Abstract

Efficiently delivering nucleic acid into mammalian cells is essential to overexpress genes for assessing gene functions. Human bone marrow stem cells (hBMSCs) are the most studied tissue-derived stem cells. Adeno-associated viruses (AAVs) have been used to deliver DNA into hBMSCs for various purposes. Current literature reported that transduction efficiencies of up to 65% could be achieved by AAV gene delivery into hBMSCs. Further improvement of efficiency is needed and possible. This study tested a selection of AAV serotypes for high-efficient DNA delivery into hBMSCs. hBMSCs from different donors were infected with different serotypes of AAVs containing the enhanced green fluorescence protein (eGFP) reporter gene driven by the CMV promoter. Green fluorescence was monitored in the infected cells at five-day intervals. Cells were collected at designated time points after the infection for reverse-transcription polymerase chain reaction (RT-PCR) and quantitative reverse-transcription polymerase chain reaction (qRT-PCR) to assess eGFP mRNA transcription. The results indicated that the order of transduction efficiency of the AAV serotypes was AAV2 > AAV2.7m8 > AAV6 > AAV6.2 > AAV1 > AAV-DJ. AAV2 could achieve almost 100% transduction at the multiplicity of infection (MOI) greater than 100K. Over 90% of cells could be transduced at 20K to 50K MOI. About 80% transduction was seen at MOIs of 10K and 15K. RT-PCR analysis showed that eGFP mRNA could be detected from day 5 to day 30 post-AAV infection. The differences in the observed transduction efficiencies of the hBMSCs from different patients indicate donor-to-donor variability, and increased eGFP mRNA was generally seen after day 15 post-AAV2 infection. Maximal eGFP transcription was detected on day 30 post-infection. We conclude that AAV2 and AAV2.7m8 at an MOI of 100K or greater can efficiently deliver transgene into hBMSCs with up to near 100% transduction efficiency for sustained expression over one month. However, donor-to-donor variation exists in transduction efficiency and transgene expression, especially at MOIs less than 100K.

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