Brune Me scite author profile

Brune Me

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88Citation Statements Given

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Discovery Laboratories (United States), Abbott (United States)

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Characterization of a novel ATP‐sensitive K⁺ channel opener, A‐251179, on urinary bladder relaxation and cystometric parameters

et al. 2007

British J Pharmacology

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Background and Purpose: ATP-sensitive K þ channels (K ATP ) play a pivotal role in contractility of urinary bladder smooth muscle. This study reports the characterization of 4-methyl-N-(2,2,2-trichloro-1-(3-pyridin-3-ylthioureido)ethyl)benzamide (A-251179) as a K ATP channel opener. Experimental Approach: Glyburide-sensitive membrane potential, patch clamp and tension assays were employed to study the effect of A-251179 in vitro. The in vivo efficacy of A-251179 was characterized by suppression of spontaneous contractions in obstructed rat bladder and by measuring urodynamic function of urethane-anesthetized rat models. Key Results: A-251179 was about 4-fold more selective in activating SUR2B-Kir6.2 derived K ATP channels compared to those derived from SUR2A-Kir6.2. In pig bladder smooth muscle strips, A-251179 suppressed spontaneous contractions, about 27-and 71-fold more potently compared to suppression of contractions evoked by low-frequency electrical stimulation and carbachol, respectively. In vivo, A-251179 suppressed spontaneous non-voiding bladder contractions from partial outletobstructed rats. Interestingly, in the neurogenic model where isovolumetric contractions were measured by continuous transvesical cystometry, A-251179 at a dose of 0.3 mmol kg -1 , but not higher, was found to increase bladder capacity without affecting either the voiding efficiency or changes in mean arterial blood pressure. Conclusions and Implications: The thioureabenzamide analog, A-251179 is a potent novel K ATP channel opener with selectivity for SUR2B/Kir6.2 containing K ATP channels relative to pinacidil. The pharmacological profile of A-251179 is to increase bladder capacity and to prolong the time between voids without affecting voiding efficiency and represents an interesting characteristic to be explored for further investigations of K ATP channel openers for the treatment of overactive bladder.

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2-(Alkylamino)nicotinic acid and analogs. Potent angiotensin II antagonists

Winn

De²,

Tm³

et al. 1993

J. Med. Chem.

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A series of pyridines and other six-membered ring heterocycles connected to a biphenyltetrazole with a -CH2-NR'-link (1) were discovered to be potent angiotensin II antagonists. In the pyrimidine carboxylic acid series (W = CR, X = N, Y = CH, Z = COOH), compounds with an alkyl group (R') on the exocyclic nitrogen were much more potent than compounds with an alkyl group (R) on the heterocyclic ring. The corresponding pyridine, pyridazine, pyrazine, and 1,2,4-triazine carboxylic acids also showed potent in vitro angiotensin II antagonism. The pyridine (W, X, Y = CH, Z = COOH, R' = n-C3H7) demonstrated potent in vitro activity (pA2 = 10.10, rabbit aorta, and Ki = 0.61 nM, receptor binding in rat liver) as well as exceptional oral antihypertensive activity and bioavailability. Any nonacidic replacement for the carboxylic acid was detrimental for activity.

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Brune Me

Characterization of a novel ATP‐sensitive K⁺ channel opener, A‐251179, on urinary bladder relaxation and cystometric parameters

2-(Alkylamino)nicotinic acid and analogs. Potent angiotensin II antagonists

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Brune Me

Characterization of a novel ATP‐sensitive K+ channel opener, A‐251179, on urinary bladder relaxation and cystometric parameters

2-(Alkylamino)nicotinic acid and analogs. Potent angiotensin II antagonists

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Characterization of a novel ATP‐sensitive K⁺ channel opener, A‐251179, on urinary bladder relaxation and cystometric parameters