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Molecular Mechanisms of Reappearance of Luteinizing Hormone Receptor Expression and Function in Rat Testis after Selective Leydig Cell Destruction by Ethylene Dimethane Sulfonate¹

Department of Physiology, University of Turku, 20520 Turku, Finland

Address all correspondence and requests for reprints to: Ilpo Huhtaniemi, Department of Physiology, University of Turku, Kiinamyllinkatu 10, 20520 Turku, Finland. E-mail: ilpo.huhtaniemi{at}utu.fi

Considering the major role of LH in the control of Leydig cell (LC) development and function, we aimed to characterize further the pattern of LH receptor (LHR) expression in two experimental paradigms: the rat treated with ethylene dimethane sulfonate (EDS), in which the selective destruction of preexisting mature LCs induces the proliferation and differentiation of newly formed LCs, a process that takes place in the presence of high levels of gonadotropins; and the EDS-rat treated with a high dose of testosterone (EDS + T), in which the LH secretion is suppressed, and consequently LC development after EDS arrested. In EDS rats, serum T was suppressed and testicular LHR binding became undetectable on days 5 and 15 after treatment. The pattern of LHR messenger RNA (mRNA) expression was profoundly modified: only one of the splice variants [1.8-kilobase (kb)] persisted, whereas the others disappeared. On days 20 and 45 after EDS, along with LC repopulation, serum T and LHR binding recovered, and the pattern of LHR mRNA expression gradually returned to that resembling controls. In EDS + T rats, a similar drop in testicular LHR binding and change in the pattern of LHR mRNA expression was detected on days 5 and 15 after treatment. However, on days 20 and 45, no recovery either in LHR binding or in expression of the longer LHR mRNA splice variants was observed, showing that LH is needed to induce LHR expression in repopulating LCs, at least to a quantitatively significant level. To gain further insight into the mechanism(s) by which LH acts on LC precursors, the translational status of the 1.8-kb LHR transcript, persistently expressed after EDS, was analyzed and compared with that of the 6.8-kb message. In polysome distribution analysis of total testicular RNA, the 6.8-kb LHR message was highly associated with polysomes, whereas the 1.8-kb variant was mainly localized to prepolysomal fractions, both in control and EDS testes, thus predicting lower translational efficiency. In addition, considering that only LCs express LHRs in the testis, the time course of the reappearance of functional receptors was mapped by evaluating testicular responsiveness to human recombinant LH in vitro. No response to LH stimulation was detected 5 days after EDS. However, cAMP response to LH was observed on days 15 and 20, regardless of the presence of high (EDS) or suppressed (EDS + T) LH in the donor animal. Hence, the appearance of functional LHRs, qualitatively, can take place in the absence of measurable LH levels. In EDS-treated rats, the appearance of the cAMP response coincided with those of pregnenolone, progesterone, and T. In contrast, no LH-induced steroid release was observed in EDS + T rats, indicating that steroidogenic response in developing LC requires LH priming. In conclusion, the appearance of functional LHRs, at a low level of expression, in LC precursors is an LH-independent developmental event, essential for the subsequent LH-dependent maturational steps, including the onset of steroidogenesis and increased LHR expression. In addition, our results cast doubt on a major functional role of the truncated (1.8-kb) form of LHR mRNA, which persists after EDS at a high level of expression, in the early Leydig cell precursors.

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