Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.36 (hyaluronidase)
 4,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cells isolated by hyaluronidase incubation from chicken small intestine were used to study the effects of anisosmotic buffers on K+ transport. Hypo-osmolarity (200 mosmol.l-1) reduced both the ouabain-sensitive and the ouabain-resistant, but bumetanide-sensitive, net K+ influx and increased the K+ efflux. The hypo-osmolarity induced K+ efflux was prevented by quinine and unaffected by bumetanide. These results suggest that Ca2+-activated K+ channels may be involved in regulatory volume decrease in chicken enterocytes. Hyperosmotic conditions (400 mosmol.l-1) increased the portion of net K+ influx mediated by the Na+/K+-ATPase and that mediated by the bumetanide-sensitive K+ transport system, and decreased the K+ efflux.
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PMID:Effects of anisosmotic buffers on K+ transport in isolated chicken enterocytes. 253 56

The highly vesicant nature of the alkylating anticancer agent mechlorethamine (HN2, or nitrogen mustard) requires careful i.v. technique during its administration. Skin toxicity due to HN2 extravasation is severe and typically prolonged over several months. Mouse skin toxicity studies were carried out to find a local antidote to decrease the severity of tissue damage by this agent. Intradermal (i.d.) HN2 (0.005-0.5 mg) caused dose-dependent skin ulcers in the mouse. Isotonic sodium thiosulfate Na2S2O3 (0.167 M) or hypertonic (0.34 M) Na2S2O3 (0.05 ml) given immediately after HN2 significantly reduced the mean HN2 ulceration area and the total time of ulceration. Ineffective local HN2 antidotes included hyaluronidase, hydrocortisone, and sodium chloride, all given i.d. Topical applications of DMSO, cold, and heat were also ineffective. Sodium thiosulfate is believed to chemically neutralize reactive mechlorethamine-alkylating species and thus decrease skin toxicity. Thiosulfate dosing studies showed that a molar excess of at least 200:1 (Na2S2O3:HN2) was required for significant antidotal activity. If thiosulfate treatment was delayed 4-24 h after HN2, no antidotal effects were obtained. We conclude that sodium thiosulfate can decrease the severity of local tissue damage caused by HN2. It should be considered the antidote of choice in the setting of clinical HN2 extravasations.
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PMID:Efficacy of sodium thiosulfate as a local antidote to mechlorethamine skin toxicity in the mouse. 316 43

Decarbazine (DTIC) is reported to exhibit enhanced clinical toxicity and increased antitumor activity in vitro when exposed to light. Since it was unclear whether light exposure enhanced DTIC antitumor activity or local toxic effects in vivo, a series of experiments was performed in mice given DTIC solutions exposed to light for 2 hours at room temperature. Adenocarcinoma 07/A was implanted by trocar in adult female BALB/c mice. DTIC (50 and 100 mg/kg) was given ip three times per week for 2 weeks. Both drug doses significantly inhibited tumor growth. However, there was no significant difference between light-exposed and -protected drug treatments. In vitro clonogenic assays in L1210 leukemia and Chinese hamster ovary (CHO) cells demonstrated that DTIC cytotoxicity was not increased with light exposure (0.8 J/m2/sec). Both cell lines showed a dose-response relationship to DTIC after 1- or 6-hour exposures in the presence or absence of light. Normal dehaired BALB/c mice were given single intradermal injections of 0.5, 1.75, 5.0, or 10 mg of DTIC in 0.05 ml of saline. Dose-dependent skin ulceration was produced at the 1.75-, 5.0-, and 10.0-mg dose levels. Again, there was no consistent statistical difference in skin ulceration between treatments using light-exposed and -protected DTIC vials. However, when mice were exposed to light following intradermal DTIC, increased skin toxicity was produced (P less than 0.05 by Student-Neuman-Keuls multiple range test). A number of potential local antidotes to DTIC skin ulceration were found to be ineffective. These included: L-cysteine, dimethyl sulfoxide, hyaluronidase, hydrocortisone, and 0.9% saline. Sodium thiosulfate (0.3 M) significantly reduced DTIC skin ulcers as did pre-exposure of DTIC to S-9 rat liver enzymes and NADPH. Neither mild skin heating nor cooling reduced DTIC ulcerations. DTIC appears to synergize with light in vivo to produce increased toxicity. Patients receiving DTIC should avoid intense light exposure after drug injection. However, elaborate precautions to prevent light exposure of DTIC solutions during preparation or injection appear to be unnecessary.
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PMID:Experimental dacarbazine antitumor activity and skin toxicity in relation to light exposure and pharmacologic antidotes. 381 94