Sigma-1 Receptor Activation Prevents Intracellular Calcium Dysregulation in Cortical Neurons during in Vitro Ischemia

Katnik, Christopher; Guerrero, Waldo R; Pennypacker, Keith R.; Herrera, Yelenis; Cuevas, Javier

doi:10.1124/jpet.106.107557

Cited by 101 publications

(106 citation statements)

References 37 publications

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“…In vitro studies revealed potent neuroprotective effects of sigma-1R agonists after excitotoxic damage [18], hypoxia-mediated neurotoxicity [41], oxidative stress-induced cell death [17], or glucose deprivation [42]. In vivo studies demonstrated that sigma-1R agonists exert therapeutic actions in rats after stroke [19,20], after selective cholinergic lesions [43], and after spinal root avulsion [10].…”

Section: Discussionmentioning

confidence: 99%

Sigma-1R Agonist Improves Motor Function and Motoneuron Survival in ALS Mice

et al. 2012

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Amyotrophic lateral sclerosis is a neurodegenerative disorder characterized by progressive weakness, muscle atrophy, and paralysis due to the loss of upper and lower motoneurons (MNs). Sigma-1 receptor (sigma-1R) activation promotes neuroprotection after ischemic and traumatic injuries to the central nervous system. We recently reported that sigma-1R agonist (PRE-084) improves the survival of MNs after root avulsion injury in rats. Moreover, a mutation of the sigma-1R leading to frontotemporal lobar degeneration/amyotrophic lateral sclerosis (ALS) was recently described in human patients. In the present study, we analyzed the potential therapeutic effect of the sigma-1R agonist (PRE-084) in the SOD1 G93A mouse model of ALS. Mice were daily administered with PRE-084 (0.25 mg/kg) from 8 to 16 weeks of age. Functional outcome was assessed by electrophysiological tests and computerized analysis of locomotion. Histological, immunohistochemical analyses and Western blot of the spinal cord were performed. PRE-084 administration from 8 weeks of age improved the function of MNs, which was manifested by maintenance of the amplitude of muscle action potentials and locomotor behavior, and preserved neuromuscular connections and MNs in the spinal cord. Moreover, it extended survival in both female and male mice by more than 15 %. Delayed administration of PRE-084 from 12 weeks of age also significantly improved functional outcome and preservation of the MNs. There was an induction of protein kinase C-specific phosphorylation of the NR1 subunit of the N-methyl-D-aspartate (NMDA) receptor in SOD1 G93A animals, and a reduction of the microglial reactivity compared with untreated mice. PRE-084 exerts a dual therapeutic contribution, modulating NMDA Ca 2+ influx to protect MNs, and the microglial reactivity to ameliorate the MN environment. In conclusion, sigma-1R agonists, such as PRE-084, may be promising candidates for a therapeutical strategy of ALS.

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Section: Discussionmentioning

confidence: 99%

Sigma-1R Agonist Improves Motor Function and Motoneuron Survival in ALS Mice

et al. 2012

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“…Primary cortical neurons from embryonic (E18) rats were cultured as previously described by our laboratory (Katnik et al, 2006). All procedures were done in accordance with the regulations of the University of South Florida Institutional Animal Care and Use Committee.…”

Section: Methodsmentioning

confidence: 99%

“…All of these voltagegated ion channels and NMDA receptors have been shown to contribute to the demise of neurons during an ischemic insult. Our laboratory has recently shown that -1 receptors inhibit Ca 2ϩ dysregulation evoked by ischemia and that activation of receptors is neuroprotective at delayed time points in a rat model of ischemic stroke (Ajmo et al, 2006;Katnik et al, 2006). Interstitial pH in the brain remains low several hours after an ischemic event (Nedergaard et al, 1991), and pharmacological blockade of ASIC1a by amiloride or psalmotoxin1 administered even 5 h after middle cerebral artery occlusion has been shown to diminish stroke injury (Simon, 2006).…”

