Menopause is a crucial event in women’s health, characterized by the cessation of ovarian function. The estrogens deficiency exposes women to several diseases, including obesity, osteoporosis, cardiovascular diseases and cancer. Menopause-related diseases deeply impact on women’s quality of life and represent a serious public and economic health burden. The Endocannabinoid System (ECS) includes Cannabinoid Type 1 (CB1) and Cannabinoid Type 2 (CB2) receptors, endocannabinoids and all the enzymes involved in their biosynthesis and degradation. It plays a significant role in energy balance, bone metabolism, muscular contractility, vascular tone and cancer progression. CB1 activation is responsible for increasing food intake and body weight, stimulating osteoclast activity, inhibiting oxidative stress and preventing cancer progression. Conversely, the stimulation of CB2 induces a reduction in food intake and in body weight, inhibits osteoclast activity, prevents vascular risk and reduces cancer cells proliferation. Moreover, several polymorphic variants of cannabinoid receptors genes are involved into obesity and osteoporosis. In menopause, the alteration of cannabinoid receptors expression and endocannabinoids levels as well as their role in hormone-related pathways could act a leading role in different pathologies (obesity, osteoporosis, cardiovascular diseases and cancer). Therefore, ECS could be considered a possible prognostic marker and a therapeutic target to oppose the harmful effects of these menopause-related diseases. In this review we aimed to summarize the current state-of-knowledge concerning the impact of ECS on major health issues of postmenopausal women.
Iron is a trace element essential for several physiological cell functions and any alteration in its metabolism could be associated to the onset of several disorders. Cells normally avoid any dysregulation, activating fine molecular mechanisms to balance iron uptake, utilization, recycling, storage and export. The main “actors” in this event are hepcidin, ferroportin, ferritin and transferrin, both at cell and systemic level. Dysregulation in iron homeostasis is closely related to inflammation onset and perpetuation, osteoporosis and cancer progression. During inflammation, it has been observed a reduction in circulating iron as direct consequence of increase in ferritin levels, aimed to contain inflammatory processes and in many cases to restore the immune response. Iron overload directly promotes bone resorption and inhibits bone formation inducing osteoporosis. Moreover, iron cellular accumulation is responsible for ROS production with consequent DNA damage and neoplastic transformation of cells. In conclusion, even though many molecular mechanisms have to be clarified, targeting iron and also the mediators of its metabolism could be useful to manage a great variety of disorders, such inflammation, immune diseases, osteoporosis and cancer.
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