Recombinant lentiviral vectors (LVs) are capable of transducing neonatal rat ventricular myocytes (NRVMs) and providing stable, long-term transgene expression. The goal of the present study was to comprehensively test whether transduction of NRVMs by LVs results in cytotoxicity and to examine the electrophysiological consequences of gene modification of NRVM monolayers by two vectors: one encoding a putatively inert enhanced green fluorescent protein (eGFP) and the other a major ion channel protein, inward rectifier K(+) channel (Kir) 2.1. Freshly isolated NRVMs were transduced and cultured in monolayers. Immunohistochemistry, Trypan blue exclusion, annexin V binding followed by flow cytometry (FCM), and terminal transferase dUTP nick-end labeling assays were performed to assess for cytotoxicity. Optical mapping studies of action potential propagation in NRVM monolayers were performed to characterize the electrophysiological alterations following transduction. The cytotoxicity assays revealed that transduction had no adverse effects on NRVM cultures. However, eGFP-transduced monolayers exhibited a decrease in conduction velocity (CV) and action potential duration (APD) compared with monolayers transduced with LVs encoding LacZ or devoid of a transgene. In addition, small interfering RNA-mediated knockdown of eGFP expression corrected this phenotype. In contrast, Kir2.1 gene-modified monolayers showed an increase in CV and a predictable decrease in APD. This study demonstrates that LVs transduce NRVMs without cytotoxic effects. However, eGFP has a significant effect on APD and CV in this experimental system and calls into question the widely held belief that GFP is physiologically inert. In addition, LV-mediated overexpression of Kir2.1 opens up the prospect of studying the functional role of inward rectifier K(+) current in cardiac arrhythmias.
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