New technology simplifies embryonic stem cell culturing
November 15th, 2010 - 5:17 pm ICT by ANILondon, Nov 15 (ANI): A team of researchers at the University of Wisconsin-Madison have unveiled an inexpensive system that simplifies culturing human embryonic stem cells.
“It’s a technology that anyone can use. It’s very simple,” said Laura Kiessling, a UW-Madison professor of chemistry.
Scientists still use surfaces that contain mouse cells or mouse proteins to grow batches of human cells, whether embryonic or induced stem cells - which increases the chances of contamination by animal pathogens such as viruses, a serious concern for cells that might be used in therapy.
The new culture system utilizes a synthetic, chemically made substrate of protein fragments, peptides, which have an affinity for binding with stem cells.
It can culture cells in their undifferentiated states for up to three months and possibly longer and also works for induced pluripotent stem cells, the adult cells genetically reprogrammed to behave like embryonic stem cells.
Cells maintained in the system, Kiessling noted, were subsequently tested to see if they could differentiate into desired cell types, and performed just as well as cells grown in less defined, commercially available cell culture systems.
She added that the first clinical trials are underway and that as more tests in human patients are initiated, confidence in the safety of the cells will be paramount.
“The disadvantages of the culture systems commonly used now are that they are undefined - you don’t really know what your cells are in contact with - and there is no uniformity, which means there is batch-to-batch variability,” Kiessling said.
“The system we’ve developed is fully defined and inexpensive.”
The study is published in the journal Nature Methods. (ANI)
- Scientists identify gene regulating human brain development - Jul 02, 2010
- Patient's own cells 'can be reprogrammed to correct genetic defects' - Apr 05, 2011
- Boffins 'reprogram' adult mouse fat cells into stem cells - Jul 27, 2010
- Scientists turn stem cells into intestinal tissue for the first time - Dec 13, 2010
- Easy to manipulate human stem cell developed - Jun 09, 2010
- Scientists generate pluripotent stem cells from horses - Feb 28, 2011
- Reprogrammed human blood cells could help in disease research - Jul 02, 2010
- Marker indicating developmental potential of stem cells discovered - Apr 17, 2010
- Turning diseased blood cells to stem cells may reveal cancer quickly - Feb 05, 2011
- Brain regulatory gene identified - Jul 02, 2010
- Scientists convert skin cells directly into beating heart cells - Feb 01, 2011
- Breakthrough in stem cell culture, holds hope for cures - Jun 01, 2010
- Scientists develop new test for 'pluripotent' stem cells - Mar 07, 2011
- Israeli scientists open prospect of repairing damaged hearts - May 23, 2012
- Some nerve! Now bypass stem cells - Feb 01, 2012
Tags: adult cells, animal pathogens, batches, cell culture systems, cell culturing, culture cells, culture system, embryonic stem cell, embryonic stem cells, human cells, human embryonic stem cells, human patients, journal nature, kiessling, mouse cells, nature methods, peptides, protein fragments, university of wisconsin madison, variability