Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019829 (Hodgkin's disease)
 30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The K+ and Cl- currents activated by hypotonic cell swelling were studied in Ehrlich ascites tumour cells using the whole-cell recording mode of the patch-clamp technique. Currents were measured in the absence of added intracellular Ca2+ and with strong buffering of Ca2+. K+ current activated by cell swelling was measured as outward current at the Cl- equilibrium potential (ECl) under quasi-physiological gradients. It could be abolished by replacing extracellular Na+ with K+, thereby cancelling the driving force. Replacement with other cations suggested a selectivity sequence of K+ > Rb+ > NH4 approximately Na+ approximately Li+; Cs+ appeared to be inhibitory. The current-voltage relationship of the volume-sensitive K+ current was well fitted with the Goldman-Hodgkin-Katz current equation between -130 and +20 mV with a permeability coefficient of around 10(-6) cm s(-1) with both physiological and high-K+ extracellular solutions. The class III antiarrhythmic drug clofilium blocked the volume-sensitive K+ current in a voltage-independent manner with an IC50 of 32 microM. Clofilium was also found to be a strong inhibitor of the regulatory volume decrease response of Ehrlich cells. Cell swelling-activated K+ currents of Ehrlich cells are voltage and calcium insensitive and are resistant to a range of K+ channel inhibitors. These characteristics are similar to those of the so-called background K+ channels. Noise analysis of whole-cell current was consistent with a unitary conductance of 5.5 pS for the single channels underlying the K+ current evoked by cell swelling, measured at 0 mV under a quasi-physiological K+ gradient.
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PMID:Characterisation of a cell swelling-activated K+-selective conductance of ehrlich mouse ascites tumour cells. 1079 Jan 56

K+ currents activated by hypotonic cell swelling have been studied in Ehrlich ascites tumour cells by the whole-cell recording mode of the patch-clamp technique. K+ together with Cl- currents developed in the absence of added intracellular Ca2+ and with strong buffering of internal Ca2+ in experiments conducted at 37 degrees C. Manipulation of the extracellular medium with other cations suggests a selectivity sequence of K+ > Rb+ > NH4+ > or = Na+ approximately equals Li+ approximately equals Cs+. The current-voltage relationship of the volume-sensitive K+ current was well fitted with the Goldman-Hodgkin-Katz current equation between -130 and 20 mV at both physiological and high K+ extracellular solutions. The class III antiarrhytmic drug clofilium blocked the volume-sensitive K+ current in a voltage-independent manner. Clofilium was also found to be a strong inhibitor of the regulatory volume decrease (RVD) response of Ehrlich cells. The leukotriene D4 (LTD4) can activate the same current in isotonicity, consistent with a role for this compound in the signalling process of volume regulation. It is suggested that K+ channels activated by cell swelling belong to the so-called background K+ channel group. These are voltage-independent channels which underlie the resting potential of many cells and have recently been identified as belonging to a family of K+ channels with two pore domains in tandem (2P-4TM). Preliminary experiments show the presence of the TASK-2 channel, a member of the 2P-4TM family inhibited by acid extracellular pH, in Ehrlich cells and suggest that it might underlie the swelling-induced K+ current.
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PMID:K+ conductance activated during regulatory volume decrease. The channels in Ehrlich cells and their possible molecular counterpart. 1191 67