TRPM2 channel activation following in vitro ischemia contributes to male hippocampal cell death

Verma, Saurabh; Quillinan, Nidia; Yang, Yi Tien; Nakayama, Shin; Cheng, Jian; Kelley, Melissa H.; Herson, Paco S.

doi:10.1016/j.neulet.2012.09.044

Cited by 56 publications

(78 citation statements)

References 24 publications

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“…The mechanism of neuroprotection by female sex steroids is primarily through inhibition of caspase dependent cell death, which is the dominant form of cell death in females (Liu et al, 2009; Liu et al, 2011). Our results obtained with TRPM2 KO demonstrating neuroprotection in male but not female mice are consistent with our previously published observations that activation of TRPM2-mediated cell death following cerebral ischemia is male specific (Jia et al, 2011; Verma et al, 2012; Nakayama et al, 2013; Shimizu et al, 2013; Quillinan et al, 2014). These results demonstrate for the first time male specificity of TRPM2 using genetic knockouts in global ischemia, and are consistent male specific neuroprotection with administration of AGK2 following CA/CPR.…”

Section: Discussionsupporting

confidence: 93%

“…Relevant to the male-specific PARP-mediated cell death pathway, we have recently demonstrated that the calcium-permeable ion channel transient receptor potential channels, M2 (TRPM2) contributes to male-specific injury following cerebral ischemia in a PARP-dependent manner (Shimizu et al, 2013). Inhibition or knock-down of TRPM2 is protective in males, but not females using in vitro and in vivo models of cerebral ischemia (Jia et al, 2011; Verma et al, 2012; Nakayama et al, 2013; Quillinan et al, 2014). A distinguishing property of TRPM2 channels is that they are gated by ADP ribose (ADPr), likely generated following the activation of PARP (Fonfria et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

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Sirtuin-2 mediates male specific neuronal injury following experimental cardiac arrest through activation of TRPM2 ion channels

Shimizu

Quillinan

Orfila

et al. 2016

Experimental Neurology

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Objective Sirtuins (Sirt) are a class of deacetylase enzymes that play an important role in cell proliferation. Sirt2 activation produces O-acetylated-ADPribose (OAADPr) which can act as a ligand for transient receptor potential cation channel, M2 (TRPM2). We tested the hypothesis that Sirt2 is activated following global cerebral ischemia and contributes to neuronal injury through activation of TRPM2. Methods Adult male and female mice (8–12 weeks old) C57Bl/6 and TRPM2 knock-out mice were subjected to 8 min of cardiac arrest followed by cardiopulmonary resuscitation (CA/CPR). The Sirt2 inhibitor AGK-2 was administered intravenously 30 min after resuscitation. Hippocampal CA1 injury was analyzed at 3 days after CA/CPR. Acute Sirt2 activity was analyzed at 3 and 24 h after CA/CPR. Long-term hippocampal function was assessed using slice electrophysiology 7 days after CA/CPR. Results AGK-2 significantly reduced CA1 injury in WT but not TRPM2 knock-out males and had no effect on CA1 injury in females. Elevated Sirt2 activity was observed in hippocampal tissue from males at 24 h after cardiac arrest and was reduced by AGK-2. In contrast, Sirt2 activity in females was increased at 3 but not 24 h. Finally, we observed long-term benefit of AGK-2 on hippocampal function, with a protection of long-term potentiation at CA1 synapses at 7 and 30 days after ischemia. Conclusions In summary, we observed a male specific activation of Sirt2 that contributes to neuronal injury and functional deficits after ischemia specifically in males. These results are consistent with a role of Sirt2 in activating TRPM2 following global ischemia in a sex specific manner. These results support the growing body of literature showing that oxidative stress mechanisms predominate in males and converge on TRPM2 activation as a mediator of cell death.

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Section: Discussionsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Sirtuin-2 mediates male specific neuronal injury following experimental cardiac arrest through activation of TRPM2 ion channels

Shimizu

Quillinan

Orfila

et al. 2016

Experimental Neurology

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“…TRPM2 (Verma et al, 2012), TRPM4 (Loh et al, 2014), and TRPM7 have been implicated in ischemic brain injury (reviewed in Aarts and Tymianski, 2005;Bae and Sun, 2013). In vivo siRNA-mediated silencing of TRPM4 reduces brain infarct volume by half and facilitates functional recovery in rats with middle cerebral artery occlusion (Loh et al, 2014).…”

Section: Trp Channels As Drug Targetsmentioning

confidence: 99%

Transient Receptor Potential Channels as Drug Targets: From the Science of Basic Research to the Art of Medicine

2014

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“…TRPM2 channels are present in both males and females at similar levels in cultured hippocampal neurons. However, electrophysiological evidence (Verma et al 2012) and reductions in cell death by TRPM2 pharmacological or shRNA inhibition in an in vivo model of stroke, (Jia et al 2011) or shRNA knockdown following in vitro oxygen glucose deprivation (OGD), (Verma et al 2012) indicate that TRPM2 channels are only activated in males following injury. Contrarily, peroxide mediated in vitro toxicity shows no sex difference in cell death and TRPM2 inhibition is neuroprotective in both sexes (Verma et al 2012) suggesting greater oxidative stress and/or PAR/ADPr generation in males following injury contributes to sex differences in TRPM2 mediated cell death.…”

Section: Excitotoxicity and Calciummentioning

confidence: 99%

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

Demarest

McCarthy

2014

J Bioenerg Biomembr

137

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Decades of research have revealed numerous differences in brain structure size, connectivity and metabolism between males and females. Sex differences in neurobehavioral and cognitive function after various forms of central nervous system (CNS) injury are observed in clinical practice and animal research studies. Sources of sex differences include early life exposure to gonadal hormones, chromosome compliment and adult hormonal modulation. It is becoming increasingly apparent that mitochondrial metabolism and cell death signaling are also sexually dimorphic. Mitochondrial metabolic dysfunction is a common feature of CNS injury. Evidence suggests males predominantly utilize proteins while females predominantly use lipids as a fuel source within mitochondria and that these differences may significantly affect cellular survival following injury. These fundamental biochemical differences have a profound impact on energy production and many cellular processes in health and disease. This review will focus on the accumulated evidence revealing sex differences in mitochondrial function and cellular signaling pathways in the context of CNS injury mechanisms and the potential implications for neuroprotective therapy development.

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TRPM2 channel activation following in vitro ischemia contributes to male hippocampal cell death

Cited by 56 publications

References 24 publications

Sirtuin-2 mediates male specific neuronal injury following experimental cardiac arrest through activation of TRPM2 ion channels

Sirtuin-2 mediates male specific neuronal injury following experimental cardiac arrest through activation of TRPM2 ion channels

Transient Receptor Potential Channels as Drug Targets: From the Science of Basic Research to the Art of Medicine

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

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