Copper status of muskoxen: a comparison of wild and captive populations.

We compared wild muskoxen (Ovibos moschatus) on Banks Island (Northwest Territories, Canada) with captive animals maintained on grass (Bromus sp.) hay and supplemental minerals. We measured copper (Cu) in liver, whole serum, and deproteinated serum (unbound Cu) as well as serum activity of the Cu-enzyme ceruloplasmin.

Costs of gestation in an Arctic ruminant: copper reserves in muskoxen.

The transfer of trace minerals between mother and fetus may be critical for survival of young ruminants especially among species at high latitudes, which gestate during a long winter and grow through a brief summer. We examined the distribution of copper and metalloproteins (ceruloplasmin and metallothionein) in muskoxen and their fetuses, three times during gestation. Hepatic levels of copper were high in mothers (179 microg g(-1) whole tissue) and did not change through gestation, whereas fetuses accumulated large reserves of Cu (>300 microg g(-1)), likely stored in proteins such as metallothionein, during the last third of gestation.

Detection of adducts of bromobenzene 3,4-oxide with rat liver microsomal protein sulfhydryl groups using specific antibodies.

The hepatotoxicity of bromobenzene (BB) has been attributed to covalent modification of cellular proteins by reactive metabolites generated during its oxidative biotransformation. Much of the net covalent binding which occurs originates via quinone metabolites, but bromobenzene 3,4-oxide (BBO), which is the reactive metabolite thought to be most significant toxicologically, also arylates protein side chains, although to a lesser extent. To facilitate the detection, isolation, and identification of rat liver proteins specifically adducted by BBO, we raised polyclonal antibodies capable of recognizing S-(p-bromophenyl)cysteine moieties (anti-BP) by immunizing rabbits with p-bromophenylmercapturic acid conjugated to keyhole limpet hemocyanin.

Identification of a rat liver microsomal esterase as a target protein for bromobenzene metabolites.

The hepatotoxicity of bromobenzene and many other simple organic molecules has been associated with their biotransformation to chemically reactive metabolites and the subsequent covalent binding of those metabolites to cellular macromolecules. To identify proteins targeted by bromobenzene metabolites, we incubated [14C]bromobenzene in vitro with liver microsomes from phenobarbital-induced rats under conditions which typically led to covalent binding of 2-4 nmol equiv of bromobenzene/mg of protein. Microsomal proteins were solubilized with detergent, separated by chromatography and electrophoresis, and analyzed for 14C by phosphorimaging of stained blots.

Detection of benzoquinone adducts to rat liver protein sulfhydryl groups using specific antibodies.

Benzoquinone is an electrophilic metabolite of bromobenzene and other simple aromatic compounds of toxicological interest including benzene, phenol, hydroquinone, and acetaminophen. In reacting with proteins benzoquinone shows great selectivity for Michael addition to sulfhydryl groups and formation of S-(2,5-dihydroxyphenyl) protein adducts. To facilitate the specific detection and eventual isolation and identification of such adducted proteins, we prepared an antiserum capable of recognizing hydroquinone moieties by immunizing rabbits with keyhole limpet hemocyanin modified with 3-[2,5-dihydroxyphenyl)thio]propanoyl groups as haptens.