Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.23.5 (cathepsin D)
 4,130 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antibodies specific for the insulin-regulatable glucose transporter (GLUT 4) were used to immunolocalize this protein in brown adipose tissue from basal- and insulin-treated rats. Cryosections of fixed tissue were incubated with antibodies, which were subsequently labeled with Protein A/gold and examined by EM. Antibodies against albumin and cathepsin D were also used with gold particles of different sizes to identify early and late endosomes, respectively. Under basal conditions 99% of the GLUT 4 labeling was located within the cell. Labeling was predominantly in the trans-Golgi reticulum and tubulo-vesicular structures elsewhere in the cytoplasm. In insulin-stimulated cells approximately 40% of the GLUT 4 labeling was at the cell surface, where it was randomly distributed, except for occasional clustering in coated pits. Moreover, after insulin treatment, GLUT 4 was also enriched in early endosomes. We conclude that translocation of GLUT 4 to the cell surface is the major mechanism by which insulin increases glucose transport. In addition, these results suggest that in the presence of insulin GLUT 4 recycles from the cell surface, probably via the coated pit-endosome pathway that has been characterized for cell surface receptors, and also that insulin causes the redistribution of GLUT 4 by stimulating exocytosis from GLUT 4-containing tubulo-vesicular structures, rather than by slowing endocytosis of GLUT 4.
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PMID:Immuno-localization of the insulin regulatable glucose transporter in brown adipose tissue of the rat. 200 17

Immunocytochemistry with affinity-purified anti-human cathepsin D was applied to ultrathin frozen sections of human bone marrow megakaryocytes and of blood platelets from peripheral blood. The fixative used was paraformaldehyde (concentration gradient 2----8%). Protein A/colloidal gold (5 and 8) particles were used as second label. Cathepsin D was localized in primary and secondary lysosomes in blood platelets and in primary and secondary lysosomes in megakaryocytes. Primary lysosomes in megakaryocytes were identified by their localization on the trans-side of the Golgi complex and secondary lysosomes by the presence of inclusions. The lysosomes in platelets differed from alpha-granules by being smaller, lacking an electron dense core, and by the presence of a transparent submembrane halo. Platelets undergoing a release reaction after stimulation with thrombin showed cathepsin-D staining in the surface-connecting tubules.
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PMID:Immuno-electron microscopical demonstration of lysosomes in human blood platelets and megakaryocytes using anti-cathepsin D. 399 73

IgG antibodies from sera of rabbits immunized with a mixture of three synthetic peptides of highly conserved surface-exposed sequences between Schistosoma japonicum and S. mansoni cathepsin D, and a rabbit anti-bovine cathepsin D serum strongly recognized a 45 kDa molecule on immunoblots of adult S. mansoni worm saline extracts (AWSE). This recognition was abolished by immunoadsorption with two of the three selected peptides. The anti-peptide antibodies fixed onto Protein A-Sepharose specifically immunoprecipitated a S. mansoni AWSE component that was able to degrade bovine hemoglobin at pH 3.8. This reaction was inhibited by 7 microM pepstatin A, a classical aspartyl protease inhibitor, suggesting that the parasite cathepsin D was immunoprecipitated. The anti-peptide antibodies also recognized on a dot-blot assay a purified, commercially obtained bovine cathepsin D preparation but not the purified human counterpart. On the other hand, the anti-bovine cathepsin D serum recognized the two above-mentioned schistosome peptides. In addition, S. mansoni-infected patient sera recognized on immunoblots the bovine but not the human cathepsin D. These results, together with a comparative analysis of the selected peptide sequence regions between the schistosome and the two mammal enzymes, allowed us to pinpoint to one amino acid the cross-reactivity between parasite and bovine cathepsin D and the lack of it with human cathepsin D. This difference might be of relevance for immunodiagnosis.
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PMID:Immunological similarity between Schistosoma and bovine cathepsin D. 1294 67