populations of diploid principal cells that possess ultrastructural characteristics similar to those of human principal cells in vivo. These cells express transcripts for adherens (cadherins CDH1 and CDH2) and tight (claudins CLDN1, CLDN2, CLDN3, CLDN4, CLDN7, and
CLDN8
) junctions as well as desmosomes (desmoplakin, DSP). Transepithelial resistance (TER) measurements in fertile human caput
epididymal
cell line 1 (FHCE1) as well as the immunolocalization of tight junctional protein 1 (TJP1), occludin, and CLDN1 indicate that these cells form functional tight junctions. Furthermore, knockdown of CLDN1, CLDN3, CLDN4, or CLDN7 using specific siRNAs resulted in significant decreases in TER, suggesting that these CLDNs are essential for the barrier function of the blood-epididymis barrier. Disruption of CLDN1, CLDN3, CLDN4, and CLDN7 could, therefore, lead to
epididymal
dysfunction, resulting in male infertility.
...
PMID:Assessing the role of claudins in maintaining the integrity of epididymal tight junctions using novel human epididymal cell lines. 2016 36
Post-testicular sperm maturation requires a specific luminal environment in the epididymis that is created, in part, by the blood-epididymis barrier. There is limited information on gene expression in the epididymis of infertile obstructive azoospermia (OA) patients due to the difficulty in obtaining tissues. The objectives of this study were to determine if
epididymal
tight junction proteins are altered in OA and to develop cell lines that could serve to elucidate alterations in the epididymis of infertile men. Epididymal claudin (CLDN) 1, CLDN4, and CLDN10 mRNA levels were altered in OA downstream from the obstruction site. Epithelial cell lines derived from the caput epididymidis of one OA patient were developed (infertile human caput
epididymal
cell line [IHCE]). IHCEs were composed of homogenous populations of diploid cells that ultrastructurally resembled in vivo principal cells. The cells expressed cytokeratin, SPAG11B, CLDN2, CLDN3, desmoplakin, and vimentin. However, the cells did not express several other
epididymal
markers (CRISP1, SPINLW1, NPC2, CD52, or DCXR) or junctional proteins (CDH1, CDH2, CLDN1, CLDN4, CLDN7, or
CLDN8
). Further studies using IHCE1 and transepithelial resistance indicated that the cells were unable to form tight junctions. Microarray analyses comparing gene expression in IHCE1 and a recently developed fertile human caput
epididymal
cell line revealed differential expression of genes encoding junctional proteins, cell junction regulators, and
epididymal
proteins. Together, these data indicate that
epididymal
cellular junctions appear to be altered in OA.
...
PMID:Alterations in the human blood-epididymis barrier in obstructive azoospermia and the development of novel epididymal cell lines from infertile men. 2050 68
