Researchers at Michigan State University have discovered a new type of stem cell. Induced extraembryonic endoderm (iXEN) stem cells were discovered while looking at cells thought to be defective, cancerous, or waste byproducts:
Researchers at Michigan State University say they have discovered a new kind of stem cell, one that could lead to advances in regenerative medicine as well as offer new ways to study birth defects and other reproductive problems. [...] Prior to the discovery of reprogramming, scientists developed pluripotent stem cells from embryos. However, the embryo produces not only pluripotent stem cells, but also XEN cells, a stem cell type with unique properties. While pluripotent stem cells produce cells in the body, XEN cells produce extraembryonic tissues that play an essential but indirect role in fetal development.
Parenti and his team speculated that if the embryo produces both pluripotent and XEN cells, this might also occur during reprogramming. The eureka moment came when Parenti discovered colonies of iXEN cells popping up like weeds in his iPSC cultures. Using mice models, the team spent 6 months proving that these genetic weeds are not cancer-like, as previously suspected, but in fact, a new kind of stem cell with desirable properties. Even more surprising, the team found that by inhibiting expression of XEN genes during reprogramming, they could decrease production of iXEN cells and increase production of iPSCs. "Nature makes stem cells perfectly, but we are still trying to improve our stem cell production," Parenti said. "We took what we learned by studying the embryo and applied it to reprogramming, and this opened up a new way to optimize reprogramming."
OSKM Induce Extraembryonic Endoderm Stem Cells in Parallel to Induced Pluripotent Stem Cells (open, DOI: 10.1016/j.stemcr.2016.02.003)
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University of Cambridge researchers have derived "naïve" pluripotent stem cells from a human embryo for the first time:
Scientists at the University of Cambridge have for the first time shown that it is possible to derive from a human embryo so-called 'naïve' pluripotent stem cells – one of the most flexible types of stem cell, which can develop into all human tissue other than the placenta.
[...] In research published [March 3, 2016] in the journal Stem Cell Reports, scientists from the Wellcome Trust-Medical Research Council Cambridge Stem Cell Institute managed to remove cells from the blastocyst at around day six and grow them individually in culture. By separating the cells, the researchers in effect stopped them 'talking' to each other, preventing them from being steered down a particular path of development. "Until now it hasn't been possible to isolate these naïve stem cells, even though we've had the technology to do it in mice for thirty years – leading some people to doubt it would be possible," explains Ge Guo, the study's first author, "but we've managed to extract the cells and grow them individually in culture. Naïve stem cells have many potential applications, from regenerative medicine to modelling human disorders."
Naïve pluripotent stem cells in principle have no restrictions on the types of adult tissue into which they can develop, which means they may have promising therapeutic uses in regenerative medicine to treat devastating conditions that affect various organs and tissues, particularly those that have poor regenerative capacity, such as the heart, brain and pancreas.
Naive Pluripotent Stem Cells Derived Directly from Isolated Cells of the Human Inner Cell Mass (open, DOI: 10.1016/j.stemcr.2016.02.005)
[We published a story yesterday, where researchers at Michigan State University discovered a new type of stem cell: Induced extraembryonic endoderm (iXEN) stem cells. -Ed.]
(Score: 0) by Anonymous Coward on Sunday March 06 2016, @01:20AM
(Score: 0) by Anonymous Coward on Sunday March 06 2016, @01:42AM
From the methods (in the supplement):
R&D seems to just sell heparin (https://www.rndsystems.com/products/heparin-sodium-salt_2812) so probably not a brand name. So is HEPARIN something else or not? It's just this kind of stuff that makes you think the reviewers either didn't read the paper or don't know what they are talking about, like "the Creator" we saw earlier.
(Score: 0) by Anonymous Coward on Sunday March 06 2016, @01:30AM
A new type of stem cell is nice and all, but I can't help but feel this is unfair to the arts and humanities cells.
(Score: 0) by Anonymous Coward on Sunday March 06 2016, @01:50AM
That would probably be STEM cell, not stem cell. Although this paper seems to play fast and loose with capitalization rules, so we can't be sure.
(Score: 0) by Anonymous Coward on Monday March 07 2016, @01:44AM
Scanning Transmission Electron Microscopy Collectively Explorative Learning Labs?