Axotomy-induced axonal degeneration is mediated by calcium influx through ion-specific channels

EB George; JD Glass; JW Griffin

doi:10.1523/jneurosci.15-10-06445.1995

Molecular Mechanisms of Calcium Influx in Axonal Degeneration

Multiple Sclerosis As A Neuronal Disease ◽

10.1016/b978-012738761-1/50020-1 ◽

2005 ◽

pp. 275-292 ◽

Cited By ~ 1

Author(s):

Peter K. Stys ◽

Stephen G. Waxman

Keyword(s):

Molecular Mechanisms ◽

Axonal Degeneration ◽

Calcium Influx

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Phenytoin Protects Spinal Cord Axons and Preserves Axonal Conduction and Neurological Function in a Model of Neuroinflammation In Vivo

Journal of Neurophysiology ◽

10.1152/jn.00434.2003 ◽

2003 ◽

Vol 90 (5) ◽

pp. 3566-3571 ◽

Cited By ~ 134

Author(s):

Albert C. Lo ◽

Carl Y. Saab ◽

Joel A. Black ◽

Stephen G. Waxman

Keyword(s):

Spinal Cord ◽

Sodium Channels ◽

Action Potentials ◽

Axonal Degeneration ◽

Corticospinal Tract ◽

Calcium Influx ◽

Clinical Status ◽

Channel Blockers ◽

Sodium Influx

Axonal degeneration within the spinal cord contributes substantially to neurological disability in multiple sclerosis (MS). Thus neuroprotective therapies that preserve axons, so that they maintain their integrity and continue to function, might be expected to result in improved neurological outcome. Sodium channels are known to provide a route for sodium influx that can drive calcium influx, via reverse operation of the Na+/Ca2+ exchanger, after injury to axons within the CNS, and sodium channel blockers have been shown to protect CNS axons from degeneration after experimental anoxic, traumatic, and nitric oxide (NO)-induced injury. In this study, we asked whether phenytoin, which is known to block sodium channels, can protect spinal cord axons from degeneration in mice with experimental allergic encephalomyelitis (EAE), which display substantial axonal degeneration and clinical paralysis. We demonstrate that the loss of dorsal corticospinal tract (63%) and dorsal column (cuneate fasciculus; 43%) axons in EAE is significantly ameliorated (corticospinal tract: 28%; cuneate fasciculus: 17%) by treatment with phenytoin. Spinal cord compound action potentials (CAP) were significantly attenuated in untreated EAE, whereas spinal cords from phenytoin-treated EAE had robust CAPs, similar to those from phenytoin-treated control mice. Clinical scores in phenytoin-treated EAE at 28 days were significantly improved (1.5, i.e., minor righting reflex abnormalities) compared with untreated EAE (3.8, i.e., near-complete hindlimb paralysis). Our results demonstrate that phenytoin has a protective effect in vivo on spinal cord axons, preventing their degeneration, maintaining their ability to conduct action potentials, and improving clinical status in a model of neuroinflammation.

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cADPR induced calcium influx mediates axonal degeneration caused by paclitaxel

The Journal of Cell Biology ◽

10.1083/jcb.202112021 ◽

2022 ◽

Vol 221 (2) ◽

Author(s):

Ahmet Höke

Keyword(s):

Axonal Degeneration ◽

Calcium Influx ◽

Breakdown Product ◽

Chemotherapy Drugs

Activation of the NAD hydrolase domain of Sarm1 mediates axonal degeneration caused by chemotherapy drugs, but the downstream events are unknown. In this issue, Li and colleagues (2021. J. Cell Biol.https://doi.org/10.1083/jcb.202106080) demonstrate that cADPR, a breakdown product of NAD, mediates paclitaxel-induced axonal degeneration by promoting influx of calcium into the axons.

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Different Abilities of Thrombin Receptor Activating Peptide and Thrombin to Induce Platelet Calcium Rise and Full Release Reaction

Thrombosis and Haemostasis ◽

10.1055/s-0038-1649934 ◽

1995 ◽

Vol 74 (05) ◽

pp. 1323-1328 ◽

Cited By ~ 15

Author(s):

Dominique Lasne ◽

José Donato ◽

Hervé Falet ◽

Francine Rendu

Keyword(s):

