Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Arsenite but not oxamate produce in vitro a distinct depression of estrogen-dominated uterine motility, both in the absence of substrate as well as in the presence of exogenous glucose or lactate. The addition of oxamate to preparations suspended in a medium with lactate as the sole external substrate ameliorates the depression of uterine motility elicited by arsenic.
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PMID:Effects of aresenite and oxamate on the in vitro functional activity of estrogen-dominated rate uterine horns. 42 38

The purpose of this investigation was to explore the possible mechanism of muscle contracture and twitch depression induced by arsenite in the mouse diaphragm. Arsenite-contracture was dependent on extracellular Ca2+; both EGTA and Ca(2+)-channel blockers (nifedipine and verapamil) inhibited arsenite-contracture. However, the activators caffeine and ryanodine and the inhibitor ruthenium red of the Ca2+ releasing channel of sarcoplasmic reticulum (SR) all exerted a profound inhibitory action on arsenite-contracture. Neither the Ca(2+)-release nor the Ca(2+)-ATPase activity of SR. were affected by 50 microM arsenite. These findings indicate a possibility that arsenite induced muscle contracture by enhancing Ca(2+)-entry which further induced Ca(2+)-release from SR. Moreover, the possible mechanism of twitch blockade induced by arsenite was studied by an electrophysiological technique. The frequency of miniature endplate potential (m.e.p.p.) was initially increased but eventually abolished by arsenite, while the amplitude of m.e.p.p. remained unaffected and that of endplate potential rapidly declined. It is considered that arsenite increased the spontaneous release of transmitter by enhancing Ca2+ entry into the nerve terminal and inhibited the evoked transmitter release possibly by acting at a certain site which governs transmitter release.
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PMID:Muscle contracture and twitch depression induced by arsenite in the mouse phrenic nerve-diaphragm. 837 14

Arsenite and cadmium are two potent nephrotoxicants and common Superfund site elements. These elements are included among the stress protein inducers, but information regarding relationships between toxicity produced by combinations of these agents to the stress protein response is lacking. In this study, the immortalized cell lines normal rat kidney NRK-52E and human kidney HK-2 were exposed in vitro to arsenite (As(3+)), cadmium (Cd(2+)), or to equimolar As(3+) plus Cd(2+) mixture combinations for 3 and 5 h over a concentration range of 0.1-100 microM. After a 12-h recovery period, cultured cells were then evaluated for expression of the 60, 70, and 90 kDa major stress protein families. Results indicated that expression of stress proteins varied depending on the species of kidney cells exposed, the exposure concentrations, and the length of exposure to each element on an individual basis and for combined mixtures. For the HK-2 kidney cell line, increased levels of the 70 kDa stress protein was observed for single and combined element exposures whereas there was no change or a decrease of stress proteins 60 and 90 kDa. Increased 70 kDa expression was observed for 10-microM doses of single elements and for a lower dose of 1 microM of the As plus Cd mixture at 3- and 5-h exposures. NRK-52 kidney cells exposed to equivalent doses of As(3+) and Cd(2+) alone or in combination showed increased levels of all stress proteins 60, 70, and 90 kDa. This increase was seen for 10 microM of the As plus Cd mixture at 3 h whereas for single element exposures, increased stress protein levels were generally observed for the 100-microM doses. At 5 h- exposure, 60 and 90 kDa levels increased for 10 microM of Cd(2+) and 60 kDa levels increased for 1 microM of As(3+). However, exposures to 10 microM of the As plus Cd mixture decreased 60 kDa protein expression to control levels at 5 h. For both kidney cell lines, there was a decrease in the stress protein expression levels for all three stress protein families for 100-microM doses of the mixture combination for 3- and 5-h exposures. These data indicate a dose- and combination-related correlation between depression of the stress protein response and the onset of overt cellular toxicity and/or cell death. The threshold for these changes was cell line specific.
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PMID:A comparison of 60, 70, and 90 kDa stress protein expression in normal rat NRK-52 and human HK-2 kidney cell lines following in vitro exposure to arsenite and cadmium alone or in combination. 1185 74