EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of all-trans retinoic acid on metastatic B16 melanoma lung colonization and synthesis and properties of glycosaminoglycans was examined. Injection of tumour cells, pretreated with 10(-6) M-retinoic acid or grown to low density, into the tail vein of syngeneic C57 mice produced significantly fewer pulmonary tumours compared to subconfluent control cells. By cochromatography of glycosaminoglycans isolated from control ([14C]glucosamine-labelled) and 10(-6) M-retinoic acid-treated ([3H]glucosamine-labelled) cells on DEAE ion-exchange columns, differences in elution profiles were detected. Chondroitin sulphates isolated from retinoic acid-treated cells eluted at a lower salt concentration than those from control cells, while retinoic acid-treated cells synthesised heparan sulphates of a higher charge density than heparans from control cultures. These changes were apparent in both medium and trypsin-releasable fractions. Retinoic acid-treated cultures were seeded so that they were of a similar density to control cultures when harvested, as cell density was shown to affect glycosaminoglycan synthesis, the glycosaminoglycans from low-density cultures having similar properties to those isolated from retinoic acid-treated cultures. Retinoic acid treatment also reduced the overall synthesis of glycosaminoglycans while having little effect on the composition or distribution between medium, trypsin-releasable and cell-associated fractions. These observed changes in glycosaminoglycans may, in part, be responsible for retinoic acid-induced inhibition of lung colonization, and reduced adhesion to basement membrane components, which we have previously demonstrated.
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PMID:Retinoic acid-induced inhibition of lung colonization and changes in the synthesis and properties of glycosaminoglycans of metastatic B16 melanoma cells. 251 93

Choline acetyltransferase (Acetyl-CoA:choline O-acetyltransferase, EC 2.3.1.6, abbreviated ChAT), the biosynthetic enzyme for acetylcholine and acetylcholinesterase (EC 3.1.1.7, abbreviated AChE) are expressed in a human cholinergic neuroblastoma cell line, MC-IXC. We have shown that ChAT activity can be regulated in culture by retinoic acid, an active metabolite of vitamin A, and by sodium butyrate, an organic fatty acid. Optimal concentrations of these agents produce 4.3-fold and 1.6-fold increases in ChAT activity, respectively. The effects of retinoic acid are statistically significant after 24 h, whereas for sodium butyrate significant differences are seen only after 48 h. Since retinoic acid stimulation of ChAT activity was reversed only by trypsin treatment and not by removal of retinoic acid from the medium, this suggests that this agent may be acting at the level of the cell surface. Other differentiating conditions, such as culture in serum-free medium or addition of 1-2% dimethylsulfoxide did not increase ChAT activity. Acetylcholinesterase activity was shown to increase only in the presence of sodium butyrate, suggesting that retinoic acid and sodium butyrate may be acting via different pathways. Retinoic acid and sodium butyrate both seem to be permissive rather than instructive in regulating ChAT activity in that they are unable to induce ChAT expression de novo in cell lines which do not already express ChAT activity.
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PMID:Stimulation of choline acetyltransferase activity by retinoic acid and sodium butyrate in a cultured human neuroblastoma. 292 23

An established cell line (TM-4) derived from murine Sertoli cells, the major supportive cell type of the testes, secretes a protein that binds retinol when grown in serum-free chemically defined medium. The protein that binds retinol is trypsin-sensitive and has an apparent Kd for retinol of 54 nM. Cholesterol, retinyl acetate, or UV-irradiated retinol at levels 100-fold in excess of retinol are poor competitors of [3H]retinol binding. Retinoic acid at a 100-fold molar excess inhibited [3H]retinol binding by 71%. In contrast, excess unlabeled retinol completely inhibits [3H]retinol binding. More than 80% of the total retinol-binding activity in confluent cultures is found in the culture medium. Prior to incubation with retinol, the protein that binds retinol has an apparent Mr of less than 150,000 by column chromatography; however, after incubation with retinol the protein that binds retinol exhibits an apparent Mr of 2 X 10(6) or greater and a sedimentation coefficient greater than 4 S. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis reveals that the major iodinatable component of the aggregated protein that binds retinol has an apparent Mr of 70,000. The secreted protein that binds retinol is not immunologically cross-reactive with either serum or cellular retinol-binding protein or transferrin. These findings suggest that Sertoli cells may secrete a protein that binds retinol. Such a protein could be involved in the transport of retinol either to the lumen of the seminiferous tubules or to the developing germ cells themselves.
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PMID:Synthesis and secretion of a novel binding protein for retinol by a cell line derived from Sertoli cells. 653 97

