Heme oxygenase-1 arrests Leydig cells functions and impairs their regulation by histamine

VARELA, MARÍA LUISA; PAGOTTO, ROMINA MARÍA; PIGNATARO, OMAR PEDRO; VARELA, MARÍA LUISA; PAGOTTO, ROMINA MARÍA; PIGNATARO, OMAR PEDRO; RAICES, TRINIDAD; TORRADO, MARÍA FLORENCIA CORREA; MONDILLO, CAROLINA; RAICES, TRINIDAD; MONZÓN, CASANDRA MARGARITA; TORRADO, MARÍA FLORENCIA CORREA; MORENO, MARCOS BESIO; MONDILLO, CAROLINA; PEREYRA1, ELBA NORA; MONZÓN, CASANDRA MARGARITA; MORENO, MARCOS BESIO; PEREYRA1, ELBA NORA

JOURNAL OF MOLECULAR ENDOCRINOLOGY

BIOSCIENTIFICA LTD

Año: 2019 vol. 63 p. 187 - 197

0952-5041

Testicular Leydig cells (LC) are modulated by several pathways, one of them being the histaminergic system. Heme oxygenase-1 (HO-1), whose upregulation comprises the primary response to oxidative noxae, has a central homeostatic role and might dysregulate LC functions when induced. In this report, we aimed to determine how hemin, an HO-1 inducer, affects LC proliferative capacity and whether HO-1 effects on LC functions are reversible. It was also evaluated if HO-1 interacts in any way with histamine, affecting its regulatory action over LC. MA-10 and R2C cell lines and immature rat LC were used as models. Firstly, we show that after a 24-h incubation with 25 µmol/L hemin, LC proliferation is reversibly impaired by cell cycle arrest in G2/M phase, with no evidence of apoptosis induction. Even though steroid production is abrogated after a 48-h exposure to 25 µmol/L hemin, steroidogenesis can be restored to control levels in a time-dependent manner if the inducer is removed from the medium. Regarding HO-1 and histamine interaction, it is shown that hemin abrogates histamine biphasic effect on steroidogenesis and proliferation. Working with histamine receptors agonists, we elucidated that HO-1 induction affects the regulation mediated by receptor types 1, 2 and 4. In summary, HO-1 induction arrests LC functions, inhibiting steroid production and cell cycle progression. Despite their reversibility, HO-1 actions might negatively influence critical phases of LC development and differentiation affecting their function as well as other androgen-dependent organs. What?s more, we have described a hitherto unknown interaction between HO-1 induction and histamine effects.