Embryonic stem cell extracts: use in differentiation and reprogramming

Stem cells have been studied extensively for decades and they have the inherent capacity to self-renew as well as to generate one or more types of specialized cells. The current focus of research on stem cells, particularly on embryonic stem cells, is on directed differentiation of these cells into...

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Published inRegenerative medicine Vol. 6; no. 2; pp. 215 - 227
Main Authors Han, Jinnuo, Sidhu, Kuldip
Format Journal Article
LanguageEnglish
Published England Future Medicine Ltd 01.03.2011
Subjects
Animals
Bioengineering - methods
Bioengineering - trends
Cell differentiation
Cell Differentiation - drug effects
Cell Extracts - pharmacology
Cell Extracts - therapeutic use
Cellular Reprogramming - drug effects
Cellular Reprogramming - physiology
Embryonic stem cells
Embryonic Stem Cells - chemistry
Embryonic Stem Cells - cytology
Gene therapy
Genetic aspects
Health aspects
Humans
Induced Pluripotent Stem Cells - drug effects
Induced Pluripotent Stem Cells - physiology
Models, Biological
Physiological aspects
Australia
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Abstract Stem cells have been studied extensively for decades and they have the inherent capacity to self-renew as well as to generate one or more types of specialized cells. The current focus of research on stem cells, particularly on embryonic stem cells, is on directed differentiation of these cells into specific cell types for future regenerative medicine. For the past few years, the process of reprogramming, which mediates conversion of somatic cells to their pluripotent state, has been given much attention, as it provides a possible source of autologous stem cells. In addition, understanding the molecular mechanism of differentiation and reprogramming has long been a subject of interest. In this article, we have briefly introduced stem cells and discussed the use of embryonic stem cells in reprogramming of somatic cells and differentiation to different lineages. The application of embryonic stem cells extracts in inducing reprogramming and transdifferentiation has also been described and discussed. Should this approach be successful, patient-specific cells will be produced safely and the likelihood of rejection will be decreased when used in cell therapy for many debilitating human diseases for which there is no cure such as Parkinson's disease, Alzheimer's disease, diabetes and others.
AbstractList Stem cells have been studied extensively for decades and they have the inherent capacity to self-renew as well as to generate one or more types of specialized cells. The current focus of research on stem cells, particularly on embryonic stem cells, is on directed differentiation of these cells into specific cell types for future regenerative medicine. For the past few years, the process of reprogramming, which mediates convertion of somatic cells to their pluripotent state, has been given much attention, as it provides a possible source of autologous stem cells. In addition, understanding the molecular mechanism of differentiation and reprogramming has long been a subject of interest. In this article, we have briefly introduced stem cells and discussed the use of embryonic stem cells in reprogramming of somatic cells and differentiation to different lineages. The application of embryonic stem cells extracts in inducing reprogramming and transdifferentiation has also been described and discussed. Should this approach be successful, patient-specific cells will be produced safely and the likelihood of rejection will be decreased when used in cell therapy for many debilitating human diseases for which there is no cure such as Parkinson''s disease, Alzheimer''s disease, diabetes and others.
