Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.17 (lysozyme)
 21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasma retinol-binding protein (RBP) combined with vitamin A (retinol) is partially filtered through the glomerulus and then absorbed by proximal tubule cells, leading to recycling of retinol to the circulation. Recently, it was shown that reabsorption of RBP-retinol complexes by proximal tubule cells is mediated by megalin (gp 330), an apical endocytic receptor. It was proposed that RBP is transported by megalin to lysosomes, where it is degraded, thus liberating retinol, which then combines with newly synthesized RBP to be secreted into the bloodstream. This study shows that passage of RBP through immortalized rat renal proximal tubule (IRPT) cells occurs by transcytosis after megalin-mediated endocytosis, which provides an alternative pathway for recycling of retinol. IRPT cells cultured as polarized monolayers with tight junctions were used on permeable filters in the upper chamber of dual-chambered devices, with megalin expression exclusively on the upper surface. After addition of RBP to the upper chamber and incubation at 37 degrees C, intact RBP was found in fluids that were collected from the lower chamber. In contrast, control substances (mannitol, lysozyme, albumin, and glutathione-S-transferase) were not appreciably transported across IRPT cells, indicating that passage of RBP was by transcytosis and not by paracellular leakage. Confocal microscopy analysis of IRPT cells after addition of RBP to the upper chamber revealed RBP-containing granules at the apical membrane, subapically, and also at basolateral membranes. When RBP was added to IRPT cells together with megalin competitors, the amount of transcytosed RBP was markedly reduced. We also found that some RBP was internalized and degraded by IRPT cells, but this process was not appreciably affected by megalin competitors, indicating that RBP endocytosed by megalin was not transported to lysosomes and degraded but rather transcytosed across IRPT cells.
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PMID:Transcytosis of retinol-binding protein across renal proximal tubule cells after megalin (gp 330)-mediated endocytosis. 1127 24

The mechanism of protein reabsorption in the kidney of lower vertebrates remains insufficiently investigated in spite of raising interest to the amphibian and fish kidneys as a useful model for physiological and pathophysiological examinations. In the present study, we examined the renal tubular uptake and the internalization rote of lysozyme after its intravenous injection in the wintering frog Rana temporaria using immunohisto- and immunocytochemistry and specific markers for some endocytic compartments. The distinct expression of megalin and cubilin in the proximal tubule cells of lysozyme-injected frogs was revealed whereas kidney tissue of control animals showed no positive immunoreactivity. Lysozyme was detected in the apical endocytic compartment of the tubular cells and colocalized with clathrin 10 min after injection. After 20 min, lysozyme was located in the subapical compartment negative to clathrin (endosomes), and intracellular trafficking of lysozyme was coincided with the distribution of megalin and cubilin. However, internalized protein was retained in the endosomes and did not reach lysosomes within 30 min after treatment that may indicate the inhibition of intracellular trafficking in hibernating frogs. For the first time, we provided the evidence that lysozyme is filtered through the glomeruli and absorbed by receptor-mediated clathrin-dependent endocytosis in the frog proximal tubule cells. Thus, the protein uptake in the amphibian mesonephros is mediated by megalin and cubilin that confirms a critical role of endocytic receptors in the renal reabsorption of proteins in amphibians as in mammals.
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PMID:Receptor-mediated endocytosis of lysozyme in renal proximal tubules of the frog Rana temporaria. 2615 Jan 56


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