Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.2.2.7 (heparinase)
 1,270 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

More than half of the 67Cu recovered from K562 cells following a brief incubation with 67Cu-ceruloplasmin was recovered in particulate fractions of the cell. The fractions in Percoll had densities that ranged between 1.040 and 1.060 g/dl. In as early as 5 min, two fractions, densities of 1.051 and 1.056, respectively, were discernible. Components in the 1.051 fraction tested positive for clathrin and catalase. Those in the 1.056 fraction sedimented near the marker for lysosomes. The 67Cu in both fractions was stable to treatment by EDTA, nitrilotriacetate, alpha,alpha'-dipyridyl, heparinase, and ascorbate, but dissociated when treated with pronase, trypsin, or sodium dodecylsulfate. Continuous incubation with 67Cu-ceruloplasmin intensified the 67Cu activity in the 1.051 and 1.056 fractions. Cells incubated with 125I-transferrin displayed the label primarily in the 1.051 fraction. Continuous incubation intensified the label but unlike 67Cu, it did not shift to lighter or heavier fractions. Electron micrographs of the 1.051 fraction showed fields dominated by membranous structures some of which were enclosed. Micrographs of whole cells showed numerous invaginations resembling coated pits with sealed structures along and beneath the membrane surface suggesting the membrane was engaged in a rather extensive endocytosis. These data provide evidence that a large fraction of Cu from ceruloplasmin enters the K562 cell bound to membranous-like vesicles, part of which are sealed and coated with clathrin. This particulate pathway accounts for most of the copper entering the cell.
 ...
PMID:Characterization of a particulate pathway for copper in K562 cells. 813 Feb 71

During endochondral ossification, chondrocytes progress through several stages of maturation before they are replaced by bone cells. Chondrocyte proliferation, the first step in this complex multistage process, is strictly controlled both spatially and temporally but its underlying mechanisms of regulation remain unclear. In this study we asked whether chondrocytes produce syndecan-3, a cell surface receptor for growth factors such as fibroblast growth factor 2 (FGF-2), and whether syndecan-3 may play a role in proliferation during chondrocyte maturation. We found that proliferating immature cartilage from chick embryo tibia and sternum contained significant amounts of syndecan-3 mRNA, whereas mature hypertrophic cartilage contained markedly lower transcript levels. Immunohistochemical analyses on sections of Day 18 chick embryo tibia revealed that syndecan-3 was spatially restricted and indeed detectable only in immature proliferating chondrocytes in the top zone of growth plate. These syndecan-3-rich proliferating chondrocytes lay beneath developing articular chondrocytes rich in their typical matrix protein tenascin-C, resulting in a striking boundary between these two populations of chondrocytes. Immature proliferating chondrocyte populations reared in growth-promoting culture conditions displayed strong continuous syndecan-3 gene expression; upon induction of maturation by vitamin C treatment, syndecan-3 gene expression was markedly down-regulated. Treatment with FGF-2 for 24 h stimulated both syndecan-3 gene expression and chondrocyte proliferation; this growth stimulation was counteracted by cotreatment with heparinase I or III. The results of the study indicate that syndecan-3 participates in the maturation of chondrocytes during endochondral ossification and represents a regulator of the proliferative phase of this multistage process.
 ...
PMID:Syndecan-3 and the control of chondrocyte proliferation during endochondral ossification. 894 Feb 56