A nonviral minicircle vector for deriving human iPS cells

Abstract: Due to the risk of insertional mutagenesis, viral transduction has been increasingly replaced by nonviral methods to generate induced pluripotent stem (iPS) cells. One technique that has not yet been explored is the use of "minicircle" DNA, a novel compact vector that is free of bacterial DNA and capable of persistent high level expression in cells. Here, we report the use of a single minicircle vector to generate transgene-free iPS cells from adult human cells. Keywords minicircle DNA; reprogramming; iPS cell… Show more

“…To meet this need, several nonintegration systems and removable systems have been developed. These include episomal vectors (Yu et al, 2009), the piggyBac transposon system (Kaji et al, 2009;Woltjen et al, 2009;Yusa et al, 2009), and minicircle vectors (Jia et al, 2010).…”

“…Minicircle vectors are supercoiled DNA molecules that have higher transfection efficiency and longer ectopic expression window than plasmid DNA (Chen et al, 2003;Chen et al, 2005) due to reduced activation of the silencing mechanisms against foreign DNA. However, they cannot self-replicate and thus the expression time is not as long as for episomal DNA (Jia et al, 2010). The non-integration DNAs will be diluted upon cell division and lost with time, so that the resulting iPSCs were free of any foreign DNA contamination (Yu et al, 2009;Jia et al, 2010).…”

“…However, they cannot self-replicate and thus the expression time is not as long as for episomal DNA (Jia et al, 2010). The non-integration DNAs will be diluted upon cell division and lost with time, so that the resulting iPSCs were free of any foreign DNA contamination (Yu et al, 2009;Jia et al, 2010). However, the reprogramming efficiency of these non-integration systems was low compared to the viral approach.…”

Mechanism and methods to induce pluripotency

“…To meet this need, several nonintegration systems and removable systems have been developed. These include episomal vectors (Yu et al, 2009), the piggyBac transposon system (Kaji et al, 2009;Woltjen et al, 2009;Yusa et al, 2009), and minicircle vectors (Jia et al, 2010).…”

“…Minicircle vectors are supercoiled DNA molecules that have higher transfection efficiency and longer ectopic expression window than plasmid DNA (Chen et al, 2003;Chen et al, 2005) due to reduced activation of the silencing mechanisms against foreign DNA. However, they cannot self-replicate and thus the expression time is not as long as for episomal DNA (Jia et al, 2010). The non-integration DNAs will be diluted upon cell division and lost with time, so that the resulting iPSCs were free of any foreign DNA contamination (Yu et al, 2009;Jia et al, 2010).…”

“…However, they cannot self-replicate and thus the expression time is not as long as for episomal DNA (Jia et al, 2010). The non-integration DNAs will be diluted upon cell division and lost with time, so that the resulting iPSCs were free of any foreign DNA contamination (Yu et al, 2009;Jia et al, 2010). However, the reprogramming efficiency of these non-integration systems was low compared to the viral approach.…”

Mechanism and methods to induce pluripotency

“…But how close are they really to the gold standard ESC, and related to ithow ''safe'' are they for future clinical use? Avoiding the integration of reprogramming factors into the genome during iPSC generation is already achieved using different methodologies [5][6][7][8][9]. This is a first important step toward safer cells.…”

Concise Review: Induced Pluripotent Stem Cells Versus Embryonic Stem Cells: Close Enough or Yet Too Far Apart?

“…Various new approaches have been employed to generate genetically unmodified or non-integrative human iPSCs: (1) non-integrative vectors, including episomal vectors, adenoviral vectors, and sendai viral vectors (Yu et al, 2009;Zhou and Freed, 2009;Jia et al, 2010;Ban et al, 2011;Chou et al, 2011;Hiratsuka et al, 2011;Okita et al, 2011); (2) excisable integrating vectors, such as Cre-recombinase excisable viruses, piggyBac transposon (Kaji et al, 2009;Soldner et al, 2009;Woltjen et al, 2009;Yusa et al, 2009;Sommer et al, 2010); (3) DNA-free materials, such as pluripotency-associated recombinant proteins, RNA, and microRNA (Kim et al, 2009;Warren et al, 2010;Miyoshi et al, 2011); (4) small molecules that can facilitate reprogramming (Feng et al, 2009;Li and Ding, 2010;Efe and Ding, 2011). Here we will briefly summarize recent literatures on episomal vectors-or small molecules-based technologies for generation of iPSCs ( Fig.…”

Non-viral iPSCs: a safe way for therapy?