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Query: UNIPROT:P56851 (
epididymal
)
11,273
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
epididymal
tubule is a dynamic structure, in which spermatozoa undergo distinct physiological and morphological changes. The epithelial cells lining the ductuli vary dramatically in their histochemical and cytological properties according to the region of the tubule in which they are located. Additionally, regional variation is observed regarding the biosynthetic, secretory, and absorptive properties of the epithelial cells. Using in situ histochemical analysis, we document here the region-specific expression of a variety of genes that are transcriptionally active in the adult rat epididymis. Radiolabeled antisense riboprobes were used to localize, within the efferent duct/caput epididymis, transcripts encoding protein B/C, protein D/E (acidic
epididymal
glycoprotein), sulphated glycoprotein 1, sulphated glycoprotein 2, cellular retinol-binding protein, and the neuroendocrine peptide precursor
proenkephalin
. Each species of mRNA exhibits a unique pattern of hybridization, revealing that gene transcription within the efferent duct/caput epididymis is also highly region specific. This observation may partially elucidate the molecular basis underlying the phenomenon of regional alterations in the composition of protein factors within the tubule lumen.
...
PMID:In situ histochemical analysis of region-specific gene expression in the adult rat epididymis. 178 83
Specialization among the principal epithelial cells of the
epididymal
tubule is documented following the analysis of transcriptional activity of four distinct species of mRNA. In situ histochemical analysis revealed a unique pattern of expression for each transcript. This observation supports the concept that region-specific patterns of transcriptional expression along the
epididymal
tubule serve as the major molecular basis underlying region-specific patterns of luminal proteins within the tubule. Additionally, multiple testicular factors appear to regulate expression of these mRNAs. The transcript encoding peptidyl-prolyl cis-trans isomerase is constitutively expressed. Those encoding the major secretory proteins, protein B/C and protein D/E, are directly regulated by testicular androgen. That encoding the opioid peptide precursor,
proenkephalin
, is regulated by a non-androgen testicular factor(s), specifically, spermatozoa or a spermatozoa-related factor. Thus, a complex array of nuclear events and signals received by the principal cells serve to determine the transcriptional status of genes expressed within this
epididymal
cell type.
...
PMID:Differential patterns of regulated gene expression in the adult rat epididymis. 178 82
The gene encoding the opioid peptide precursor preproenkephalin is expressed at high levels in the initial segment of the adult rat epididymis. Expression is localized to principal cells, the secretory epithelial cells lining the
epididymal
duct. During development,
epididymal
proenkephalin
mRNA levels show a pronounced increase at about 44 days of age, coincident with the initial entry of spermatozoa into the
epididymal
lumen. Hypophysectomy leads to a 60-fold decrease in
epididymal
proenkephalin
mRNA levels. Testosterone replacement can prevent this decline in a manner consistent with an effect upon spermatogenesis. Castration studies demonstrate that a gonadal factor other than testosterone directly regulates
epididymal
proenkephalin
expression, and the results of efferent duct ligation suggest that this factor must be supplied through an intact connection of the testis and epididymis. Proenkephalin mRNA levels in the epididymis correlate with the decline and reappearance of spermatozoa induced by the alkylating agent busulphan. Thus, the developmental profile of
proenkephalin
expression, coupled with the results of both surgical and pharmacological manipulations of the reproductive tract, indicate that spermatozoa, or a spermatozoa-associated factor, regulate
proenkephalin
gene expression in the epididymis.
...
PMID:A spermatozoa-associated factor regulates proenkephalin gene expression in the rat epididymis. 232 61
The mammalian epididymis is the site where spermatozoa are matured and then stored. Though many studies have described
epididymal
functions and their regulation, little is known about how aging affects this tissue. The Brown Norway rat, which does not show the many age-related pathologies common to other rat strains, was used as a model to study aging of the epididymis. The present study was designed to determine the effect of aging on the mRNA levels for selected markers of
epididymal
function. Brown Norway rats ranging in age from 6 to 30 months were examined at 6-month intervals; epididymides were sectioned into caput-corpus and cauda regions. Relative mRNA concentrations were assessed using Northern blot analysis and specific cDNAs for the rat 5 alpha-reductase isozymes, types 1 and 2;
proenkephalin
; the androgen receptor;
epididymal
proteins B/C and D/E; and sulfated glycoprotein-2 (SGP-2, clusterin). Northern blots were quantitated by densitometric scanning. In the caput-corpus epididymidis, 5 alpha-reductase type 1 and type 2 mRNA levels decreased significantly by 43% and 33%, respectively, between 6 and 12 months and by 64% and 40%, respectively, between 6 and 30 months. No significant change, however, was found in the expression of the 5 alpha-reductase mRNAs in the cauda epididymidis. Interestingly,
proenkephalin
mRNA was only detected in the caput-corpus epididymidis of 6-month-old rats. In marked contrast to the 5 alpha-reductase isozymes and
proenkephalin
, no significant age-related changes were observed in the mRNA levels for the androgen receptor, protein B/C, or protein D/E. No age-related changes in mRNA expression for SGP-2 occurred in the caput-corpus epididymidis. However, in the cauda epididymidis, SGP-2 mRNA levels rose by twofold between 6 and 18 months and then decreased sharply by 75% between 18 and 30 months. We conclude that as the epididymis ages, the expression of genes for certain specific markers of
epididymal
function is affected in a region-specific manner. Further, the decrease in the concentrations of the mRNAs for the 5 alpha-reductase isozymes and
proenkephalin
in the epididymis between 6 and 12 months is thus far the earliest marker for aging in the male reproductive tract of the Brown Norway rat.
...
PMID:Gene expression in the aging brown Norway rat epididymis. 755 40
Normal
epididymal
function is regulated by androgens and testicular factors. Our studies have been directed towards identifying testicular factors that regulate the function of the initial segment and the mechanisms by which this is achieved. The initial segment appears to be critical for normal sperm maturation in view of recent gene knock-out studies. Previous and ongoing studies from this and other laboratories have shown that the expression of several genes including
proenkephalin
, cystatin-related epididymal specific (CRES), 5 alpha-reductase and gamma-glutamyl transpeptidase (GGT) within the initial segment is highly dependent upon the presence of testicular factors. A lumicrine mechanism of regulation of these genes is proposed. The regulation of gamma-glutamyl transpeptidase (GGT) is described as a model enzyme for studying the role and identification of testicular factors. GGT appears to play an important role in the protection of spermatozoa from oxidative stress. Multiple GGT mRNAs (II-IV) are expressed within the epididymis, but GGT mRNA IV is the only form that is highly expressed in the initial segment, especially within zone 1A, and is regulated by testicular factors. Testicular factors control this transcript by regulating both its rate of transcription and its stability. Evidence is presented to suggest that basic fibroblast growth factor (bFGF) is a candidate testicular factor that regulates GGT activity in the epididymis. Basic FGF may regulate gene expression in the epididymis via the ras-raf-MAPK second messenger pathway and by members of the Ets transcription family.
...
PMID:Testicular regulation of epididymal gene expression. 1064 65
