G. Olson

Purification and properties of chicken growth hormone and the development of a homologous radioimmunoassay

Highly purified growth hormone (GH) has been isolated from pituitary glands of chicken (Gallus domesticus), and a specific homologous radioimmunoassay (RIA) has also been developed. The purified chicken GH was active in the rat tibia bioassay and it gave a dose-dependent response which paralleled that of the bovine GH standard. High pressure liquid chromatography revealed that the purified chicken GH was homogenous. Chicken GH had an Rf value of 0.2 in disc electrophoresis, and a MW of 26,000 from sodium dodecyl sulfate-gel electrophoresis. The isoelectric point was estimated to be 7.6 by gel isoelectric focusing. The amino acid composition of chicken GH was found to be similar to that of mammalian GH, and the NH2-terminal amino acid was threonine. Partial sequencing (114 amino acids) of the chicken GH showed 79% homology with bovine GH. An antiserum was developed to the purified chicken GH in a rabbit, and it was used to develop a homologous RIA using 125I-labeled chicken GH as the ligand. The purified chicken GH was iodinated via the lactoperoxidase method to a specific activity of approximately 100 microCi/micrograms. Plasma from chickens, medium from incubation of pituitary glands, and homogenates of pituitary glands gave parallel dilution-response curves with the chicken GH standard. Mammalian GH, prolactin (PRL), follicle-stimulating hormone (FSH), and luteinizing hormone (LH) showed no cross-reaction with the 125I-labeled chicken GH. Purified turkey GH showed parallel dose response with the chicken GH, but purified turkey PRL did not cross-react. Chicken FSH and LH also showed no inhibition of binding. The minimum detectable concentration of the assay was 0.93 ng/tube, and the intraassay and interassay coefficients of variation were 9 and 16%, respectively. The specific binding of 125I-labeled chicken GH to a microsomal fraction isolated from chicken liver was identified, and the specific binding was generally low (1-4%). Turkey PRL, and chicken LH and FSH showed no inhibition of the 125I-labeled chicken GH hepatic binding and the ontogeny of the hepatic GH receptor binding sites in male and female chickens was examined.

The antifertility and antiadrenergic actions of thiocarbamate fungicides in laying hens

The effects of the thiocarbamate fungicides, thiram, ziram, ferbam, maneb, and zineb, on norepinephrine synthesis by laying hens were investigated. Inhibition experiments with dopamine beta-hydroxylase purified from chicken adrenals indicated that thiram, ziram, and ferbam are potent competitive inhibitors with the substrate the substrate ascorbate. Maneb and zineb were without effect at comparable concentrations. Experiments investigating the interaction of thiram, ziram, and ferbam with cupric ions suggested that these compounds probably inhibit the enzyme by complexing the fully oxidized copper at its active site. Maneb and zineb also complexed cupric ions in solution and thus their failure to inhibit is not due to their inability to complex copper. When tested in vivo, thiram, ziram, and ferbam at po doses of 2.5 mg/kg or greater significantly reduced the conversion of radioactive dopa, given systemically, to brain norepinephrine. Since they did not affect the uptake of radioactive dopa by the brain or its subsequent decarboxylation within the brain to yield dopamine, these three compounds inhibit cerebral dopamine beta-hydroxylase in vivo. In contrast maneb and zineb at a po dose of 20 mg/kg had no significant effect on brain norepinephrine synthesis. Previously published results (Weppelman et al., Biol. Reprod. 23, 40-46, 1980) demonstrated that thiram, ziram, and ferbam (but not maneb or zineb) have antifertility action in laying hens. The correlation between this action and inhibition of dopamine beta-hydroxylase suggests that the antifertility effects of thiram, ziram, and ferbam might result from their antiadrenergic action. The observation that all doses of thiram in the diet which caused significant antigonadal action when fed to laying hens for 1 week also significantly decreased central and peripheral stores of norepinephrine supports this conclusion.

Antifertilityeffects of clonidine in laying hens

Clonidine was anovulatory and markedly antigonadal in laying hens when infused for 1 week from minipump implants at daily rates of 1.08 mg per hen or greater. The ovaries of hens treated with clonidine responded to FSH injections which suggests that the antigonadal effect of clonidine resulted from a reduction in the output of gonadotropin by the pituitary. These data suggest that α2 receptors may be important in regulating avian fertility.

Eimeria tenella: Specific reversal of t-butylaminoethanol toxicity for parasite and host by choline and dimethylaminoethanol

Abstract t -Butylaminoethanol is an anticoccidial compound that is related structurally to the metabolically active substances, dimethylaminoethanol, and choline. Toxic effects of t -butylaminoethanol for chickens and Eimeria tenella are specifically overcome by feeding sufficient amounts of dimethylaminoethanol or choline. Dietary concentrations of the two above metabolites required to totally overcome toxic effiects of t -butylaminoethanol were determined and are expressed as the reversal ratio, inhibitor ( t -butylamino-ethanol): metabolite. The inhibitor:choline ratio for total reversal of toxic effects of the inhibitor in chickens is approximately 1:10 over a concentration range of inhibitor from 0.019 to 0.05%. The inhibitor:choline ratio for reversal of antiparasitic effects is approximately 1:200 with a concentration of 0.01% inhibitor. The inhibitor:Dimethylaminoethanol ratio for reversal of toxic effects of the inhibitor in the chicken is approximately 1:7 with a concentration of 0.015% inhibitor. The inhibitor:dimethylaminoethanol ratio for reversal of antiparasitic effects is approxmately 1:20 wth a concentration of 0.01% inhibitor.