Hans J. Lang scite author profile

1. We identified the ethacrynic-acid derivative DCPIB as a potent inhibitor of I(Cl,swell), which blocks native I(Cl,swell) of calf bovine pulmonary artery endothelial (CPAE) cells with an IC(50) of 4.1 microM. Similarly, 10 microM DCPIB almost completely inhibited the swelling-induced chloride conductance in Xenopus oocytes and in guinea-pig atrial cardiomyocytes. Block of I(Cl,swell) by DCPIB was fully reversible and voltage independent. 2. DCPIB (10 microM) showed selectivity for I(Cl,swell) and had no significant inhibitory effects on I(Cl,Ca) in CPAE cells, on chloride currents elicited by several members of the CLC-chloride channel family or on the human cystic fibrosis transmembrane conductance regulator (hCFTR) after heterologous expression in Xenopus oocytes. DCPIB (10 microM) also showed no significant inhibition of several native anion and cation currents of guinea pig heart like I(Cl,PKA), I(Kr), I(Ks), I(K1), I(Na) and I(Ca). 3. In all atrial cardiomyocytes (n=7), osmotic swelling produced an increase in chloride current and a strong shortening of the action potential duration (APD). Both swelling-induced chloride conductance and AP shortening were inhibited by treatment of swollen cells with DCPIB (10 microM). In agreement with the selectivity for I(Cl,swell), DCPIB did not affect atrial APD under isoosmotic conditions. 4. Preincubation of atrial cardiomyocytes with DCPIB (10 microM) completely prevented both the swelling-induced chloride currents and the AP shortening but not the hypotonic cell swelling. 5. We conclude that swelling-induced AP shortening in isolated atrial cells is mainly caused by activation of I(Cl,swell). DCPIB therefore is a valuable pharmacological tool to study the role of I(Cl,swell) in cardiac excitability under pathophysiological conditions leading to cell swelling.

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The cardiac K+ channel KCNQ1 is essential for gastric acid secretion

Grahammer¹,

Wittekindt²,

Nitschke³

et al. 2001

Gastroenterology

169

176

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Effects of the chromanol 293B, a selective blocker of the slow, component of the delayed rectifier K+ current, on repolarization in human and guinea pig ventricular myocytes

et al. 1998

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Heteromeric KCNE2/KCNQ1 potassium channels in the luminal membrane of gastric parietal cells

Heitzmann

Grahammer

Hahn

et al. 2004

The Journal of Physiology

112

116

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The role of the I_sK protein in the specific pharmacological properties of the I_Ks channel complex

Büsch

Busch

Ford

et al. 1997

British J Pharmacology

115

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I Ks channels are composed of I sK and KvLQT1 subunits and underly the slowly activating, voltagedependent I Ks conductance in heart. Although it appears clear that the I sK protein aects both the biophysical properties and regulation of I Ks channels, its role in channel pharmacology is unclear. In the present study we demonstrate that KvLQT1 homopolymeric K + channels are inhibited by the I Ks blockers 293B, azimilide and 17-b-oestradiol. However, I Ks channels induced by the coexpression of I sK and KvLQT1 subunits have a 6 ± 100 fold higher anity for these blockers. Moreover, the I Ks activators mefenamic acid and DIDS had little eect on KvLQT1 homopolymeric channels, although they dramatically enhanced steady-state currents through heteropolymeric I Ks channels by arresting them in an open state. In summary, the I sK protein modulates the eects of both blockers and activators of I Ks channels. This ®nding is important for the action and speci®city of these drugs as I sK protein expression in heart and other tissues is regulated during development and by hormones.

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Flufenamic acid, mefenamic acid and niflumic acid inhibit single nonselective cation channels in the rat exocrine pancreas

et al. 1990

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The non-steroidal anti-inflammatory drugs, flufenamic acid, mefenamic acid and niflumic acid, block Ca2+-activated non-selective cation channels in inside-out patches from the basolateral membrane of rat exocrine pancreatic cells. Half-maximal inhibition was about 10 PM for flufenamic acid and mefenamic acid, whereas niflumic acid was less potent (IC,, about 50 PM). Indomethacin, aspirin, diltiazem and ibuprofen (100 /IM) had not effect. It is concluded that the inhibitory effect of flufenamate, mefenamate and niflumate is dependent on the specific structure, consisting of two phenyl rings linked by an amino bridge.

