Stewart J. Ehrreich scite author profile

n B S T R n C T Smooth muscle of strips of rabbit aorta, placed in a state of active tonic contraction by addition of a stimulating drug, relaxes during exposure to light. The relaxation is reversible. The extent of relaxation produced by a standard exposure depends on the preexposure level of active contraction but not on the nature of the stimulating drug used to produce contraction. With strips brought to an intermediate level of contraction, the degree of relaxation (steady state levels) is a rectangular hyperbolic function of radiation intensity. The kinetics of the relaxation process during irradiation and the recovery process following irradiation are consistent with the hypothesis that the primary photoactivated material initiates a reaction or reactions leading to a product which inhibits some process involved in the production of active contraction. The photorelaxation does not require the presence of oxygen. It is potentiated by reducing the temperature of the aortic strip. The action spectrum of the photorelaxation shows relatively low effectiveness at wavelengths above 450 m#. The effectiveness increases markedly and progressively as the wavelength is lowered below 450 m#, reaching a peak at 310 m#. A deep trough occurs at 280 m#. However, both peak and trough probably result from internal filtering due to absorption by proteins in the aortic strip. It is surmised that if a correction could be made for this internal filtering, the action spectrum would rise continuously down to wavelengths at least as low as 250 m/z. Several years ago the finding was m a d e that contracted strips of rabbit thoracic aorta undergo relaxation when exposed to light of sufficient intensity. In two preliminary reports (Furchgott et al., 1955; Furchgott, 1955) it was pointed out that this photoactivated response differed from others previously reported for smooth muscle (Adler, 1919; A z u m a and Hill, 1926; Azuma, 1927; Supniewski, 1927;Blum, 1941) in the following respects: (a) it could be produced by visible a n d near ultraviolet radiation without the addition of a photosensitizing agent; (b) it occurred in the absence as well as in the presence of oxygen; (c) the response was a reversible relaxation 499

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Relaxation of Mammalian Smooth Muscles by Visible and Ultraviolet Radiation

Ehrreich

Furchgott

1968

Nature

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Synthesis and comparison of some cardiovascular properties of the stereoisomers of labetalol

Gold¹,

Chang²,

Cohen³

et al. 1982

J. Med. Chem.

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A useful method for the separation of labetalol into its two racemic diastereomers, as well as a stereoselective synthesis of its four stereoisomers, is described. The absolute stereochemistry of each isomer was determined by analysis of the DC spectra and confirmed by X-ray analysis. The alpha- and beta 1-adrenergic blocking properties, as well as the relative antihypertensive activities, have been measured in rats. The R,R isomer, 2a (SCH 19927), possesses virtually all of the beta 1-blocking activity elicited by labetalol and displays little alpha-blocking activity. In contrast, the S,R isomer, 3a, has most of the alpha-blocking activity. Of the four isomers, only 2a has antihypertensive potency comparable to that of labetalol. These findings, coupled with published data showing that labetalol possesses beta-adrenergic mediated peripheral vasodilating activity deriving essentially from its R,R isomer, lead to the following conclusion: The antihypertensive activity of labetalol can be ascribed to at least three identified complementary mechanisms, beta-adrenergic blockade, beta-adrenergic mediated vasodilatation, and alpha-adrenergic blockade, whereas the antihypertensive activity of 2a derives from the first two mechanisms only.

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Dihydropyridines with potent hypotensive activity prepared by the Hantzsch reaction

Loev¹,

Ehrreich²,

Tedeschi³

1972

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