Androgens modulate the immune profile in a mouse model of polycystic ovary syndrome

Abstract

AbstractPolycystic ovary syndrome (PCOS) is associated with a low-grade inflammation, but it is unknown how hyperandrogenism, the hallmark of PCOS, affects the immune system. Using a well-established PCOS-like mouse model, we demonstrate that androgen exposure affects immune cell populations in reproductive, metabolic, and immunological tissues differently in a site-specific manner. Co-treatment with flutamide, an androgen receptor antagonist, prevents most of these alterations, demonstrating that these effects are mediated through androgen receptor activation. Dihydrotestosterone (DHT)-exposed mice display a drastically reduced eosinophil population in uterus compared to controls, coupled with lower levels of eotaxin (CCL11), suggesting a reduced recruitment from blood. Decreased frequencies of eosinophils were also seen in visceral adipose tissue (VAT). A higher expression level of CD69, a marker of activation or tissue residency, was consistently found on natural killer (NK) cells in all analyzed tissues. However, a higher frequency of NK cells and elevated levels of IFN-γ and TNF-α were only seen in uteri of androgen-exposed mice, while NK cell frequencies were unaffected in all other analyzed compartments. Distinct alterations of macrophages in ovaries, uterus and VAT were also found in DHT-exposed mice and could potentially be linked to PCOS-like traits of the model. Indeed, androgen-exposed mice were insulin resistant and displayed an aberrant immune profile in VAT, albeit unaltered fat mass. Collectively, we demonstrate that hyperandrogenism causes tissue-specific alterations of immune cells in reproductive organs and VAT, which could have considerable implications on tissue function and contribute to the reduced fertility and metabolic comorbidities associated with PCOS.