Please use this identifier to cite or link to this item:https://hdl.handle.net/20.500.12259/51379
Type of publication: conference paper
Type of publication (PDB): Tezės Clarivate Analytics Web of Science / Theses in Clarivate Analytics Web of Science (T1a)
Field of Science: Biologija / Biology (N010)
Author(s): Kaselis, Andrius;Treinys, Rimantas;Jover, Emmanuel;Bagnard, Dominique;Šatkauskas, Saulius
Title: SNX482 inhibits semaphorin 3A induced sensory axon growth cone collapse
Is part of: FEBS journal. Hoboken: Wiley-Blackwell, 2015, vol. 282, suppl. 1
Extent: p. 169-169
Date: 2015
Note: Abstracts of special issue: 40th FEBS congress The Biochemical Basis of Life, Berlin, Germany, July 4-9, 2015. P21-006-SP
Keywords: Semaphorinai 3A;Augimo kūgelių kolapsas;Aksonų augimas;Axon growth;Semaphorin 3A;Axon growth cones;Growth cone collapses
Abstract: During axon navigation and regeneration after injuries a guidance molecule semaphorin 3A (sema3A) is one of the principalproteins in repulsing axons and inhibiting their growth. It is nowknown that calcium (Ca2+) is important in axon response toattractive guidance cues. On the other hand it still remains elusive if this is also true for repulsive guidance cue sema3A. In thisstudy intracellular calcium ([Ca2 + ]i) imaging was used to evaluate if sema3A-induced growth cone collapse is Ca2+dependent.[Ca2+]iimaging with ratiometric dye Fura-2 AM showed Ca2+increase in E15 mice dorsal root ganglia neuron growth cones inresponse to sema3A. Therefore Sema3A effects on growth conesafter modifying [Ca2+]iand [Ca2+]echannels that we have shownare expressed in E15 mouse embryos were evaluated. Results ofour study showed that sema3A indeed increased growth cone collapse rate that was blocked by the non-selective R- and T- typeCa2+channel inhibitor NiCl2and by the selective R-type Ca2+channel inhibitor SNX482. Ca2+channel inhibitors used havedecreased the sema3A-induced [Ca2+]iconcentration elevation. Results of this study demonstrated that sema3A-induced growth cone collapses are related to the increase in [Ca2+]iconcentrationin sensory axon growth cones and this is mediated through the R-type calcium channels
Internet: http://onlinelibrary.wiley.com/doi/10.1111/febs.13339/epdf
Affiliation(s): Biologijos katedra
Kauno medicinos universiteto Kardiologijos institutas
Lietuvos sveikatos mokslų universitetas
Vytauto Didžiojo universitetas
Appears in Collections:Universiteto mokslo publikacijos / University Research Publications

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