Effects of long wave ultraviolet radiation on photosensitizing and related compounds. I

Alani, M D

doi:10.1111/j.1365-2133.1973.tb02990.x

Cited by 8 publications

(2 citation statements)

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“…increased binding plus a change in the structure or conflguration of the original compound as a result of UVA irradiation. In experiments with mouse skin, all the HS studied appeared to bind to epidermal components following UVA exposure (Alani, 1973), in spite of apparent unreactivity in EE or basic ethanol solution. The chlorine atom in the 5-position, and bromine atoms in the 3-or 5-position are replaced by hydrogen atoms, while the 5-chlorine and all halogen substituents on the anilide ring are unaffected.…”

Section: Acridine Dyes and Other Compoundsmentioning

confidence: 92%

“…Only salicylanilide and the 3'-chloro substituted HS did not bind to protein, while the binding of the 3',4'-chloro substituted anilide ring was unaffected by UVA. In experiments with mouse skin, all the HS studied appeared to bind to epidermal components following UVA exposure (Alani, 1973), in spite of apparent unreactivity in EE or basic ethanol solution.…”

Section: Acridine Dyes and Other Compoundsmentioning

confidence: 92%

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Effects of long wave ultraviolet radiation on photosensitizing and related compounds. II

Alani

2006

British Journal of Dermatology

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The effects of long wave ultraviolet radiation (320-400 nm) on the binding of twenty-five fluorescent photosensitizing and related compounds to the major saline soluble guinea-pig epidermal proteins were studied. Binding before or after irradiation was detected on polyacrylamide disc gel electrophoresis by correlating the fluorescent migration pattern with the amido black counterstained pattern. Effects were seen only on photo-allergic and structurally related compounds (phenothiazines and halogenated salicylanilides). The binding of five phenothiazine derivatives was detected only after irradiation. Ten of twelve halogenated salicylanilides were bound without irradiation, and eleven were bound following it. Ultraviolet exposure appeared to increase the amount of each halogenated salicylanilide that was bound and/or to alter the existing complex.It was previously shown (Alani, 1973) that long wave ultraviolet radiation (320-400 nm), hereafter referred to as UVA, altered the fluorescence and lengthened the persistence of potential photo-allergic compounds in the skin of mice. These findings suggested that there was an association of the compound with some portion of the epidermis. In this investigation we have studied effects of UVA on the in vitro binding of twenty-five fluorescent photosensitizing and related compounds (Pathak, 1969;Hjorth & Fregert, 1968) to the saline soluble proteins of guinea-pig epidermis. MATERIALS AND METHODS Test compoundsA 1% solution (10 mg/ml) of each compound was made in dimethyl sulphoxide (DMSO). The compounds included five phenothiazines, salicylanilide, twelve halogenated salicylanilides (HS), four acridine dyes, and three other chemically dissimilar compoimds (Table i). The 3,3',4',5-tetrachlorosalicylanilide (TCSA) was also used in a i % solution in acetone and in methanol.

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Section: Acridine Dyes and Other Compoundsmentioning

confidence: 92%

Section: Acridine Dyes and Other Compoundsmentioning

confidence: 92%