Cellular and molecular basis of progesterone-induced neuroportection

MEYER, M; DE NICOLA, AF; LABOMBARDA, F; GARAY, L; GONZÁLEZ DENISELLE MC

Physiological Mini Reviews

Argentinean Physiological Society

Lugar: La plata; Año: 2019 vol. 11 p. 57 - 75

Progesterone exerts several effects in the central nervous system not directly involved inreproduction or sex behavior. Non-reproductive effects are better observed under pathological conditions, and include stimulation of myelin formation, neurogenesis andneurosteroidogenesis, preserved mitochondrial function, neuroprotection, anti-inflammatoryeffects, decreased glutamate excitotoxicity, and regulation of mood, memory and cognition. In addition, the progesterone reduced derivative allopregnanolone shows anxiolytic, sedative and anesthetic properties after binding to GABAa receptors. In the present report we provideexamples of [1] progesterone effects on the local synthesis of steroids (?neurosteroids?) in ademyelination model, [2] the requirement of the classical progesterone receptor for the antiinflammatory effects in mice with spinal cord injury, and [3] the protective role of progesterone and allopregnanolone in a mouse model of neurodegeneration. In conclusion, the beneficial effects observed in different experimental paradigms support the versatile properties of progesterone in animal models of central nervous system disorders.