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  • Title: Effect of lutropin and cycloheximide on lutropin receptors and cyclic AMP production in Leydig tumour cells in vitro.
    Author: Dix CJ, Cooke BA.
    Journal: Biochem J; 1981 Jun 15; 196(3):713-9. PubMed ID: 6274319.
    Abstract:
    A system to study lutropin-induced desensitization of tumour Leydig cells in vitro has been investigated. Tumour Leydig cells were purified on a Percoll gradient and then incubated for 30 min with lutropin (0-1000ng/ml). The cells were then washed and incubated in suspension media at 32 degrees C. 125I-labelled human choriogonadotropin binding and basal and lutropin-stimulated cyclic AMP production were determined at various times. Initially the cells showed a dose-dependent decrease in human choriogonadotropin binding (1.18 and 0.13fmol/10(6) cells respectively) followed by an increase at 1 h (2.32 and 0.87fmol/10(6) cells respectively). Human choriogonadotropin binding remained elevated in the cells pre-incubated without lutropin, whereas the cells pre-incubated with lutropin showed a dose-dependent decrease over the next 10 h (2.20-0.18fmol/10(6) cells respectively). Basal production of cyclic AMP initially reflected the pre-incubation conditions (1.17-21.19ng/10(6) cells per h for 0-1000ng of lutropin/ml respectively). However, by 1 h there was a marked rise in basal cyclic AMP production which returned to the initial lower values by 4 h. At all time intervals studied, lutropin-induced cyclic AMP production showed a decrease that was proportional to lutropin concentration in the pre-incubated media. The decreases in human choriogonadotropin binding produced by pre-incubations with lutropin (100ng/ml) was partially inhibited by the presence of cycloheximide in the pre-incubation media and totally prevented by the continuous presence of cycloheximide. These results demonstrate that desensitization of tumour Leydig cells occurs after exposure to lutropin in vitro. This desensitization involves both a loss of plasma membrane receptors for lutropin and lutropin-stimulated adenylate cyclase. These events can be prevented by cycloheximide and are therefore probably dependent on protein synthesis.
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