The synthesis of multi-whisker receptive fields in subcortical stations of the vibrissa system

doi:10.1152/jn.01109.2003

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The synthesis of multi-whisker receptive fields in subcortical stations of the vibrissa system

Elena Timofeeva¹, Philippe Lavallee¹, Dominique Arsenault¹, and Martin Deschenes¹^*

¹ Anatomy and Physiology, CRULRG, Quebec City, Quebec, Canada

^* To whom correspondence should be addressed. E-mail: Martin.Deschenes{at}crulrg.ulaval.ca.

This study addresses the origins of multi-whisker receptivefields of neurons in the thalamic ventral posterior medial (VPM)nucleus of the rat. We sought to determine whether multi-whiskerreceptive field synthesis occurs in VPM through convergent projectionsfrom the principalis (PrV) and interpolaris (SpVi) nuclei, orin PrV via intersubnuclear projections from the spinal trigeminalcomplex. We tested these hypothesis by recording whisker-evokedresponses in PrV and VPM before and after electrolytic lesionof the SpVi in ligthly anesthetized rats. Before the lesionPrV cells responded, on average, to 3.2 ± 1.2 whiskersbut responsiveness was reduced to 1.07 ± 0.31 whisker afterthe lesion. A similar reduction of receptive field size wasobserved in VPM, where neurons responded, on average, to 2.94± 0.95 whiskers before the lesion and to 1.05 ± 0.22whisker after the lesion. Thus, one can conclude that intersubnuclearprojections mediate surround whisker receptive fields in PrV,and therefore in VPM. However, it has previously been shownthat parasagittal brainstem transection, which severed ascendingprojections from SpVi, but left intersubnuclear connectionsintact, rendered VPM cells mono-whisker responsive. We wonderedwhether midline brainstem lesion modified receptive field propertiesin SpVi. In normal rats SpVi cells responded, on average, to7.52 ± 4.25 whiskers, but responsiveness was dramaticallyreduced to 1.47 ± 1.07 whisker after the lesion. Togetherthese results indicate that the synthesis of surround receptivefields in subcortical stations relies almost exclusively onintersubnuclear projections from the spinal trigeminal complexto the PrV.

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