The mechanisms, cell surface structures, and cell types involved in the phorbol 12,13-dibutyrate (P(Bu)2)-induced binding between human lymphocytes were studied. Induction of cell aggregation by 20 min treatment with P(Bu)2 required Ca2+, an intact membrane, functional microfilaments, and the possible participation of an esterase or, less likely, a protease. Trypsin-sensitive cell surface structures were needed and neuraminidase (NANase) treatment slightly increased the intercellular binding. Retinoic acid, an anti-tumor promoting agent, was inhibitory. Calmodulin-dependent processes, microtubules, phospholipid methylation, intracellular levels of cyclic adenosine monophosphate, and cellular secretion did not seem to be involved. Cell conjugation between 24 hr P(Bu)2-treated and untreated cells required participation of trypsin-sensitive cell surface structures in each of the interacting cells and NANase treatment of one partner slightly increased the intercellular binding. Thymocytes, T cells, mature B and Epstein-Barr virus-transformed B cells aggregated while pre-B, early B, and intermediate B lymphocytes derived from representative malignancies did not. The lack of aggregation was not due to the absence of phorbol ester receptors. It is concluded that the P(Bu2)-induced intercellular binding is mediated by cell surface proteins, depends on certain enzymatic activities and metabolic events and involves certain cell types.
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PMID:Characterization of the phorbol 12,13-dibutyrate (P(Bu)2) induced binding between human lymphocytes. 658 88

Mouse myeloid leukemia M1 cells were induced to differentiate in vitro into macrophages and granulocytes by various inducers, including dexamethasone. Prostaglandin F2 alpha inhibited the inductions by dexamethasone of phagocytic and lysozyme activities in M1 cells. Prostaglandin F2 alpha stimulated the production of differentiation-inhibiting activity (I-activity) in M1 cells. I-activity production by prostaglandin F2 alpha was decreased by simultaneous treatment with actinomycin D (5 ng/ml) but not with 5-fluoro-2'-deoxyuridine (10 ng/ml). The I-activity was inactivated by heating (70 degrees, 20 min) or by treatment with trypsin but not with mixed glycosidases or ribonuclease, suggesting that I-activity was due to a proteinous substance(s). B-Type prostaglandins also stimulated I-activity production, whereas A-, E- and D-type ones did not. Induction of prostaglandin E2. Retinoic acid stimulated the synthesis and release of prostaglandin F2 alpha and production of I-activity in M1 cells. Indomethacin completely inhibited induction of I-activity by retinoic acid. On the basis of these results, the relationship between I-activity production and prostaglandin F2 alpha production is discussed.
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PMID:Mechanisms of inhibition of mouse myeloid leukemic cell differentiation by prostaglandin F2 alpha. 695 29

The beneficial effect of isotretinoin on the repair of photodamaged skin is well documented. Little is known, however, on the action of this compound on immunological functions of epidermis. In a double-blind study, we analyzed the effect of topical applications of isotretinoin on human Langerhans cell (LC) function by using the mixed epidermal cell lymphocyte reaction (MELR). Isotretinoin cream (0.1%) was applied daily for 4 months on the back of one hand of 5 healthy volunteers, 50-60 years of age. The back of the other hand received vehicle alone and was used as control. Skin biopsy specimens were taken at the end of treatment. Epidermal cell (EC) suspensions were obtained by the use of trypsin and allogeneic T cells were purified from the peripheral blood of allogeneic donors. MELR was performed in microtiter plates and T cell proliferation was assessed by 3H-thymidine incorporation during the last 18 h of culture. Results did not show any differences between allogeneic T cell responses to EC from isotretinoin-treated or nontreated skin. These results therefore suggest that isotretinoin, applied topically onto photodamaged skin, did not alter human LC antigen-presenting function.
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PMID:Topical application of isotretinoin did not modify human Langerhans cell allostimulatory function. 780 27

Retinoic acid-treated mesenchyme cells of the budding ascidian Polyandrocarpa misakiensis acquire an organizer activity to induce a secondary body axis when implanted into developing buds. We identified several different mRNAs that were upregulated in the mesenchyme cells after retinoic acid treatment. We isolated a cDNA clone corresponding to one of these mRNAs. The C-terminal region of the predicted protein product is homologous to the catalytic domain of serine proteases that belong to the trypsin family. The N-terminal region contains several types of protein-protein interaction domains. We therefore named this protein tunicate retinoic acid-inducible modular protease (TRAMP). Expression of the TRAMP mRNA in mesenchyme cells during budding and its upregulation by retinoic acid were demonstrated by reverse transcription-PCR and in situ hybridization. A glutathione S-transferase-TRAMP fusion protein showed a protease activity with trypsin-like substrate specificity and stimulated proliferation of the cell line established in this species.
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PMID:A retinoic acid-inducible modular protease in budding ascidians. 1049 Dec 55