Literature DB >> 20139968

Silencing neurotransmission with membrane-tethered toxins.

Sebastian Auer1, Annika S Stürzebecher, René Jüttner, Julio Santos-Torres, Christina Hanack, Silke Frahm, Beate Liehl, Inés Ibañez-Tallon.   

Abstract

At synaptic terminals, high voltage-activated Ca(v)2.1 and Ca(v)2.2 calcium channels have an essential and joint role in coupling the presynaptic action potential to neurotransmitter release. Here we show that membrane-tethered toxins allowed cell-autonomous blockade of each channel individually or simultaneously in mouse neurons in vivo. We report optimized constitutive, inducible and Cre recombinase-dependent lentiviral vectors encoding fluorescent recombinant toxins, and we also validated the toxin-based strategy in a transgenic mouse model. Toxins delivered by lentiviral vectors selectively inhibited the dopaminergic nigrostriatal pathway, and transgenic mice with targeted expression in nociceptive peripheral neurons displayed long-lasting suppression of chronic pain. Optimized tethered toxins are tools for cell-specific and temporal manipulation of ion channel-mediated activities in vivo, including blockade of neurotransmitter release.

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Year:  2010        PMID: 20139968     DOI: 10.1038/nmeth.1425

Source DB:  PubMed          Journal:  Nat Methods        ISSN: 1548-7091            Impact factor:   28.547


  36 in total

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Review 6.  Chemical genetics: receptor-ligand pairs for rapid manipulation of neuronal activity.

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9.  Suppression of Peripheral Pain by Blockade of Voltage-Gated Calcium 2.2 Channels in Nociceptors Induces RANKL and Impairs Recovery From Inflammatory Arthritis in a Mouse Model.

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