Potassium opener

Iodine is a dark-coloured solid which has a glittering crystalline appearance. It is easily sublimed to form a bluish vapour in vacuo. but in air, the vapour is brownish-violet. Since it has a small vapour pressure at ordinary temperatures, iodine slowly sublimes if left in an open vessel for the same reason, iodine is best weighed in a stoppered bottle containing some potassium iodide solution, in which the iodine dissolves to form potassium tri-iodide. The vapour of iodine is composed of I2 molecules up to about 1000 K above this temperature, dissociation into iodine atoms becomes appreciable. 

The "zip-reaction (U. Kramer, 1978, 1979) leads to giant macrocycles. Potassium 3- ami-nopropyl)amide = KAPA ( superbase ) in 1,3-diaminopropane is used to deprotonate amines. The amide anions are highly nucleophilic and may, for example, be used to transam-idate carboxylic amides. If N- 39-atnino-4,8,12,16,20,24,28,32,36-nonaazanonatriacontyl)do-decanolactam is treated with KAPA, the amino groups may be deprotonated and react with the macrocyclic lactam. The most probable reaction is the intramolecular formation of the six-membered ring intermediate indicated below. This intermediate opens spontaneously to produce the azalactam with seventeen atoms in the cycle. This reaction is repeated nine times in the presence of excess KAPA, and the 53-membered macrocycle is formed in reasonable yield. 

Refluxing, 5.6-dihydro-7H-thiazolo[3,2-a]pyrimidine-7-one (370j with isopropylamine led to 2-imino-3-[2-(isopropylaminocarbonyl)ethyl]-thiazoline (371) (108). Similarly. tetrahydrobenzothiazolo[3,2-fl][2.3-f>]-quinazoline is opened by potassium hydroxide, yielding 373 (Scheme 214)... 

Spironolactone is the most clinically usehil steroidal aldosterone antagonist, and unlike GR antagonists, this compound is utilized much more frequendy than aldosterone agonists. Interfering with reabsorption and secretion in the late distal segment, this compound is predominantiy used with other diuretics. Canrenone, an olefinic metaboHte of spironolactone, and potassium canrenoate, in which the C-17 lactone has been hydrolyzed open, are also potent mineralocorticoid antagonists. 

From Multiring Systems Containing Pyrazoles. The pyrazolopyrimidine (65) on treatment with diazomethane forms the cyclopropane (66), which undergoes a ring-opening reaction with potassium hydroxide to yield the pyrazole (67) (eq. 16) (44). 

Methylpyridinium quaternary salts, such as (12), undergo oxidation in alkaline solution in the presence of potassium ferricyanide to give 2-pyridones, eg, A/-methyl-2-pyridone [694-85-9] (16). Frequendy nucleophilic attack at position 2 by excess hydroxide leads to ring opening this and synthetically useful recycli2ations have been reviewed (17). 

Anatase and mtile are produced commercially, whereas brookite has been produced by heating amorphous titanium dioxide, which is prepared from an alkyl titanate or sodium titanate [12034-34-3] with sodium or potassium hydroxide in. an autoclave at 200—600°C for several days. Only mtile has been synthesized from melts in the form of large single crystals. More recentiy (57), a new polymorph of titanium dioxide, Ti02(B), has been demonstrated, which is formed by hydrolysis of K Ti O to form 20, followed by subsequent calcination/dehydration at 500°C. The relatively open stmcture... 

The resting membrane potential of most excitable cells is around —60 to —80 mV. This gradient is maintained by the activity of various ion channels. When the potassium channels of the cell open, potassium efflux occurs and hyperpolari2ation results. This decreases calcium channel openings, which ia turn preveats the influx of calcium iato the cell lea ding to a decrease ia iatraceUular calcium ia the smooth muscles of the vasculature. The vascular smooth muscles thea relax and the systemic blood pressure faUs. 

Vasodilators having potassium channel opener activity relax smooth muscle ia low (5—20 mM) K+ coaceatratioa but aot ia high (>80 mAf)K + solutioa, and glibenclamide [10238-21-8] should be able to reverse the iaduced relaxation (242,245—249). They also iacrease potassium efflux. 

There are at least 13 primary types of K+ channels known. In addition, within each type there are several subtypes. The best known chemical classes of potassium channel openers are nicorandil, piaacidil, and cromakalim. They are aU potent smooth muscle relaxants. PharmacologicaUy, they behave as classical vasodilators, lowering blood pressure and causiag tachycardia and fluid retention. 

Nicorandil. Nicorandil is a potassium channel opener that can lower blood pressure 21, 20, and 29 mm Hg after single oral doses of 10, 20, and 30 mg, respectively (250). There are no significant changes ia heart rate. Headache is the primary side effect. Nicorandil has potent coronary vasodilator effects. It causes sustained vasodilation of arteriolar resistance and venous capacitance blood vessels, thus reduciag cardiac preload and aftedoad. 

Pinacidil. Piaacidil is a poteat vasodilator, actiag through potassium channel opening effects (242,251—253). Its antihyperteasive effect is greater than that of hydrala2iae and pra2osia ia chronic treatmeat. Its fast oaset of actioa also makes it suitable for use ia hyperteasive crisis. 

Astringents are designed to dry the skin, denature skin proteins, and tighten or reduce the size of pore openings on the skin surface. These products can have antimicrobial effects and are frequendy buffered to lower the pH of skin. They are perfumed, hydro-alcohoHc solutions of weak acids, such as tannic acid or potassium alum, and various plant extracts, such as bitch leaf extract. The alcohol is not only a suitable solvent but also helps remove excess sebum and soil from the skin. After-shave lotions generally function as astringents. 

Potassium t-butoxide in t-butyl alcohol requires powerful electron-attracting substituents at C-4 to effect ring opening of pyrazoles but sodamide does not (Scheme 26) (B-76MI40402). As the key to the transformation is the generation of the anion, similar results were obtained by heating some pyrazole-3-carboxylic acids with quinoline. 

Pyrazoles can be prepared by ring opening reactions of fused systems already containing the pyrazole nucleus. Thus several [5.5], [5.6] and [5.7] fused heterocycles have been opened to substituted pyrazoles, usually in basic medium. In general, the method has little preparative interest since another pyrazole derivative has usually been used to build the ring-fused system. However, due to the unexpected structures obtained, two publications are worthy of notice. 6//-Cyclopropa[5a,6a]pyrazolo[l,5-a]pyrimidine (638) was readily obtained from the corresponding pyrazolopyrimidine by the action of diazomethane at room temperature (Scheme 59) (81H(15)265). When (638) was treated with potassium hydroxide, the pyrazole (640) was formed, probably via the diazepine (639). 

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