Improved Golgi-like Visualization in Retrogradely Projecting Neurons, after EGFP-adenovirus Infection in Adult Rat and Monkey

doi:10.1369/jhc.5A6838.2005

Journal of Histochemistry and Cytochemistry

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JHC exPRESS: First Published December 12, 2005. doi:10.1369/jhc.5A6838.2005
Copyright © Histochemical Society, Inc.

A more recent version of this article appeared on May 1, 2006.

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Improved Golgi-like Visualization in Retrogradely Projecting Neurons, after EGFP-adenovirus Infection in Adult Rat and Monkey

Ryohei Tomioka ¹^* and Kathleen S. Rockland ¹

¹ Laboratory for Cortical Organization and Systematics, RIKEN Brain Science Institute, Saitama, Japan

^* To whom correspondence should be addressed. E-mail: rtomioka{at}brain.riken.jp.

Submitted on September 15, 2005
Accepted on 21 November 2005

Abstract
An adenovirus vector was generated using a neuron-specific promotersynapsin I and enhanced green fluorescent protein (EGFP) reporter(AdSynEGFP). In addition, two modifications were identifiedwhich resulted in robust and reliable retrograde transport andEGFP expression after injection of the virus into three differentbrain regions in adult rats (medial prefrontal cortex, posteriorthalamic nuclear group, and CA1). These are: postinjection survivaltimes of 14 days, and addition of high concentrations of NaCl( $≥$ 600 mM) to the injection buffer. These modifications resultedin obvious improvement in the intensity of the EGFP signal andin the number of labeled cells. Use of anti-EGFP, in immuno-fluorescenceor -peroxidase processing, further enhanced the signal so thatGolgi-like filling of dendritic spines and axon collateralswas routinely achieved. Effectiveness of the AdSynEGFP for Golgi-likefilling was confirmed in one rhesus monkey with injections invisual area V4. Because of the long-term viability of the infectedneurons (at least up to 28 days in rats, and 22 days in monkey),this AdSynEGFP is suitable for use in microcircuitry studiesin combination with other fluorescently tagged elements, includinganterogradely labeled extrinsic projections. The native EGFPsignal (without antibody enhancement) may be sufficient forstudies involving cultured cells or slices.

Key Words: cerebral cortex, dendritic spines, microcircuitry, NaCl, neuronal tracer, pyramidal neuron

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