Frontiers in Systems Neuroscience (Jan 2011)

Visual Tuning Properties of Genetically Identified Layer 2/3 Neuronal Types in the Primary Visual Cortex of Cre-Transgenic Mice

  • Hatim A Zariwala,
  • Hatim A Zariwala,
  • Linda Madisen,
  • Kurt F Ahrens,
  • Amy Bernard,
  • Edward S Lein,
  • Allan R Jones,
  • Hongkui Zeng

DOI
https://doi.org/10.3389/fnsys.2010.00162
Journal volume & issue
Vol. 4

Abstract

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The putative excitatory and inhibitory cell classes within the mouse primary visual cortex V1 have different functional properties as studied using recording microelectrode. Excitatory neurons show high selectivity for the orientation angle of moving gratings while the putative inhibitory neurons show poor selectivity. However, the study of selectivity of the genetically identified interneurons and their subtypes remain controversial. Here we use novel Cre-driver and reporter mice to identify genetic subpopulations in vivo for two photon calcium dye imaging: Wfs1(+) / Gad1(-) mice that labels layer 2/3 excitatory cell population and Pvalb(+) / Gad1(+) mice that labels a genetic subpopulation of inhibitory neurons. The cells in both mice were identically labeled with a tdTomato protein, visible in vivo, using a Cre-reporter line. We found that the Wfs1(+) cells exhibited visual tuning properties comparable to the excitatory population, i.e. high selectivity and tuning to the angle, direction and spatial frequency of oriented moving gratings. The functional tuning of Pvalb(+) neurons was consistent with previously reported narrow spiking interneurons in microelectrode studies, exhibiting poorer selectivity than the excitatory neurons. This study demonstrates the utility of Cre-transgenic mouse technology in selective targeting of subpopulations of neurons and makes them amenable to structural, functional and connectivity studies.

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