Adeno‐associated viral delivery of TrkB after upper cervical spinal hemisection enhances recovery (1091.6)

Abstract

Cervical spinal hemisection at C2 (SH) paralyzes the diaphragm muscle by interrupting descending bulbospinal pathways to phrenic motoneurons. Signaling via the neurotrophin receptor TrkB in phrenic motoneurons enhances functional recovery after SH. However, it is not clear if the delay in gene expression resulting from adeno‐associated virus (AAV)‐mediated delivery would blunt the therapeutic efficacy of AAV delivered after SH. The goal of the present study was to examine the efficacy of intrapleurally‐delivered AAV7 encoding the full‐length TrkB receptor at 3 days post‐SH. Chronic diaphragm EMG recordings were conducted in adult male Sprague‐Dawley rats confirming absence of ipsilateral activity 3 days after SH. The proportion of animals displaying recovery of ipsilateral diaphragm EMG activity increased over time post‐SH and was greater in those treated with AAV‐TrkB (by 14 days post‐SH: AAV‐TrkB: 10/15 vs. AAV‐GFP: 2/11; p=0.01). Furthermore, peak root‐mean‐square amplitude of the diaphragm EMG activity increased progressively over time post‐SH. During eupnea, animals displaying recovery of ipsilateral diaphragm EMG activity that were treated with AAV‐TrkB achieved 40% of pre‐injury values (vs. 10% in those treated with AAV‐GFP). Targeting phrenic motoneurons via intrapleural delivery of AAV7‐TrkB promotes recovery of diaphragm activity when administered 3 days post‐injury.Grant Funding Source: Supported by R01 HL96750, T32 HL105355 and Mayo Clinic Center for Regenerative Medicine