Dehalogenation of Substituted Pyrimidines in oiuol - ACS Publications

UNIVERSITY OF KANSAS SCHOOL OF MEDICINE]. Dehalogenation of Substituted Pyrimidines in oiuol. BY HAROLD W. BARRETT AND ROBERT A. WEST...
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HAROLD W. BARRETTAND ROBERTA. [CONTRIBUTION FROM THE

WEST

DEPARTMENT O F BIOCHEMISTRY, UNIVERSITY

OF

Vol. 78

KANSAS SCHOOL OF MEDICINE]

Dehalogenation of Substituted Pyrimidines in oiuol BY HAROLD W. BARRETTAND ROBERTA. WEST RECEIVED OCTOBER 7 , 1955 This work was undertaken to investigate the reported deiodination of 5-iodothiouracil t o produce thiouracil in dogs and humans. A number of 5-iodo- and 5-bromopyrimidines have been found t o undergo the same type of dehalogenation in the rat, and reasons are given for assuming that the nuclear dehalogenations proceed via an elimination reaction following metabolic reduction of the 5: 6 double bond,

Introduction I t has been found that 5-iodothiouracil undergoes partial deiodination in dogs? and humans3in such a way as to produce thiouracil in the urine. On chemical grounds, this kind of deiodination would not be expected, since 5-halogeno substituents in rings of this type are markedlj- inert so long as the 5 : 6 double bond remains intact, and can be displaced only by vigorous chemical treatment. 4,5 Tissue preparations, as described by Bray, et u I . , ~ for nonenzymatic sulfhydryl displacement of chlorine in organic compounds, have no effect on 3-iodothiouracil. It is necessary to assume, therefore, that the compound is altered metabolically in some way prior to deiodination, despite the fact that i t represe'nts an abnormal substrate. Hence, the object of this work was to determine whether iiz vivo dehalogenation of the kind described is specific either for iodo derivatives, or for a particular pyrimidine ring, and to make some study of the dehalogenation mechanism. By testing a number of 5-halogenopyrimidines in intact rats, it was found that a number of iodo and bromo (but not chloro) derivatives undergo some degree of dehalogenation in vivo, and in every instance the over-all result could be represented as replacement of halogen by hydrogen. In considering the possible mechanisms for such a replacement, the formation of dihydropyrimidines seemed an attractive hypothesis, and was justified by recent findings regarding the metabolic products of uracil and t h ~ m i n e ,the ~,~ demonstration of an orotic acid reductaseJgand the occurrence of dihydrouracil in beef spleen. lo The dihydropyrimidines undergo ring hydrolysis in dilute sodium hydroxide solution to give ureido acids,11but some time ago Fischer and Roeder found that 3-bromo-6-methylhydrouracil spontaneously eliminates hydrogen bromide in (1) Supported b y grants from the S a t i o n a l Institutes of Health, Public Health Service, and from t h e General Research Fund of t h e University of Kansas. Abstracted in p a r t f r n m t h e P h D. Thesis of R . A . West. (2) A . I,. Plummer, Fedevation P Y O ~9., ,809 (1950). ( 3 ) E . Klein, Klin Wochschr , 21, 17 (1953). (4) 1%. I,. B'heeler and H. F. XIerriam, .4m. Chem. J., 29, 486 (1903). ( 2 ) H. W .Barrett, I. Goodman a n d K . Dittmer, T H I S J O U R X A L , 70, 1733 (1Rl8). ( 6 ) H. 0 . Bray, 1%'. V. T h < t r ] xand 1). i;.Vallance, Biociierti. I.,51, l l r 3 (19,52). ( 7 ) K a y F i n k , R. T3 Ilenderson .tn s . , 3 5 , 408 (19,>2). I K \ l ; t r l i j j , I \ I 1 ) I r 1 , ~ . ~ t 1 ~ ~ 1I 1 \ r l l r r . t v ' I ' n r s J