Essential Role ◽

Calcium Influx ◽

Dense Granule ◽

Receptor Interaction ◽

Thrombin Receptor ◽

Release Reaction ◽

External Calcium ◽

Maximum Rise ◽

Granule Release

SummarySynthetic peptides (TRAP or Thrombin Receptor Activating Peptide) corresponding to at least the first five aminoacids of the new N-terminal tail generated after thrombin proteolysis of its receptor are effective to mimic thrombin. We have studied two different TRAPs (SFLLR, and SFLLRN) in their effectiveness to induce the different platelet responses in comparison with thrombin. Using Indo-1/AM- labelled platelets, the maximum rise in cytoplasmic ionized calcium was lower with TRAPs than with thrombin. At threshold concentrations allowing maximal aggregation (50 μM SFLLR, 5 μM SFLLRN and 1 nM thrombin) the TRAPs-induced release reaction was about the same level as with thrombin, except when external calcium was removed by addition of 1 mM EDTA. In these conditions, the dense granule release induced by TRAPs was reduced by over 60%, that of lysosome release by 75%, compared to only 15% of reduction in the presence of thrombin. Thus calcium influx was more important for TRAPs-induced release than for thrombin-induced release. At strong concentrations giving maximal aggregation and release in the absence of secondary mediators (by pretreatment with ADP scavengers plus aspirin), SFLLRN mobilized less calcium, with a fast return towards the basal level and induced smaller lysosome release than did thrombin. The results further demonstrate the essential role of external calcium in triggering sustained and full platelet responses, and emphasize the major difference between TRAP and thrombin in mobilizing [Ca2+]j. Thus, apart from the proteolysis of the seven transmembrane receptor, another thrombin binding site or thrombin receptor interaction is required to obtain full and complete responses.

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Transmembrane Calcium Influx Associated with von Willebrand Factor Binding to GP Ib in the Initiation of Shear-Induced Platelet Aggregation

Thrombosis and Haemostasis ◽

10.1055/s-0038-1651640 ◽

1993 ◽

Vol 69 (05) ◽

pp. 496-502 ◽

Cited By ~ 123

Author(s):

Yasuo Ikeda ◽

Makoto Handa ◽

Tetsuji Kamata ◽

Koichi Kawano ◽

Yohko Kawai ◽

...

Keyword(s):

Shear Force ◽

Calcium Influx ◽

Fold Increase ◽

Intracellular Camp ◽

Recombinant Fragment ◽

Transmembrane Flux ◽

Irreversible Aggregation ◽

Von Willebrand ◽

Willebrand Factor ◽

Camp Levels

SummaryWe found that the binding of multimeric vWF to GP Ib under a shear force of 108 dynes/cm2 resulted in the transmembrane flux of Ca2+ ions with a two-to three-fold increase in their intracellular concentration ([Ca2+]i). The blockage of this event, obtained by inhibiting the vWF-GP Ib interaction, suppressed aggregation. In contrast, the blockage of vWF binding to GP IIb-IIIa, as well as the prevention of activation caused by increased intracellular cAMP levels, inhibited aggregation but had no significant effect on [Ca2+]i increase. A monomeric recombinant fragment of vWF containing the GP Ib-binding domain of the molecule (residues 445-733) prevented all effects mediated by multimeric vWF but, by itself, failed to support the increase in [Ca2+]i and aggregation. These results suggest that the binding of multimeric vWF to GP Ib initiates platelets aggregation induced by high shear stress by mediating a transmembrane flux of Ca2+ ions, perhaps through a receptor-dependent calcium channel. The increase in [Ca2+]i may act as an intracellular message and cause the activation of GP IIb-IIIa; the latter receptor then binds vWF and mediates irreversible aggregation.

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Presence of P2X1 Purinoceptors in Human Platelets and Megakaryoblastic Cell Lines

Thrombosis and Haemostasis ◽

10.1055/s-0038-1665441 ◽

1997 ◽

Vol 78 (06) ◽

pp. 1500-1504 ◽

Cited By ~ 68

Author(s):

Catherine Vial ◽

Béatrice Hechier ◽

Catherine Léon ◽

Jean-Pierre Cazenave ◽

Christian Gachet

Keyword(s):

Intracellular Calcium ◽

G Proteins ◽

Cell Lines ◽

Calcium Influx ◽

Human Platelets ◽

P2y1 Receptor ◽

Calcium Response ◽

Ionotropic Receptors ◽

External Calcium

SummaryHuman platelets are thought to possess at least two subtypes of purinoceptor, one of which, coupled to G-proteins, could be the P2Y1 receptor (Léon et al. 1997). However, it has been suggested that the unique rapid calcium influx induced by ADP in platelets could involve P2X1 ionotropic receptors (MacKenzie et al. 1996) and the aim of this study was thus to investigate the presence of P2X purinoceptors in platelets and megakaryoblastic cells. Using PCR experiments, we found P2X1 mRNA to be present in human platelets and megakaryoblastic cell lines. In platelets, the selective P2X1 agonist αβMeATP induced a rise in intracellular calcium only in the presence of external calcium and this effect was antagonized by suramin and PPADS. Repeated addition of a�MeATP desensitized the P2X1 purinoceptor but only slightly affected the ADP response, while no calcium response to αβMeATP was observed in megakaryoblastic cells. These results support the existence of functional P2X1 purinoceptors on human platelets and the presence of P2X1 transcripts in megakaryoblastic cell lines.

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