posted on 2016-08-02, 00:00authored byDaghfous G, Green WW, Simon Alford, Zielinski BS, Dubuc R
Sensorimotor transformation is one of the most fundamental and ubiquitous functions of the central nervous system (CNS). Although the general organization of the locomotor neural circuitry is relatively well understood, less is known about its activation by sensory inputs and its modulation. Utilizing the lamprey model, a detailed understanding of sensorimotor integration in vertebrates is emerging. In this article, we explore how the vertebrate CNS integrates sensory signals to generate motor behavior by examining the pathways and neural mechanisms involved in the transformation of cutaneous and olfactory inputs into motor output in the lamprey. We then review how 5-hydroxytryptamine (5-HT) acts on these systems by modulating both sensory inputs and motor output. A comprehensive review of this fundamental topic should provide a useful framework in the fields of motor control, sensorimotor integration and neuromodulation.
Funding
We acknowledge the support of the Great Lakes Fishery
Commission over the years, as group grants to BZ and
RD (GLFC, 54011, 54021, 54035). Group Grants provide the
necessary conditions to promote in-depth reviews of this kind.
This work was also supported by a grant to RD from the Natural
Sciences and Engineering Research Council of Canada (NSERC,
217435), a grant from the Canadian Institutes of Health Research
(CIHR, 15129) and a group grant from the Fonds de Recherche
du Québec - Santé (FRQS, 5249).