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New type of stem cell line produced offers expanded potential for research and treatments

Scientists have created Expanded Potential Stem Cells (EPSCs) that, for the first time, can produce all three types of blastocyst stem cells - embryo, placenta and yolk sac

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The different types of stem cell: Expanded Potential Stem Cells (EPSCs), Embryonic Stem Cells (ESCs) and induced Pluripotent Stem Cells (iPSCs). Image Credit: Sanger Institute, Genome Research Limited

Researchers at the Wellcome Trust Sanger Institute and their collaborators have created Expanded Potential Stem Cells (EPSCs) in mice, for the first time, that have a greater potential for development than current stem cell lines. These stem cells have the features of the very first cells in the developing embryo, and can develop into any type of cell.

Published today (11 October) in Nature the methods used could also help produce similar stem cell lines from human and other mammalian species, including those such as pigs or cows where embryonic stem cell lines are still not available.

The researchers also believe that their study could have implications for human regenerative medicine and for understanding miscarriage and developmental disorders.

Stem cells have the ability to develop into other cell types, and existing stem cell lines are already extremely useful for research into development, disease and treatments. However, the two currently available types of stem cell lines - Embryonic Stem cells (ES) and induced Pluripotent Stem cells (iPS) – have certain limitations. It is not currently possible for them to form every type of cell since they are already excluded from developing certain cell lineages.

To discover new stem cells for use in research and regenerative medicine, the researchers created a way of culturing cells from the earliest stage of development, when the fertilised egg has only divided into 4 or 8 cells that are still considered to retain some totipotency - the ability to produce all cell types. Their hypothesis was that these cells should be less programmed than ES cells, which are taken from the around-100-cell stage of development - called a blastocyst. They grew these early cells in a special growth condition that inhibited key development signals and pathways.

The scientists discovered that their new cultured cells kept the desired development characteristics of the earliest cells and named them Expanded Potential Stem Cells (EPSCs). Importantly, they were also able to reprogramme mouse ES cells and iPS cells in the new condition and create EPSCs from these cells, turning back the development clock to the very earliest cell type.

http://www.sanger.ac.uk/news/view/new-type-stem-cell-line-produced-offers-expanded-potential-researc... 

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