Depolarization-Induced Ca2+ Release in Ischemic Spinal Cord White Matter Involves L-type Ca2+ Channel Activation of Ryanodine Receptors

Ouardouz, Mohamed; Nikolaeva, Maria; Coderre, Elaine; Zamponi, Gerald W.; McRory, John E.; Trapp, Bruce D.; Yin, Xiaoju; Wang, Weili; Woulfe, John; Stys, Peter K.

doi:10.1016/j.neuron.2003.08.016

Cited by 188 publications

(200 citation statements)

References 49 publications

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“…The immediate rise in calcium after injury and our EGTA experiments suggested an extracellular source of calcium. Therefore, we performed a series of pilot experiments that pharmacologically queried established molecularly defined entry pathways (for example, voltage-gated calcium channels [17][18][19] ; reverse action of the sodium-calcium exchanger [20][21][22] ; glutamate receptors 23 ). These experiments failed to show strong effects on initial calcium rises (proportion of calcium-elevated axons at initial p.i.…”

Section: Resultsmentioning

confidence: 99%

“…Given the critical role of calcium accumulations in contused axons, it is important to consider where the intra-axonal calcium is coming from and which downstream mechanisms it initiates. In vitro and in a multitude of neurological conditions, including trauma, ischaemia, inflammation and degeneration 12,26 , a broad range of mechanisms have been implicated as sources for elevated axonal calcium, including extracellular sources (for example, voltage-gated ion channels [17][18][19] , the plasma membrane sodiumcalcium exchanger [20][21][22] , the acid sensing ion channel 27 or nodal glutamate receptors 23 ), as well as intracellular stores (such as mitochondria 28 or the endoplasmic reticulum 29 ). Our in vivo analysis now indicates that mechanoporation, that is, the formation of pores in the plasma membrane as first described after diffused brain injury 24 , is a dominant source of calcium influx at least in the first hours after contusion.…”

Section: Discussionmentioning

confidence: 99%

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A recoverable state of axon injury persists for hours after spinal cord contusion in vivo

et al. 2014

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Therapeutic strategies for spinal cord injury (SCI) commonly focus on regenerating disconnected axons. An alternative approach would be to maintain continuity of damaged axons, especially after contusion. The viability of such neuropreservative strategies depends on the degree to which initially injured axons can recover. Here we use morphological and molecular in vivo imaging after contusion SCI in mice to show that injured axons persist in a metastable state for hours. Intra-axonal calcium dynamics influence fate, but the outcome is not invariably destructive in that many axons with calcium elevations recover homeostasis without intervention. Calcium enters axons primarily through mechanopores. Spontaneous pore resealing allows calcium levels to normalize and axons to survive long term. Axon loss can be halted by blocking calcium influx or calpain, even with delayed initiation. Our data identify an inherent self-preservation process in contused axons and a window of opportunity for rescuing connectivity after nontransecting SCI.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

A recoverable state of axon injury persists for hours after spinal cord contusion in vivo

et al. 2014

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“…Until now, it was known that only RyR-1, known as the skeletal muscle isoform, does not require an influx of extracellular Ca 2+ for its activation and that RyR-1 is co-immunoprecipitated with the α 1c subunit. The latter provides direct evidence for functional coupling between these two proteins (27). That is, surface membrane depolarization sensed by Ltype VGCCs is transduced to activate RyR-1.…”

Section: Sal Cocamentioning

confidence: 86%

“…We examined how the blockade of L-type VGCCs by nifedipine affected the increased expression of these RyRs because our previous study demonstrated that Ltype VGCC blockers inhibited the development of the rewarding effect of METH (9) and there is functional interaction between L-type VGCCs and RyRs known as CICR (27). Nifedipine pre-administered i.c.v.…”

