Siro Luvisetto scite author profile

Mutations in alpha1A, the pore-forming subunit of P/Q-type calcium channels, are linked to several human diseases, including familial hemiplegic migraine (FHM). We introduced the four missense mutations linked to FHM into human alpha1A-2 subunits and investigated their functional consequences after expression in human embryonic kidney 293 cells. By combining single-channel and whole-cell patch-clamp recordings, we show that all four mutations affect both the biophysical properties and the density of functional channels. Mutation R192Q in the S4 segment of domain I increased the density of functional P/Q-type channels and their open probability. Mutation T666M in the pore loop of domain II decreased both the density of functional channels and their unitary conductance (from 20 to 11 pS). Mutations V714A and I1815L in the S6 segments of domains II and IV shifted the voltage range of activation toward more negative voltages, increased both the open probability and the rate of recovery from inactivation, and decreased the density of functional channels. Mutation V714A decreased the single-channel conductance to 16 pS. Strikingly, the reduction in single-channel conductance induced by mutations T666M and V714A was not observed in some patches or periods of activity, suggesting that the abnormal channel may switch on and off, perhaps depending on some unknown factor. Our data show that the FHM mutations can lead to both gain- and loss-of-function of human P/Q-type calcium channels.

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Familial hemiplegic migraine mutations increase Ca ²⁺ influx through single human Ca _V 2.1 channels and decrease maximal Ca _V 2.1 current density in neurons

Tottene

Fellin

Pagnutti

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

234

198

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Insights into the pathogenesis of migraine with aura may be gained from a study of human CaV2.1 channels containing mutations linked to familial hemiplegic migraine (FHM). Here, we extend the previous single-channel analysis to human CaV2.1 channels containing mutation V1457L. This mutation increased the channel open probability by shifting its activation to more negative voltages and reduced both the unitary conductance and the density of functional channels in the membrane. To investigate the possibility of changes in Ca V2.1 function common to all FHM mutations, we calculated the product of single-channel current and open probability as a measure of Ca 2؉ influx through single CaV2.1 channels. All five FHM mutants analyzed showed a single-channel Ca 2؉ influx larger than wild type in a broad voltage range around the threshold of activation. We also expressed the FHM mutants in cerebellar granule cells from CaV2.1␣1 ؊/؊ mice rather than HEK293 cells. The FHM mutations invariably led to a decrease of the maximal CaV2.1 current density in neurons. Current densities were similar to wild type at lower voltages because of the negatively shifted activation of FHM mutants. Our data show that mutational changes of functional channel densities can be different in different cell types, and they uncover two functional effects common to all FHM mutations analyzed: increase of single-channel Ca 2؉ influx and decrease of maximal CaV2.1 current density in neurons. We discuss the relevance of these findings for the pathogenesis of migraine with aura.

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The Analgesic Effect on Neuropathic Pain of Retrogradely Transported botulinum Neurotoxin A Involves Schwann Cells and Astrocytes

et al. 2012

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In recent years a growing debate is about whether botulinum neurotoxins are retrogradely transported from the site of injection. Immunodetection of cleaved SNAP-25 (cl-SNAP-25), the protein of the SNARE complex targeted by botulinum neurotoxin serotype A (BoNT/A), could represent an excellent approach to investigate the mechanism of action on the nociceptive pathways at peripheral and/or central level. After peripheral administration of BoNT/A, we analyzed the expression of cl-SNAP-25, from the hindpaw’s nerve endings to the spinal cord, together with the behavioral effects on neuropathic pain. We used the chronic constriction injury of the sciatic nerve in CD1 mice as animal model of neuropathic pain. We evaluated immunostaining of cl-SNAP-25 in the peripheral nerve endings, along the sciatic nerve, in dorsal root ganglia and in spinal dorsal horns after intraplantar injection of saline or BoNT/A, alone or colocalized with either glial fibrillar acidic protein, GFAP, or complement receptor 3/cluster of differentiation 11b, CD11b, or neuronal nuclei, NeuN, depending on the area investigated. Immunofluorescence analysis shows the presence of the cl-SNAP-25 in all tissues examined, from the peripheral endings to the spinal cord, suggesting a retrograde transport of BoNT/A. Moreover, we performed in vitro experiments to ascertain if BoNT/A was able to interact with the proliferative state of Schwann cells (SC). We found that BoNT/A modulates the proliferation of SC and inhibits the acetylcholine release from SC, evidencing a new biological effect of the toxin and further supporting the retrograde transport of the toxin along the nerve and its ability to influence regenerative processes. The present results strongly sustain a combinatorial action at peripheral and central neural levels and encourage the use of BoNT/A for the pathological pain conditions difficult to treat in clinical practice and dramatically impairing patients’ quality of life.

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Siro Luvisetto

Functional Consequences of Mutations in the Human α_1ACalcium Channel Subunit Linked to Familial Hemiplegic Migraine

Familial hemiplegic migraine mutations increase Ca ²⁺ influx through single human Ca _V 2.1 channels and decrease maximal Ca _V 2.1 current density in neurons

The Analgesic Effect on Neuropathic Pain of Retrogradely Transported botulinum Neurotoxin A Involves Schwann Cells and Astrocytes

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Siro Luvisetto

Functional Consequences of Mutations in the Human α1ACalcium Channel Subunit Linked to Familial Hemiplegic Migraine

Familial hemiplegic migraine mutations increase Ca 2+ influx through single human Ca V 2.1 channels and decrease maximal Ca V 2.1 current density in neurons

The Analgesic Effect on Neuropathic Pain of Retrogradely Transported botulinum Neurotoxin A Involves Schwann Cells and Astrocytes

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Product

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Functional Consequences of Mutations in the Human α_1ACalcium Channel Subunit Linked to Familial Hemiplegic Migraine

Familial hemiplegic migraine mutations increase Ca ²⁺ influx through single human Ca _V 2.1 channels and decrease maximal Ca _V 2.1 current density in neurons