feeder-free
New Allele Biotech Publication on Stem Cells
Feeder-Free Reprogramming of Human Fibroblasts with Messenger RNA
Current Protocols in Stem Cell Biology • November 13, 2013
DOI: 10.1002/9780470151808.sc04a06s27
Authors: Luigi Warren, Jiwu Wang
This unit describes a feeder-free protocol for deriving induced pluripotent stem cells (iPSCs) from human fibroblasts by transfection of synthetic mRNA. The reprogramming of somatic cells requires transient expression of a set of transcription factors that collectively activate an endogenous gene regulatory network specifying the pluripotent phenotype. The necessary ectopic factor expression was first effected using retroviruses; however, as viral integration into the genome is problematic for cell therapy applications, the use of footprint-free vectors such as mRNA is increasingly preferred. Strong points of the mRNA approach include high efficiency, rapid kinetics, and obviation of a clean-up phase to purge the vector. Still, the method is relatively laborious and has, up to now, involved the use of feeder cells, which brings drawbacks including poor applicability to clinically oriented iPSC derivation. Using the methods described here, mRNA reprogramming can be performed without feeders at much-reduced labor and material costs relative to established protocols.
Allele iPSC Service and Technology Licensing Contact: http://www.allelebiotech.com/cell-line-and-culture-services/#ips-line
New Allele Product of the Month: FP-nAb™ products for 100% pull-down
Allele Biotech Receives $200,000 Grant to Update Its mRNA Reprogramming Commercial Products and Services
On June 10, 2013 Allele received an SBIR award from the National Institute of Drug Abuse (NIDA/NIH) entitled “Revolutionary Technology for Efficient Derivation of Human iPSCs with Messenger RNA”. The goal of the proposed project is to provide to the biomedical research market an advanced reagent kit and services for highly efficient reprogramming of high quality human induced pluripotent stem cells (iPSCs). At the core of this kit is the Allele team’s recent development transcribed messenger RNA (mRNA). Compared to other reprogramming methods, such as lentivirus, Sendai virus, protein, small molecules or any combinations of these reagents, our new generation of the mRNA method often requires less than half the time while sometimes achieving “bulk conversion” efficiency.
While the Allele reprogramming technology was designed for clinical use as the process is feeder-free, xeno-free, chromosome integration-free, as well as without the need for cell splitting, PI, Dr. Jiwu Wang states, “Our purpose of executing the NIH-funded research it to make our method so easy that any researcher can integrate iPSC into his or her projects.” In addition to the extremely high efficiency, mRNA-generated iPSCs should also be more stable because there are no genetic alterations, more uniform among all clones as there is no clonal event, and ultimately suitable for future autologous cell therapy now that creating iPSCs from patient tissue cells should no longer be the rate-limiting steps.
Allele’s business model is to provide cGMP-grade iPSCs to pharmaceutical companies and perform large scale reprogramming by partnering first with university-affiliated hospitals. Great progress has been made in both directions, which has prompted the initiation of a cGMP unit within Allele’s newly acquired building in San Diego.
Picture Blog — Making mRNAs by In Vitro Transcription for Transgene Expression and R-iPSCs
R-iPS Cell FAQ 2:
What is the expected yield from the in vitro trancription (IVT) reactions?
Performed as described, you should recover around 40 ug RNA from each 40 uL IVT reaction.
R-iPS Cell FAQ 3:
How can the success of the RNA synthesis protocol be assessed?
Run 500 ng (5 uL) of the concentration-adjusted products on an E-gel to check for consistent product yield and relative product sizes, and to confirm the absence of secondary bands or smears.
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