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Query: UNIPROT:P56851 (
epididymal
)
11,273
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We used riboprobes and monoclonal antibodies to characterize tissue distribution of the human 550-kD homologue to
gp330
/
megalin
, primarily identified in the rat kidney. Human
gp330
/
megalin
mRNA and protein are readily identified in human parathyroid cells, placental cytotrophoblasts, kidney proximal tubule cells, and
epididymal
epithelial cells. The immunoreactivity is found on the surface of the cells and is heterogeneously downregulated in parathyroid hyperplasia and adenomas. Cells of the proximal kidney tubule and epididymis express the protein on their luminal aspect. Moreover, the protein is expressed in Type II pneumocytes, mammary epithelial and thyroid follicular cells, and the ciliary body of the eye. Sequence analysis of cDNA fragments, obtained by RT-PCR, revealed identical nucleotide sequences in parathyroid, kidney, placenta, epididymis, and lung. Immunohistochemistry for parathyroid hormone-related protein (PTHrP) revealed partial co-expression with human
gp330
/
megalin
in parathyroid, placenta, and mammary gland. The findings substantiate human
gp330
/
megalin
expression in a variety of human tissues expected to possess calcium-sensing functions. It may constitute a protein of utmost importance to adult and fetal calcium homeostasis, although other important functions may also be coupled to this exceptionally large protein with highly restricted tissue distribution.
...
PMID:Tissue distribution of human gp330/megalin, a putative Ca(2+)-sensing protein. 907 20
Megalin (
gp330
) is a large glycoprotein receptor found mainly on a group of absorptive epithelial cells, including renal proximal tubule,
epididymal
and thyroid cells. Megalin has been shown to bind multiple, unrelated ligands, mainly in vitro, and to mediate endocytosis of ligandsin cultured cells. However, physiologic ligands of
megalin
are largely unknown. In the present study we have demonstrated that purified rat
megalin
binds rat thyroglobulin (Tg) in solid phase assays, with anestimated Kd of 9.2+/-0.6 nM. Binding was calcium dependent and was almost completely inhibited by excess Tg, by three
megalin
ligands - lactoferrin, lipoprotein lipase and apolipoprotein J- and by the receptor associated protein (RAP), which inhibits binding of all
megalin
ligands. Three anti-
megalin
antibodies partially inhibited Tg binding to
megalin
. 125I labeled Tg bound to
megalin
was released by EDTA and heparin; the released product was shown by SDS-PAGE and autoradiography to be 660 kD (dimeric) Tg. However, an immunoblotting experiment showed binding of
megalin
both to monomeric (330 kD) and dimeric Tg. We propose that
megalin
, which is known to mediate ligand endocytosis and is found on the apical surface of thyrocytes, may participate in the endocytosis of Tg from the colloid, a process that is required for hormone release from Tg.
...