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confidence: 99%

σ-1 Receptor Modulation of Acid-Sensing Ion Channel a (ASIC1a) and ASIC1a-Induced Ca2+ Influx in Rat Cortical Neurons

Herrera

Katnik²,

Rodriguez³

et al. 2008

The Journal of Pharmacology and Experimental Therapeutics

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Acid-sensing ion channels (ASICs) are proton-gated cation channels found in peripheral and central nervous system neurons. The ASIC1a subtype, which has high Ca 2ϩ permeability, is activated by ischemia-induced acidosis and contributes to the neuronal loss that accompanies ischemic stroke. Our laboratory has shown that activation of receptors depresses ion channel activity and [Ca 2ϩ ] i dysregulation during ischemia, which enhances neuronal survival. Whole-cell patch-clamp electrophysiology and fluorometric Ca 2ϩ imaging were used to determine whether receptors regulate the function of ASIC in cultured rat cortical neurons. Bath application of the selective ASIC1a blocker, psalmotoxin1, decreased proton-evoked [Ca 2ϩ ] i transients and peak membrane currents, suggesting the presence of homomeric ASIC1a channels. The pan-selective -1/-2 receptor agonists, 1,3-di-o-tolyl-guanidine (100 M) and opipramol (10 M), reversibly decreased acid-induced elevations in [Ca 2ϩ ] i and membrane currents. Pharmacological experiments using receptor-subtype-specific agonists demonstrated that -1, but not -2, receptors inhibit ASIC1a-induced Ca 2ϩ elevations. These results were confirmed using the irreversible receptor antagonist metaphit (50 M) and the selective -1 antagonist BD1063 (10 nM), which obtunded the inhibitory effects of the -1 agonist, carbetapentane. Activation of ASIC1a was shown to stimulate downstream Ca 2ϩ influx pathways, specifically N-methyl-D-aspartate and (Ϯ)-␣-amino-3-hydroxy-5-methylisoxazole-4-propionic acid/kainate receptors and voltage-gated Ca 2ϩ channels. These subsequent Ca 2ϩ influxes were also inhibited upon activation of -1 receptors. These findings demonstrate that -1 receptor stimulation inhibits ASIC1a-mediated membrane currents and consequent intracellular Ca 2ϩ accumulation. The ability to control ionic imbalances and Ca 2ϩ dysregulation evoked by ASIC1a activation makes receptors an attractive target for ischemic stroke therapy.Acid-sensing ion channels are a class of ligand-gated channels that are members of the degenerin/epithelial sodium channel superfamily and are expressed in both peripheral and central nervous system neurons . Thus far, four genes (ASIC1-ASIC4) and two splice variants of ASIC1 and ASIC2 (a and b) have been cloned ) that encode protein subunits that form functional proton-gated homomultimeric or heteromultimeric channels . The pH of half-maximal activation and the tissue expression patterns differ between each channel subtype.One of the most common ASIC subtypes in the central nervous system (CNS) contains the ASIC1a subunit, which can form homomultimeric or heteromultimeric channels with ASIC2a . These channels are activated by pH Յ 7 and have a pH of half-maximal activation of ϳ6.0

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“…There are several factors that contribute to neuroprotective ability of sigma receptors. Sigma-1 receptor's ability to bind and associate with L-type voltage gated calcium channels, regulate neuronal intracellular calcium concentrations when exposed to ischemic conditions, prevent glutamate excitotoxicity of RGCs when exposed to sigma-1 agonist (+)-pentazocine are some of the key mechanisms underlying sigma-1's neuroprotective effects Katnik at al., 2006;Dun et al, 2007). Other pathways affected by sigma-1 receptor include attenuation of intrinsic death signal of glutamate-exposed retinal cell lines, which is a likely candidate to maintain the viability, and homeostatic intracellular calcium regulation of RGCs when they are exposed to a number of noxious stimuli that cause RGC apoptosis .…”

Section: Sigma-1 Receptormentioning

confidence: 99%