Section: Effect Of Nifedipine On Increase In Ryr-1 and -2 Expression mentioning

confidence: 99%

Dopamine D1 Receptors Participate in Cocaine-Induced Place Preference via Regulation of Ryanodine Receptor Expression

et al. 2011

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Abstract. Ryanodine receptors (RyRs) with three different isoforms in the brain play a role to facilitate Ca 2+ release from the intracellular Ca 2+ pool. Although cocaine is a strongly addictive psychostimulant that dramatically affects the central nervous system function, the role of RyRs and regulation of their expression by cocaine-induced place preference have not yet been defined well. The present study investigated the regulation of RyR expression in mice under intermittent cocaine treatment using the place preference procedure. The cocaine-induced place preference was inhibited by intracerebroventricular pretreatment with dantrolene, a RyRs antagonist, in a dosedependent manner. The levels of RyR-1 and -2 in the limbic forebrain and frontal cortex significantly increased in the cocaine-conditioned mice, whereas that of RyR-3 in these two brain regions showed no changes. Although the up-regulation of RyRs was not affected by blockade of L-type voltage-gated calcium channels, the increase of RyR-1 and -2 in the limbic forebrain and frontal cortex was completely abolished by SCH23390, a selective antagonist of dopamine D 1 receptors, but not by sulpiride, a selective antagonist of dopamine D 2 receptors. These findings indicate that RyRs play a critical role in the development of cocaine-induced place preference and that the upregulation of RyRs in the brain of a mouse showing cocaine-induced place preference is regulated by dopamine D 1 receptors.

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“…For example, cardiac DHPRs (Ca V 1.2), as well as Ca V 1.3, but not skeletal DHPRs (Ca V 1.1), in brain coimmunoprecipitate RyR1 [36]. In spinal cord white matter, Ca V 1.2 co-immunoprecipitates RyR1, while Ca V 1.3 precipitates RyR2, and functional evidence is presented suggesting an external Ca 2+ -independent coupling process like that in skeletal muscle [37]. These observations have led to suggestions of functional depolarization-dependent coupling between the cardiac DHPR and RyR1 in the central nervous system.…”

Section: Interactions Between Dhprs and Ryrsmentioning

confidence: 88%

The recombinant dihydropyridine receptor II–III loop and partly structured ‘C’ region peptides modify cardiac ryanodine receptor activity

Dulhunty

Karunasekara

Curtis

et al. 2005

Biochemical Journal

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A physical association between the II-III loop of the DHPR (dihydropryidine receptor) and the RyR (ryanodine receptor) is essential for excitation-contraction coupling in skeletal, but not cardiac, muscle. However, peptides corresponding to a part of the II-III loop interact with the cardiac RyR2 suggesting the possibility of a physical coupling between the proteins. Whether the full II-III loop and its functionally important 'C' region (cardiac DHPR residues 855-891 or skeletal 724-760) interact with cardiac RyR2 is not known and is examined in the present study. Both the cardiac DHPR II-III loop (CDCL) and cardiac peptide (C C ) activated RyR2 channels at concentrations >10 nM. The skeletal DHPR II-III loop (SDCL) activated channels at 100 nM and weakly inhibited at 1 µM. In contrast, skeletal peptide (C S ) inhibited channels at all concentrations when added alone, or was ineffective if added in the presence of C C . Ca 2+ -induced Ca 2+ release from cardiac sarcoplasmic reticulum was enhanced by CDCL, SDCL and the C peptides. The results indicate that the interaction between the II-III loop and RyR2 depends critically on the 'A' region (skeletal DHPR residues 671-690 or cardiac 793-812) and also involves the C region. Structure analysis indicated that (i) both C S and C C are random coil at room temperature, but, at 5• C, have partial helical regions in their N-terminal and central parts, and (ii) secondary-structure profiles for CDCL and SDCL are similar. The data provide novel evidence that the DHPR II-III loop and its C region interact with cardiac RyR2, and that the ability to interact is not isoform-specific.

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Depolarization-Induced Ca2+ Release in Ischemic Spinal Cord White Matter Involves L-type Ca2+ Channel Activation of Ryanodine Receptors

Cited by 188 publications

References 49 publications

A recoverable state of axon injury persists for hours after spinal cord contusion in vivo

A recoverable state of axon injury persists for hours after spinal cord contusion in vivo

Dopamine D1 Receptors Participate in Cocaine-Induced Place Preference via Regulation of Ryanodine Receptor Expression

The recombinant dihydropyridine receptor II–III loop and partly structured ‘C’ region peptides modify cardiac ryanodine receptor activity

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