PMID:Megalin (gp330): a putative endocytic receptor for thyroglobulin (Tg). 949 85
Apolipoprotein J (clusterin or sulfated glycoprotein-2) has been shown to be secreted by the
epididymal
principal cells, whereupon it binds to sperm in the lumen. Apolipoprotein J also is endocytosed by principal cells along the epididymis. Recently, it has been demonstrated that low-density lipoprotein receptor-related protein-2 (LRP-2) mediates the endocytosis of Apo J and is present in the epididymis. The purpose of the present study was to determine the factors regulating the synthesis of these 2 proteins in various experimentally treated animals. The epididymides of adult rats were fixed with Bouin's fluid and examined with anti-Apo J and anti-LRP-2 antibodies by a light microscope immunocytochemical method. In normal adult animals, expression of Apo J was evident in principal cells of all
epididymal
regions except the proximal initial segment. Diffuse cytoplasmic staining indicated Apo J secretion. Reactive apical vesicles, presumably endosomal in nature, suggested endocytosis of Apo J. Lipoprotein receptor-related protein-2 expression was solely apical in nature and was seen as an intense apical band in principal cells of all regions except the proximal and distal initial segment and distal caput regions of the epididymis. Hypophysectomy, up to 28 days after the procedure, did not affect expression of Apo J or LRP-2 in principal cells along the entire epididymis. Orchidectomy, with or without testosterone replacement at all time intervals examined, also did not affect LRP-2 expression along the entire epididymis. This also was noted for Apo J expression in all regions except the proximal initial segment. Thus, expression of these 2 proteins does not appear to be regulated by testicular or pituitary factors. In contrast, bilateral as well as unilateral (intact and ligated sides) efferent duct ligation resulted in dramatic differences in LRP-2 and Apo J expression in principal cells in the various
epididymal
regions. In the case of LRP-2, a complete absence of reaction was noted in principal cells along the entire epididymis. As for Apo J, expression in the distal initial segment, intermediate zone, and caput region remained unchanged compared with that in normal adult animals, whereas in the corpus and cauda epididymides, results of cytoplasmic staining were negligible. These results suggest that under conditions of efferent duct ligation, a circulating factor emanates from the testis to inhibit expression of LRP-2 and Apo J in these
epididymal
regions. Furthermore, because Apo J was affected in a region-specific manner, unlike the case for LRP-2, different factors appear to be involved for each protein. These factors may be produced to inhibit proteins from being synthesized by the epididymis in the absence of luminal testicular input and may exist in cases of congenital and pathologic
epididymal
tubule blockages as well as after vasectomy. In the case of immunostaining for Apo J in the proximal initial segment only, normally unreactive principal cells in control adult animals became intensely reactive after orchidectomy as well as bilateral and unilateral (ligated side only) ligation. As this was not the case for hypophysectomized animals and the intact side of unilateral efferent duct-ligated animals, it is suggested that a testicular factor entering via the lumen of the efferent ducts serves to inhibit Apo J expression in this area. The present data also reveal that after efferent duct ligation, there are circulating factors that inhibit Apo J expression in a region-specific manner (corpus and cauda) and that inhibit LRP-2 expression along the entire epididymis and that these are derived from the testis. Furthermore, the data reveal that a testicular luminal factor appears to inhibit Apo J expression in the proximal initial segment of normal adult animals. Key words: Principal cells, orchidectomy,
glycoprotein 330
, clusterin, sulfated glycoprotein-2.
...
PMID:Circulating and luminal testicular factors affect LRP-2 and Apo J expression in the epididymis following efferent duct ligation. 1067 May 27
Megalin is an abundant membrane protein heavily involved in receptor-mediated endocytosis. The major functions of
megalin
in vivo remain incompletely defined as
megalin
typically faces specialized milieus such as glomerular filtrate, airways,
epididymal
fluid, thyroid colloid, and yolk sac fluid, which lack many of its known ligands. In the course of studies on ANG II internalization, we were surprised when only part of the uptake of labeled ANG II into immortalized yolk sac cells (BN-16 cells) was blocked by specific peptide inhibitors and direct competitors of the angiotensin type 1 receptor. This led us to test if
megalin
was a receptor for ANG II. Four lines of direct evidence demonstrate that
megalin
and, to a lesser extent, its chaperone protein cubilin are receptors for ANG II. First, in BN-16 cells anti-
megalin
and anti-cubilin antisera interfere with ANG II uptake. Second, also in BN-16 cells, pure ANG II competes for uptake of a known
megalin
ligand. Third, in proximal tubule cell brush-border membrane vesicles extracted from mice, anti-
megalin
antisera interfere with ANG II binding. Fourth, purified
megalin
binds ANG II directly in surface plasmon resonance experiments. The finding that
megalin
is a receptor for ANG II suggests a major new function for the
megalin
pathway in vivo. These results also indicate that ANG II internalization in some tissues is
megalin
dependent and that
megalin
may play a role in regulating proximal tubule ANG II levels.
...
PMID:Megalin binds and internalizes angiotensin II. 1546 6
