Lentiviral gene delivery to CNS by spinal intrathecal administration to neonatal mice

E Fedorova, L Battini, A Prakash‐Cheng… - The Journal of Gene …, 2006 - Wiley Online Library
E Fedorova, L Battini, A Prakash‐Cheng, D Marras, GL Gusella
The Journal of Gene Medicine: A cross‐disciplinary journal for …, 2006Wiley Online Library
Background Direct injection of lentivectors into the central nervous system (CNS) mostly
results in localized parenchymal transgene expression. Intrathecal gene delivery into the
spinal canal may produce a wider dissemination of the transgene and allow diffusion of
secreted transgenic proteins throughout the cerebrospinal fluid (CSF). Herein, we analyze
the distribution and expression of LacZ and SEAP transgenes following the intrathecal
delivery of lentivectors into the spinal canal. Methods Four weeks after intrathecal injection …
Background
Direct injection of lentivectors into the central nervous system (CNS) mostly results in localized parenchymal transgene expression. Intrathecal gene delivery into the spinal canal may produce a wider dissemination of the transgene and allow diffusion of secreted transgenic proteins throughout the cerebrospinal fluid (CSF). Herein, we analyze the distribution and expression of LacZ and SEAP transgenes following the intrathecal delivery of lentivectors into the spinal canal.
Methods
Four weeks after intrathecal injection into the spinal canal of newborn mice, the expression of the LacZ gene was assessed by histochemical staining and by in situ polymer chain reaction (PCR). Following the spinal infusion of a lentivector carrying the SEAP gene, levels of enzymatically active SEAP were measured in the CSF, blood serum, and in brain extracts.
Results
Intrathecal spinal canal delivery of lentivectors to newborn mice resulted in patchy, widely scattered areas of β‐gal expression mostly in the meninges. The transduction of the meningeal cells was confirmed by in situ PCR. Following the spinal infusion of a lentivector carrying the SEAP gene, sustained presence of the reporter protein was detected in the CSF, as well as in blood serum, and brain extracts.
Conclusions
These findings indicate that intrathecal injections of lentivectors can provide significant levels of transgene expression in the meninges. Unlike intracerebral injections of lentivectors, intrathecal gene delivery through the spinal canal appears to produce a wider diffusion of the transgene. This approach is less invasive and may be useful to address those neurological diseases that benefit from the ectopic expression of soluble factors impermeable to the blood‐brain barrier. Copyright © 2006 John Wiley & Sons, Ltd.
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