Magalie Fréchou scite author profile

Treatment with progesterone protects the male and female brain against damage after middle cerebral artery occlusion (MCAO). However, in both sexes, the brain contains significant amounts of endogenous progesterone. It is not known whether endogenously produced progesterone enhances the resistance of the brain to ischemic insult. Here, we used steroid profiling by gas chromatography-tandem mass spectrometry (GC-MS/MS) for exploring adaptive and sex-specific changes in brain levels of progesterone and its metabolites after MCAO. We show that, in the male mouse brain, progesterone is mainly metabolized via 5α-reduction leading to 5α-dihydroprogesterone (5α-DHP), also a progesterone receptor (PR) agonist ligand in neural cells, then to 3α,5α-tetrahydroprogesterone (3α,5α-THP). In the female mouse brain, levels of 5α-DHP and 3α,5α-THP are lower and levels of 20α-DHP are higher than in males. After MCAO, levels of progesterone and 5α-DHP are upregulated rapidly to pregnancy-like levels in the male but not in the female brain. To assess whether endogenous progesterone and 5α-DHP contribute to the resistance of neural cells to ischemic damage, we inactivated PR selectively in the CNS. Deletion of PR in the brain reduced its resistance to MCAO, resulting in increased infarct volumes and neurological deficits in both sexes. Importantly, endogenous PR ligands continue to protect the brain of aging mice. These results uncover the unexpected importance of endogenous progesterone and its metabolites in cerebroprotection. They also reveal that the female reproductive hormone progesterone is an endogenous cerebroprotective neurosteroid in both sexes. The brain responds to injury with protective signaling and has a remarkable capacity to protect itself. We show here that, in response to ischemic stroke, levels of progesterone and its neuroactive metabolite 5α-dihydroprogesterone are upregulated rapidly in the male mouse brain but not in the female brain. An important role of endogenous progesterone in cerebroprotection was demonstrated by the conditional inactivation of its receptor in neural cells. These results show the importance of endogenous progesterone, its metabolites, and neural progesterone receptors in acute cerebroprotection after stroke. This new concept could be exploited therapeutically by taking into account the progesterone status of patients and by supplementing and reinforcing endogenous progesterone signaling for attaining its full cerebroprotective potential.

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Sex differences in brain mitochondrial metabolism: influence of endogenous steroids and stroke

Gaignard

Fréchou

Lière

et al. 2018

J Neuroendocrinology

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Steroids are neuroprotective and a growing body of evidence indicates that mitochondria are a potential target of their effects. The mitochondria are the site of cellular energy synthesis, regulate oxidative stress and play a key role in cell death after brain injury and neurodegenerative diseases. After providing a summary of the literature on the general functions of mitochondria and the effects of sex steroid administrations on mitochondrial metabolism, we summarise and discuss our recent findings concerning sex differences in brain mitochondrial function under physiological and pathological conditions. To analyse the influence of endogenous sex steroids, the oxidative phosphorylation system, mitochondrial oxidative stress and brain steroid levels were compared between male and female mice, either intact or gonadectomised. The results obtained show that females have higher a mitochondrial respiration and lower oxidative stress compared to males and also that these differences were suppressed by ovariectomy but not orchidectomy. We have also shown that the decrease in brain mitochondrial respiration induced by ischaemia/reperfusion is different according to sex. In both sexes, treatment with progesterone reduced the ischaemia/reperfusioninduced mitochondrial alterations. Our findings indicate sex differences in brain mitochondrial function under physiological conditions, as well as after stroke, and identify mitochondria as a target of the neuroprotective properties of progesterone. Thus, it is necessary to investigate sex specificity in brain physiopathological mechanisms, especially when mitochondria impairment is involved. K E Y W O R D Smitochondria, oxidative phosphorylation, oxidative stress, progesterone, sex difference, stroke | INTRODUCTIONThe main function of mitochondria is energy production. Mitochondria play a major role in the nervous system because neurones have a high metabolic rate and do not have a high capacity with respect to energy storage. Mitochondrial dysfunction has devastating consequences because mitochondria are centrally involved in neural cells life. Indeed, mitochondrial energy production is vital to maintain membrane potential in neurones. Mitochondria also play a major role in regulating oxidative stress and in death/survival cell signalling. They are also the site of the first steps of steroidogenesis and increasing evidence indicates that mitochondria are an essential target of the neuroactive effects of steroids, especially oestradiol and progesterone. In this review, we describe the sex differences and the role of sex steroids in brain mitochondrial energy production and oxidative stress. In particular, we summarise our recent work on brain mitochondrial metabolism in both sexes under physiological conditions, as well as after stroke, a pathology characterised by both sexual dimorphism and mitochondrial bioenergetics impairment. | MITOCHONDRIA ARE THE SITE OF ENERGY PRODUCTIONThe energy production by the mitochondria is mediated by three major enzymatic systems: the pyruva...

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Simvastatin in traumatic brain injury: Effect on brain edema mechanisms

Béziaud

Chen

Shafey

et al. 2011

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