Sex differences in mitochondrial (dys)function: Implications for neuroprotection

Demarest, Tyler G.; McCarthy, Margaret M.

doi:10.1007/s10863-014-9583-7

Cited by 135 publications

(76 citation statements)

References 166 publications

(203 reference statements)

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“…Sex differences in behavioral outcome following HI are most likely due to a combination of compensatory mechanisms and sexually dimorphic cell death proclivity (reviewed in Hill and Fitch, 2012; Demarest and McCarthy, 2015). In the current study, we observed a slight, but significant, increase in neuronal cell death in the contralateral hemisphere of the male, but not female, brain following HI (Fig.…”

Section: Discussionmentioning

confidence: 99%

“…Taken together, these results suggest that the male brain is more susceptible to the hypoxia–reperfusion component of HI injury than the female brain. The sexually dimorphic cell death pathways (reviewed in (Hill and Fitch, 2012; Demarest and McCarthy, 2015) likely play a role in the female resilience to hypoxia–reperfusion injury. The female cell death proclivity for caspase-dependent cell death, combined with their higher levels of intrinsic X-linked Inhibitor of apoptosis (XIAP) protein (Hill et al, 2011b), an endogenous caspase inhibitor, may account for the relative resilience of the female brain to hypoxia–reperfusion injury.…”

Section: Discussionmentioning

confidence: 99%

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Sex-dependent mitophagy and neuronal death following rat neonatal hypoxia–ischemia

et al. 2016

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Males are more susceptible than females to long-term cognitive deficits following neonatal hypoxic-ischemic encephalopathy (HIE). Mitochondrial dysfunction is implicated in the pathophysiology of cerebral hypoxia–ischemia (HI), but the influence of sex on mitochondrial quality control (MQC) after HI is unknown. Therefore, we tested the hypothesis that mitophagy is sexually dimorphic and neuroprotective 20–24 h following the Rice–Vannucci model of rat neonatal HI at postnatal day 7 (PN7). Mitochondrial and lysosomal morphology and degree of co-localization were determined by immunofluorescence in the cerebral cortex. No difference in mitochondrial abundance was detected in the cortex after HI. However, net mitochondrial fission increased in both hemispheres of female brain, but was most extensive in the ipsilateral hemisphere of male brain following HI. Basal autophagy, assessed by immunoblot for the autophagosome marker LC3BI/II, was greater in males suggesting less intrinsic reserve capacity for autophagy following HI. Autophagosome formation, lysosome size, and TOM20/LAMP2 co-localization were increased in the contralateral hemisphere following HI in female, but not male brain. An accumulation of ubiquitinated mitochondrial protein was observed in male, but not female brain following HI. Moreover, neuronal cell death with NeuN/TUNEL co-staining occurred in both hemispheres of male brain, but only in the ipsilateral hemisphere of female brain after HI. In summary, mitophagy induction and neuronal cell death are sex dependent following HI. The deficit in elimination of damaged/dysfunctional mitochondria in the male brain following HI may contribute to male vulnerability to neuronal death and long-term neurobehavioral deficits following HIE.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Sex-dependent mitophagy and neuronal death following rat neonatal hypoxia–ischemia

et al. 2016

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“…An essential step in the development of effective neuroprotective therapies is to better understand cell mechanisms that lead to cell death during ischemia and how sex differences impact on these mechanisms. Fundamental cell signaling pathways such as mitochondrial metabolism and apoptotic cascades (Demarest and McCarthy, 2015) have been shown to be different in males and females and more specifically, it is increasingly recognized that the response to cerebral injury in-vivo and in-vitro is at least partially a function of the sex of the cell. These differences in activation of apoptotic pathways also vary with age.…”

Section: Sexually Dimorphic Cellular Mechanisms Relevant In Ischemic mentioning

confidence: 99%

“…This review summarizes sex differences in selected cellular mechanisms that may contribute to clinical differences between male and female stroke patients. These mechanisms include apoptotic signaling cascades in neurons and glia, resident microglial activation, neuro-glial response to ionic imbalance, autophagy, and mitochondrial toxicity (Ahnstedt et al, 2016;Demarest and McCarthy, 2015). Further progress in understanding and manipulating these mechanisms can lead to the identification of endogenous and therapeutic neuroprotective agents with successful clinical applications.…”

Section: Introductionmentioning

confidence: 99%

Sex differences in neuroinflammation and neuroprotection in ischemic stroke

Spychala

Honarpisheh

McCullough

2016

J of Neuroscience Research

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Stroke is not only a leading cause of mortality and morbidity worldwide it also disproportionally affects women. There are currently over 500,000 more women stroke survivors in the US than men, and elderly women bear the brunt of stroke-related disability. Stroke has dropped to the fifth leading cause of death in men, but remains the third in women. This review discusses sex differences in common stroke risk factors, the efficacy of stroke prevention therapies, acute treatment responses, and post-stroke recovery in clinical populations. Women have an increased lifetime risk of stroke compared to men, largely due to a steep increase in stroke incidence in older postmenopausal women, yet most basic science studies continue to only evaluate young male animals. Women also have an increased lifetime prevalence of many common stroke risk factors, including hypertension and atrial fibrillation, as well as abdominal obesity and metabolic syndrome. None of these age-related risk factors have been well modeled in the laboratory. Evidence from the bench has implicated genetic and epigenetic factors, differential activation of cell-death programs, cell-cell signaling pathways, and systemic immune responses as contributors to sex differences in ischemic stroke. The most recent basic scientific findings have been summarized in this review, with an emphasis on factors that differ between males and females that are pertinent to stroke outcomes. Identification and understanding of the underlying biological factors that contribute to sex differences will be critical to the development of translational targets to improve the treatment of women after stroke.

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“…Increased ROS/NOS is well documented in neurodegenerative disorders, such as Parkinson’s, Alzheimer’s, and Huntington’s diseases, and multiple sclerosis (Abou-Sleiman et al, 2006; Beal, 1995, 1998). Also, a recent review article delineates the sex difference in various mitochondrial functions with respect to CNS diseases (Demarest and McCarthy, 2015). …”

Section: Introductionmentioning

confidence: 99%

Sex-dependent mental illnesses and mitochondria

Shimamoto

Rappeneau

2017

Schizophrenia Research

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The prevalence of some mental illnesses, including major depression, anxiety-, trauma-, and stress-related disorders, some substance use disorders, and later onset of schizophrenia, is higher in women than men. While the higher prevalence in women could simply be explained by socioeconomic determinants, such as income, social status, or cultural background, extensive studies show sex differences in biological, pharmacokinetic, and pharmacological factors contribute to females’ vulnerability to these mental illnesses. In this review, we focus on estrogens, chronic stress, and neurotoxicity from behavioral, pharmacological, biological, and molecular perspectives to delineate the sex differences in these mental illnesses. Particularly, we investigate a possible role of mitochondrial function, including biosynthesis, bioenergetics, and signaling, on mediating the sex differences in psychiatric disorders.

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Sex differences in mitochondrial (dys)function: Implications for neuroprotection

Cited by 135 publications

References 166 publications

Sex-dependent mitophagy and neuronal death following rat neonatal hypoxia–ischemia

Sex-dependent mitophagy and neuronal death following rat neonatal hypoxia–ischemia

Sex differences in neuroinflammation and neuroprotection in ischemic stroke

Sex-dependent mental illnesses and mitochondria

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