Abstract

The conceptualization of polycystic ovary syndrome (PCOS) has primarily focused on hormonal alterations driven by changes within the hypothalamus and ovarian granulosa cells, with treatment by the contraceptive pill and weight loss. However, a growing body of data implicates wider systemic and central nervous system (CNS) changes in the pathoetiology and pathophysiology of PCOS, with consequent implications for targeted treatments. It is proposed that there is a significant role for night-time interactions of factors acting to regulate whether the rising level of cortisol over the night and during the morning cortisol awakening response (CAR) is able to induce the nuclear translocation of the glucocorticoid receptor (GR), thereby influencing how the immune and glial systems regulate cellular function in preparation for the coming day. Factors affording protection in PCOS also inhibit GR nuclear translocation including gut microbiome-derived butyrate, and pineal/local melatonin as well as melatonin regulated bcl2-associated athanogene (BAG)-1. A significant pathophysiological role in PCOS is attributed to the aryl hydrocarbon receptor (AhR), which shows heightened levels and activity in PCOS. The AhR is activated by ligands of many systemic processes, including white adipocyte-derived kynurenine, implicating obesity in the pathophysiological changes occurring in the hypothalamus and ovaries. AhR activation has consequences for the physiological function in the hypothalamic paraventricular nucleus, granulosa cells and adipocytes, partly mediated by AhR upregulation of the mitochondrial N-acetylserotonin/melatonin ratio, thereby decreasing melatonin availability whilst increasing local stress plasticity in the paraventricular nucleus. This article reviews in detail the wider systemic and CNS changes in PCOS highlighting interactions of local and pineal melatonergic pathway, gut microbiome-derived butyrate, white adipocyte-derived kynurenine, the hypothalamic paraventricular nucleus tanycytes/astrocytes, and the hypothalamus-pituitary-adrenal (HPA) axis driven glucocorticoid receptor activation in PCOS pathophysiology. This integrates a wide array of previously disparate data on the biological underpinnings of PCOS, including how PCOS associates with many other currently classified medical conditions, such as depression, bipolar disorder, type 1 diabetes mellitus and the autism spectrum. Numerous future research and treatment implications are detailed.

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