Lactogenic receptors from rat liver microsomal fraction ('microsomes') were extracted by treatment with 1% (w/v) Triton X-100. Triton X-100 exerts an inhibitory effect on both the binding reaction and the separation of the free hormone from the complex. The association and dissociation of 125I-labelled human somatotropin are time- and temperature-dependent processes. The association rate constant, k1, is 6.7 x 10(6) mol . litre-1 . min-1 at 25 decrees C, and the dissociation rate constant, k-1, is 1.1 x 10(-3) min-1 at 25 degrees C. Scatchard analysis of saturation data reveals the existence of a single class of receptors and that solubilization leads to a slight decrease in affinity and a sharp increase in binding capacity. The dissociation constant, Kd, of the solubilized preparation is 0.22 nM and the binding capacity 2900 fmol/mg of protein. Similar results were obtained from competition experiments. Binding of 125I-labelled human somatotropin to the solubilized receptors is specifically inhibited by hormones with lactogenic activity. Incubation of the solubilized preparation with trypsin resulted in an 80% decrease in binding activity. The solubilized form of the receptor has a slightly increased sensitivity to the inactivation by trypsin, heat and extremes of pH, with respect to the membrane-bound form.
Although non-innervated, the placenta contains both cholinesterases (ChEs), butyrylcholinesterase (BChE) and acetylcholinesterase (AChE). These enzymes are well-known for their multiple molecular forms. In a first approach, we used recognized specific inhibitors, substrate preferences and non-denaturating gel electrophoresis in order to characterize the ChE profile of term placenta from uncomplicated pregnancy. Results strongly suggest that the predominant cholinesterasic form present was tetrameric BChE.It is well established that both ChEs are targets of cholinesterase-inhibiting organophosphates (OP), one of the most important classes of chemicals actively applied to the environment. However, we have previously reported increased ChEs activity in placenta of rural residents exposed to OP. In the present work, we have studied: 1) whether this finding was reproducible and, 2) whether AChE or BChE up regulation is behind the increase of placental ChE activity. The population studied included forty healthy women who live in an agricultural area. Samples were collected during both the OP pulverization period (PP) and the recess period (RP). The placental ChEs activity increased in PP, evidencing reproducibility of previous results. The analysis of non-denaturating gels revealed that increased activity of total ChE activity in placenta from women exposed to OP may be attributable to tetrameric BChE up-regulation.
Specific binding of 125I-labelled human somatotropin was demonstrated in microsomal membranes (microsomes) from rat and rabbit kidneys. Female rabbit kidney microsomes showed the highest binding activity and were used for further study. The association of 125I-labelled human somatotropin was time- and temperature-dependent and the binding reaction was reversible. Scatchard analysis of saturation data indicated a dissociation equilibrium constant, KD, of 56 pM and a binding capacity of 37 fmol per mg of protein. Similar results were obtained from competition experiments. Binding of 125I-labelled human somatotropin to the microsomes was specifically inhibited by hormones with lactogenic activity. The binding sites, as well as 125I-labelled human somatotropin, were not inactivated on incubation. Treatment of the microsomes with trypsin and chymotrypsin decreased the specific binding by over 90%. Preheating of the microsomes at 55 degrees C for 15 min abolished 50% of the specific binding activity.
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