Covalent binding of haloethylenes.

H. M. Bolt; J. G. Filser; R. J. Laib

Covalent binding of haloethylenes.

H. M. Bolt, J. G. Filser, R. J. Laib

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Abstract

Halogenated ethylenes are metabolized to reactive intermediates which covalently bind to different cellular targets. Vinyl chloride and vinyl bromide metabolites bind to DNA, preferably to N-7 of deoxyguanosine. With RNA, 1,N6-ethenoadenosine and, 3,N4-ethenocytidine moieties are formed. All the haloethylenes in which this effect has been studied form metabolites capable of alkylating proteins, preferably at free sulfhydryl groups. Also, there is alkylation by haloethylene metabolites of cellular coenzymes. An observed increased exhalation of acetone by rats exposed to different haloethylenes can possibly be explained by alkylation of cytosolic coenzyme A. Such metabolic effects may serve as an indicator for reactive metabolite formation in vivo and should be more investigated.

Original language	English
Pages (from-to)	667-683
Number of pages	17
Journal	Advances in Experimental Medicine and Biology
Volume	136 Pt A
State	Published - 1981

Cite this

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title = "Covalent binding of haloethylenes.",

abstract = "Halogenated ethylenes are metabolized to reactive intermediates which covalently bind to different cellular targets. Vinyl chloride and vinyl bromide metabolites bind to DNA, preferably to N-7 of deoxyguanosine. With RNA, 1,N6-ethenoadenosine and, 3,N4-ethenocytidine moieties are formed. All the haloethylenes in which this effect has been studied form metabolites capable of alkylating proteins, preferably at free sulfhydryl groups. Also, there is alkylation by haloethylene metabolites of cellular coenzymes. An observed increased exhalation of acetone by rats exposed to different haloethylenes can possibly be explained by alkylation of cytosolic coenzyme A. Such metabolic effects may serve as an indicator for reactive metabolite formation in vivo and should be more investigated.",

author = "Bolt, {H. M.} and Filser, {J. G.} and Laib, {R. J.}",

year = "1981",

language = "English",

volume = "136 Pt A",

pages = "667--683",

journal = "Advances in Experimental Medicine and Biology",

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T1 - Covalent binding of haloethylenes.

AU - Bolt, H. M.

AU - Filser, J. G.

AU - Laib, R. J.

PY - 1981

Y1 - 1981

N2 - Halogenated ethylenes are metabolized to reactive intermediates which covalently bind to different cellular targets. Vinyl chloride and vinyl bromide metabolites bind to DNA, preferably to N-7 of deoxyguanosine. With RNA, 1,N6-ethenoadenosine and, 3,N4-ethenocytidine moieties are formed. All the haloethylenes in which this effect has been studied form metabolites capable of alkylating proteins, preferably at free sulfhydryl groups. Also, there is alkylation by haloethylene metabolites of cellular coenzymes. An observed increased exhalation of acetone by rats exposed to different haloethylenes can possibly be explained by alkylation of cytosolic coenzyme A. Such metabolic effects may serve as an indicator for reactive metabolite formation in vivo and should be more investigated.

AB - Halogenated ethylenes are metabolized to reactive intermediates which covalently bind to different cellular targets. Vinyl chloride and vinyl bromide metabolites bind to DNA, preferably to N-7 of deoxyguanosine. With RNA, 1,N6-ethenoadenosine and, 3,N4-ethenocytidine moieties are formed. All the haloethylenes in which this effect has been studied form metabolites capable of alkylating proteins, preferably at free sulfhydryl groups. Also, there is alkylation by haloethylene metabolites of cellular coenzymes. An observed increased exhalation of acetone by rats exposed to different haloethylenes can possibly be explained by alkylation of cytosolic coenzyme A. Such metabolic effects may serve as an indicator for reactive metabolite formation in vivo and should be more investigated.

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M3 - Article

C2 - 6178267

AN - SCOPUS:0019738998

SN - 0065-2598

VL - 136 Pt A

SP - 667

EP - 683

JO - Advances in Experimental Medicine and Biology

JF - Advances in Experimental Medicine and Biology

ER -

Covalent binding of haloethylenes.

Abstract

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