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Optogenetic control of skeletal muscle excitability

$203,280R21FY2014ARNIH

University Of California Los Angeles, Los Angeles CA

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Several conditions such as diseases or accidental and chirurgical trauma can lead to the loss of nerve control of skeletal muscles. Optogenetic control of excitability, which has revolutionized neurobiological research but has never been attempted in adult skeletal muscles, is a promising alternative for the recovery of muscle function. However, several basic questions need to be answered prior to the practical implementation of optogenetic approaches in vivo. In Aim 1 of this proposal we will investigate whether activating (e.g. channelrhodopsin 2) and silencing actuators (e.g. archeorhodopsin 3) are expressed in sufficient quantities in adult skeletal muscle fibers so that pulses of illuminatin can either elicit action potentials (APs), or inhibit electrically elicited APs, respectively. This information will allow us to comparatively test (in Aim 2) the ability of light and electrical stimulation to attain fine control of the mechanical activity of intact muscles expressing optical actuators. We will use two approaches for the specific transfection of muscle with plasmids encoding for opsins: electroporation and adeno-associated virus. This will enable us to investigate the feasibility of using novel approaches using wireless optoelectronic implantable devices for the fine control of muscles in the intact animal. The outcome of the innovative research approaches proposed in this grant are expected to pave the way for the practical use of optogenetics tools to restore the control of muscle output when they are deemed inactive due to the absence of nerve inputs.

View original record on NIH RePORTER →