The effect of a newly developed anti-LH-RH vaccine on the performance, sexual development, and incidence of boar taint-related compounds was investigated in young intact male pigs. At 29 kg BW, 40 crossbred intact males and 20 castrates were allocated to three groups. Castrates and half of the intact males were untreated. The remaining intact males were immunized against LH-RH at 29 kg and again at 89 kg BW. All pigs were slaughtered at 105 kg BW. Compared with control intact males, feed efficiency in castrates was decreased by 10%, muscle content was reduced by 5%, and carcass fat content was increased by 26%. Growth performance and carcass traits did not differ significantly between immunized and control intact males. Genital tract weight, measured at slaughter, was decreased (P < or = .002) by immunization. Plasma testosterone concentrations were not significantly affected at 89 kg BW, whereas they were sevenfold lower (P < .001) in immunized than in control intact males at 105 kg BW. Fat androsterone levels, measured at slaughter, were substantially reduced (P < .001) from .66 +/- .07 microgram/g in control to .21 +/- .01 microgram/g in immunized intact males. Rates of testicular steroid biosynthesis, measured in vitro, were decreased by immunocastration. Fat skatole levels were very low and did not differ significantly between the three groups. The present results demonstrate that anti-LHRH immunization was effective in reducing the level of androstenone, a boar taint-related compound, although having a limited effect on the performance of the animals.
Growth of a selected variant of A431 cells (clone 29) is stimulated by epidermal growth factor (EGF) in contrast to the growth inhibition caused by EGF in an unselected clone, A431(8). Twelve phosphoproteins from each clone were compared to determine whether unique EGF-dependent substrate phosphorylations might explain the cells' differing growth responses to EGF. Treatment of both clone 29 and A431(8) cells with EGF increased phosphorylation of the EGF receptor/kinase and six cellular proteins identified on 2-dimensional polyacrylamide gels. Four of these proteins (the EGF receptor/kinase and proteins of 36, 70, and 81 kd) contained phosphotyrosine in both clone 29 and A431(8) cells, indicating that the same modification of several proteins occurred in cells which have totally different growth responses to EGF. Two proteins were identified whose phosphorylation was EGF dependent and which were unique to clone 29 cells; however, EGF increased phosphorylation of only serine residues in these proteins. This indicates that these proteins are not primary targets of the EGF-dependent tyrosine-specific protein kinase, but rather are substrates for serine-specific kinase(s) activated as a consequence of EGF:receptor interaction. cAMP, which inhibited growth of both clones, was utilized to compare the effects of EGF when the growth response of both cell lines was similar. In the presence of cAMP, EGF increased A431(8) cellular phosphotyrosine content and the phosphorylation of the same phosphotyrosine-containing proteins of both clone 29 and A431(8) cells. The in vivo activity of a second tyrosine-specific protein kinase, p60V -src in B77 Rous sarcoma virus (RSV)-transformed newborn rat kidney (NRK) cells, was also unaffected by cAMP. Thus cAMP did not block the in vivo activity of two tyrosine-specific kinases or the tyrosine phosphorylation of three specific protein substrates. A threshold model of tyrosine kinase activity is proposed as an alternative explanation for the differing growth responses to EGF.
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