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)

The wall structure of arterio-venous anastomoses in human glomus organs was studied by immunohistochemistry and immunoelectron microscopy. Smooth muscle cells of the epithelioid type I and of the dense type II could be found in the media. The immunohistochemical study confirmed the immunopositivity of both smooth muscle cell types for alpha-smooth muscle actin, vimentin, and smooth muscle myosin. All smooth muscle cells also stained positively for caveolin, a recently described structural protein of microvesicles present in selected epithelial and nonepithelial cells. The immunoreactivity for cathepsin D, however, was much higher in the type I cells than in the type II cells. Immunoelectron microscopy revealed that type I cells contain loose arrays of alpha smooth muscle actin positive microfilaments, sometimes arranged in small bundles, whereas the dense medial smooth muscle cells of the type II have tightly packed actin filaments. Only type I cells contained cathepsin D positive lysosomes. The data suggest that two types of phenotypic variants of vascular smooth muscle cells in the human arterio-venous anastomosis exist: a more "synthetic" type I cell and a more contractile type II cell.
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PMID:Immunoelectron microscopical characterization of the epithelioid type of smooth muscle cells in human glomus organs. 927 72

A specialized subset of invasive embryonic cytotrophoblast cells gains access to maternal uterine arteries early in the gestation of higher primates. These cells continue to migrate extensively within the lumina of spiral arteries, converting them to the highly modified uteroplacental arteries of pregnancy. Although trophoblast cell-mediated modifications are considered critical to the progress of normal pregnancy, few studies have addressed the cellular interactions between maternal arteries and embryonic cells in situ. Macaque placentas and endometrial tissues were collected from 12 animals from day 14 of gestation (blastocyst implantation begins on day 9) to day 49. Standard indirect immunoperoxidase methods were used to identify matrix metalloproteinases (MMP-1, MMP-3, MMP-9), cathepsin B, cathepsin D, platelet-endothelial cell adhesion molecule, cytokeratins, smooth muscle actin, CD68, and factor VIII-related antigen. Cytotrophoblast cells were located deep within spiral arteries in each of the specimens examined. In some examples tightly packed clusters of cytotrophoblast occluded the lumina of invaded arteries. Initial penetration of arterial tunica intima was revealed by discontinuities in the staining pattern for factor VIII and cytotrophoblast intrusion was indicated by cytokeratin staining of the trophoblast cells. Continued cytotrophoblast intrusion into the tunica media was apparent by gaps in the smooth muscle. MMP-1, MMP-3, and MMP-9 were localized within intraluminal and intramural cytotrophoblast. By contrast, neither cathepsin B nor cathepsin D were present, although both were seen in uterine macrophages and stromal cells. Upon reaching the surrounding uterine stroma the cytotrophoblast cells ceased migration. As cytotrophoblast accumulated in the arterial wall the vascular lumen expanded. Evidence of cell death was rarely encountered in associated maternal or embryonic tissues. We conclude that intra-arterial cytotrophoblast cells express several proteinases with substrate specificities sufficient to permit independent remodeling of the extracellular matrix comprising uterine artery walls. The remodeling of the arteries, which involves extensive displacement of maternal endothelium and smooth muscle, in addition to degradation and synthesis of extracellular matrix, is accomplished with little evidence of cell death or loss of the integrity of the arteries. This process provides an interesting example of cooperation between different types of interacting tissues from genetically distinct individuals.
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PMID:Trophoblast cell-mediated modifications to uterine spiral arteries during early gestation in the macaque. 941 53

Aim: We have recently demonstrated the presence of putative tumor stem cells (TSCs) in World Health Organization (WHO) grade I meningioma (MG) localized to the microvessels, which expresses components of the renin-angiotensin system (RAS). The RAS is known to be dysregulated and promotes tumorigenesis in many cancer types, including glioblastoma. Cathepsins B, D, and G are isoenzymes that catalyze the production of angiotensin peptides, hence providing bypass loops for the RAS. This study investigated the expression of cathepsins B, D, and G in WHO grade I MG in relation to the putative TSC population we have previously demonstrated. Methods: 3,3-Diaminobenzidine (DAB) immunohistochemical (IHC) staining with antibodies for cathepsins B, D, and G was performed on WHO grade I MG tissue samples from 10 patients. Three of the MG samples subjected to DAB IHC staining underwent immunofluorescence (IF) IHC staining to investigate co-expression of each of these cathepsins using combinations of smooth muscle actin (SMA) and embryonic stem cell marker OCT4. NanoString mRNA expression (n = 6) and Western blotting (WB; n = 5) analyses, and enzyme activity assays (EAAs; n = 3), were performed on snap-frozen WHO grade I MG tissue samples to confirm transcriptional activation, protein expression, and functional activity of these proteins, respectively. Results: DAB IHC staining demonstrated expression of cathepsins B, D, and G in all 10 MG samples. NanoString mRNA expression and WB analyses showed transcriptional activation and protein expression of all three cathepsins, although cathepsin G was expressed at low levels. EAAs demonstrated that cathepsin B and cathepsin D were functionally active. IF IHC staining illustrated localization of cathepsin B and cathepsin D to the endothelium and SMA+ pericyte layer of the microvessels, while cathepsin G was localized to cells scattered within the interstitium, away from the microvessels. Conclusion: Cathepsin B and cathepsin D, and to a lesser extent cathepsin G, are expressed in WHO grade I MG. Cathepsin B and cathepsin D are enzymatically active and are localized to the putative TSC population on the microvessels, whereas cathepsin G was localized to cells scattered within the interstitium, These results suggest the presence of bypass loops for the RAS, within WHO grade I MG.
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PMID:Expression of Cathepsins B, D, and G in WHO Grade I Meningioma. 3094 83