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Inhibition of IKs in guinea pig cardiac myocytes and guinea pig IsK channels by the chromanol 293B

Büsch

Suessbrich

Waldegger

et al. 1996

Pflügers Arch — Eur J Physiol

142

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The chromanol derivative 293B was previously shown to inhibit a cAMP regulated K+ conductance in rat colon crypts. Subsequent studies on cloned K+ channels from the rat demonstrated that 293B blocks specifically IsK channels expressed in Xenopus oocytes, but does not affect the delayed and inward rectifier Kv1.1 and Kir2.1, respectively. In the present study, the specificity of 293B for the cardiac K+ conductances IKs and IKr, and for the cloned guinea pig IsK channel and the human HERG channel, which underly IKs and IKr, respectively, was analyzed. 293B inhibited both the slowly activating K+ conductance IKs in cardiac myocytes and guinea pig IsK channels expressed in Xenopus oocytes with a similar IC50 (2-6 micromol/l). In contrast, high concentrations of 293B had only a negligible effect on the more rapid activating IKr. Similarly, 293B exerted no effect on HERG channels expressed in Xenopus oocytes. In summary, 293B appears to be a rather specific inhibitor of IKs and the underlying IsK channels.

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K V LQT channels are inhibited by the K + channel blocker 293B

Bleich

Briel

Büsch

et al. 1997

Pfl�gers Archiv European Journal of Physiology

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Previous data have indicated that the chromanol 293B blocks a cAMP activated K+ conductance in the colonic crypt, a K+ conductance in pig cardiac myocytes and the K+ conductance induced by IsK protein expression in Xenopus oocytes. We have also shown that cAMP-activated cystic fibrosis transmembrane conductance regulator (CFTR) up-regulates, apart from the typical Cl- current, a 293B- inhibitable K+ current. Very recently it has been shown that the IsK protein interacts with KVLQT subunits to produce a K+ channel. These data have prompted us to ask the following questions: Is the 293B-inhibitable current in oocytes expressing CFTR and activated by cAMP caused by an endogenous Xenopus KVLQT (XKVLQT), and is mouse KVLQT (mKVLQT) expressed in oocytes inhibited by 293B? Antisense and sense probes for XKVLQT were coinjected with CFTR cRNA into oocytes. After 3-4 days the oocytes were examined by two electrode voltage clamp. It was found that in control oocytes expressing CFTR and stimulated by isobutylmethylxanthine (IBMX, 1 mmol/l) 293B (10 micromol/l) reduced the conductance (Gm). In oocytes coinjected with the sense probe for XKVLQT and pretreated with IBMX 293B still reduced Gm, whilst the 293B-inhibitable Gm was almost completely absent in oocytes coinjected with XKVLQT antisense. In another series a full length clone for mKVLQT was generated by PCR techniques and the cRNA was injected into oocytes. After several days these oocytes, unlike water injected ones, were found to be strongly hyperpolarized and their Gm was increased significantly. The oocytes were depolarized significantly and their Gm was reduced reversibly by 10 micromol/l 293B. These data indicate that CFTR activation by IBMX indeed co-activates an endogenous oocyte XKVLQT channel and that this channel is inhibited by a new class of channel blockers, of which 293B is the prototype.

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Hans J. Lang

DCPIB is a novel selective blocker of I_Cl,swell and prevents swelling‐induced shortening of guinea‐pig atrial action potential duration

The cardiac K+ channel KCNQ1 is essential for gastric acid secretion

Effects of the chromanol 293B, a selective blocker of the slow, component of the delayed rectifier K+ current, on repolarization in human and guinea pig ventricular myocytes

Heteromeric KCNE2/KCNQ1 potassium channels in the luminal membrane of gastric parietal cells

The role of the I_sK protein in the specific pharmacological properties of the I_Ks channel complex

Flufenamic acid, mefenamic acid and niflumic acid inhibit single nonselective cation channels in the rat exocrine pancreas

Inhibition of IKs in guinea pig cardiac myocytes and guinea pig IsK channels by the chromanol 293B

K V LQT channels are inhibited by the K + channel blocker 293B

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Hans J. Lang

DCPIB is a novel selective blocker of ICl,swell and prevents swelling‐induced shortening of guinea‐pig atrial action potential duration

The cardiac K+ channel KCNQ1 is essential for gastric acid secretion

Effects of the chromanol 293B, a selective blocker of the slow, component of the delayed rectifier K+ current, on repolarization in human and guinea pig ventricular myocytes

Heteromeric KCNE2/KCNQ1 potassium channels in the luminal membrane of gastric parietal cells

The role of the IsK protein in the specific pharmacological properties of the IKs channel complex

Flufenamic acid, mefenamic acid and niflumic acid inhibit single nonselective cation channels in the rat exocrine pancreas

Inhibition of IKs in guinea pig cardiac myocytes and guinea pig IsK channels by the chromanol 293B

K V LQT channels are inhibited by the K + channel blocker 293B

Contact Info

Product

Resources

About

DCPIB is a novel selective blocker of I_Cl,swell and prevents swelling‐induced shortening of guinea‐pig atrial action potential duration

The role of the I_sK protein in the specific pharmacological properties of the I_Ks channel complex