Microdissection of neural networks by conditional reporter expression from a Brainbow herpesvirus

J. Patrick Card, Oren Kobiler, Joshua McCambridge, Sommer Ebdlahad, Zhiying Shan, Mohan K. Raizada, Alan F. Sved, Lynn W. Enquist

Research output: Contribution to journalArticle

52 Scopus citations

Abstract

Transneuronal transport of neurotropic viruses is widely used to define the organization of neural circuitry in the mature and developing nervous system. However, interconnectivity within complex circuits limits the ability of viral tracing to define connections specifically linked to a subpopulation of neurons within a network. Here we demonstrate a unique viral tracing technology that highlights connections to defined populations of neurons within a larger labeled network. This technology was accomplished by constructing a replication-competent strain of pseudorabies virus (PRV-263) that changes the profile of fluorescent reporter expression in the presence of Cre recombinase (Cre). The viral genome carries a Brainbow cassette that expresses a default red reporter in infected cells. However, in the presence of Cre, the red reporter gene is excised from the genome and expression of yellow or cyan reporters is enabled. We used PRV-263 in combination with a unique lentivirus vector that produces Cre expression in catecholamine neurons. Projection-specific infection of central circuits containing these Cre-expressing catecholamine neurons with PRV-263 resulted in Cre-mediated recombination of the PRV-263 genome and conditional expression of cyan/yellow reporters. Replication and transneuronal transport of recombined virus produced conditional reporter expression in neurons synaptically linked to the Cre-expressing catecholamine neurons. This unique technology highlights connections specific to phenotypically defined neurons within larger networks infected by retrograde transneuronal transport of virus from a defined projection target. The availability of other technologies that restrict Cre expression to defined populations of neurons indicates that this approach can be widely applied across functionally defined systems.

Original languageEnglish (US)
Pages (from-to)3377-3382
Number of pages6
JournalProceedings of the National Academy of Sciences of the United States of America
Volume108
Issue number8
DOIs
StatePublished - Feb 22 2011

All Science Journal Classification (ASJC) codes

  • General

Keywords

  • Autonomic
  • Preautonomic network
  • Sympathetic
  • Transneuronal tracing

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