Stem cells have been studied extensively for decades and they have the inherent capacity to self-renew as well as to generate one or more types of specialized cells. The current focus of research on stem cells, particularly on embryonic stem cells, is on directed differentiation of these cells into specific cell types for future regenerative medicine. For the past few years, the process of reprogramming, which mediates conversion of somatic cells to their pluripotent state, has been given much attention, as it provides a possible source of autologous stem cells. In addition, understanding the molecular mechanism of differentiation and reprogramming has long been a subject of interest. In this article, we have briefly introduced stem cells and discussed the use of embryonic stem cells in reprogramming of somatic cells and differentiation to different lineages. The application of embryonic stem cells extracts in inducing reprogramming and transdifferentiation has also been described and discussed. Should this approach be successful, patient-specific cells will be produced safely and the likelihood of rejection will be decreased when used in cell therapy for many debilitating human diseases for which there is no cure such as Parkinson's disease, Alzheimer's disease, diabetes and others.Stem cells have been studied extensively for decades and they have the inherent capacity to self-renew as well as to generate one or more types of specialized cells. The current focus of research on stem cells, particularly on embryonic stem cells, is on directed differentiation of these cells into specific cell types for future regenerative medicine. For the past few years, the process of reprogramming, which mediates conversion of somatic cells to their pluripotent state, has been given much attention, as it provides a possible source of autologous stem cells. In addition, understanding the molecular mechanism of differentiation and reprogramming has long been a subject of interest. In this article, we have briefly introduced stem cells and discussed the use of embryonic stem cells in reprogramming of somatic cells and differentiation to different lineages. The application of embryonic stem cells extracts in inducing reprogramming and transdifferentiation has also been described and discussed. Should this approach be successful, patient-specific cells will be produced safely and the likelihood of rejection will be decreased when used in cell therapy for many debilitating human diseases for which there is no cure such as Parkinson's disease, Alzheimer's disease, diabetes and others.
Stem cells have been studied extensively for decades and they have the inherent capacity to self-renew as well as to generate one or more types of specialized cells. The current focus of research on stem cells, particularly on embryonic stem cells, is on directed differentiation of these cells into specific cell types for future regenerative medicine. For the past few years, the process of reprogramming, which mediates convertion of somatic cells to their pluripotent state, has been given much attention, as it provides a possible source of autologous stem cells. In addition, understanding the molecular mechanism of differentiation and reprogramming has long been a subject of interest. In this article, we have briefly introduced stem cells and discussed the use of embryonic stem cells in reprogramming of somatic cells and differentiation to different lineages. The application of embryonic stem cells extracts in inducing reprogramming and transdifferentiation has also been described and discussed. Should this approach be successful, patient-specific cells will be produced safely and the likelihood of rejection will be decreased when used in cell therapy for many debilitating human diseases for which there is no cure such as Parkinson'âs disease, Alzheimer'âs disease, diabetes and others.
Stem cells have been studied extensively for decades and they have the inherent capacity to self-renew as well as to generate one or more types of specialized cells. The current focus of research on stem cells, particularly on embryonic stem cells, is on directed differentiation of these cells into specific cell types for future regenerative medicine. For the past few years, the process of reprogramming, which mediates conversion of somatic cells to their pluripotent state, has been given much attention, as it provides a possible source of autologous stem cells. In addition, understanding the molecular mechanism of differentiation and reprogramming has long been a subject of interest. In this article, we have briefly introduced stem cells and discussed the use of embryonic stem cells in reprogramming of somatic cells and differentiation to different lineages. The application of embryonic stem cells extracts in inducing reprogramming and transdifferentiation has also been described and discussed. Should this approach be successful, patient-specific cells will be produced safely and the likelihood of rejection will be decreased when used in cell therapy for many debilitating human diseases for which there is no cure such as Parkinson's disease, Alzheimer's disease, diabetes and others.
Audience Professional
Author Han, Jinnuo
Sidhu, Kuldip
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  givenname: Kuldip
  surname: Sidhu
  fullname: Sidhu, Kuldip
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Snippet Stem cells have been studied extensively for decades and they have the inherent capacity to self-renew as well as to generate one or more types of specialized...
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SubjectTerms Animals
Bioengineering - methods
Bioengineering - trends
Cell differentiation
Cell Differentiation - drug effects
Cell Extracts - pharmacology
Cell Extracts - therapeutic use
Cellular Reprogramming - drug effects
Cellular Reprogramming - physiology
Embryonic stem cells
Embryonic Stem Cells - chemistry
Embryonic Stem Cells - cytology
Gene therapy
Genetic aspects
Health aspects
Humans
Induced Pluripotent Stem Cells - drug effects
Induced Pluripotent Stem Cells - physiology
Models, Biological
Physiological aspects
Title Embryonic stem cell extracts: use in differentiation and reprogramming
URI https://www.ncbi.nlm.nih.gov/pubmed/21391855
https://www.proquest.com/docview/856420943
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Volume 6
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