《(发育生物学)VIII干细胞生物学.ppt》由会员分享,可在线阅读,更多相关《(发育生物学)VIII干细胞生物学.ppt(29页珍藏版)》请在第壹文秘上搜索。
1、(发育生物学)VIII 干细胞生物学More than 200 clearly recognizable differentiated cell types in mammalsThe fertilized eggs in development undergo successive cell differentiation, forming a variety of different cell lineagesHypodermis: 皮下组织皮下组织, Coelomocyte: 体腔细胞体腔细胞Stem cells can be identified during the successi
2、ve differentiation of different cell lineages in developmentConcept of stem cells in the context of developmentn Stem cells are defined as a cell population that has the capacity both to self-renew and to give rise to at least one kind of nondividing, fully differentiated descendant. n Stem cells ca
3、n be identified during the successive differentiation of different cell lineages in development, thus, are classified based on their developmental potential, developmental stages etcThe stem cell classificationdevelopmental potentialn Totipotent(全能干细胞)(全能干细胞):Ability of a single cell to divide and p
4、roduce all the differentiated cells in an organism, including extraembryonic tissues- Examples: the fertilized egg, blastomeres of early morulasn Pluripotent (多潜能干细胞)(多潜能干细胞):Potential of a cell to generate all cell types except extraembryonic tissue - Examples: embryonic stem cells and induced plur
5、ipotent stem (ips) cellsn Multipotent (多能干细胞)(多能干细胞):Potential of a cell to form several lineages within a tissue - Examples: Haematopoietic stem cells n Unipotent (单能干细胞)(单能干细胞):Potential of a cell to form a single lineage within a tissue - Examples: Epidermal stem cellsThe stem cell classification
6、developmental stagesn Early Development Embryonic stem cells (ESc) Germline stem cells (GSC)Induced pluripotent stem cells (iPSCs)n The germ layer derived developmentEctodermNeural stem cellsEpidermal stem cellsMesodermHematopoietic stem cellsMesenchymal stem cellsEndoderm Liver stem cellsPancreatic
7、 stem cellsStem cells in the epithelium of the small intestine and colonStem cell biology 1 Introduction2 Early Development2.1 Embryonic stem cells (ESc) 2.2 induced pluripotent stem cells (iPSCs)2.3 Germline stem cells (GSC) 3 The germ layer derived development 3.1 Ectoderm3.1.1 Neural stem cells3.
8、1.2 Epidermal stem cells3.2 Mesoderm3.2.1 Hematopoietic stem cells3.2.2 Mesenchymal stem cellsStem cell biology 3.3 Endoderm 3.3.1 Liver stem cells3.3.2 Pancreatic stem cells3.3.3 Stem cells in the epithelium of the small intestine and colonStem cell biology (I)1 Introduction2 Early Development2.1 E
9、mbryonic stem cells (ESc) 2.2 induced pluripotent stem cells (iPSCs)2.3 Germline stem cells (GSC) 3 The germ layer derived development 3.1 Ectoderm3.1.1 Neural stem cells3.1.2 Epidermal stem cells3.2 Mesoderm3.2.1 Hematopoietic stem cells3.2.2 Mesenchymal stem cellsEmbryonic stem cells (ESc) in mamm
10、alsES cells are pluripotent stem cells derived from the inner cell mass (ICM) of fertilized eggs in mammals. Both mouse and human ES cells have a virtually unlimited self-renewing capacity and are theoretically able to give rise to all cells (more than 200) in the body, including functional germ cel
11、lsMouse ES cell lines in 1981, Martin Evans and Matthew KaufmannHuman ES cell lines in 1998, James ThomsonThe biological properties of mouse ES cells The importance of ES cells in biology and medicinen Exploring the regulatory mechanisms underlying cell differentiation, both genetic and epigeneticn
12、Gene targeting gene function studiesmouse model of human diseasesn Regenerative medicine/Cell-replacement therapyThe Nobel Laureates in Physiology or Medicine 2007For their discoveries of principles for introducing specific gene modifications in mice by the use of embryonic stem cells - gene targeti
13、ng Dr Mario CapecchiDr Martin EvansDr Oliver SmithiesThe importance of ES cells in biology and medicinen Exploring the regulatory mechanisms underlying cell differentiation, both genetic and epigeneticn Gene targeting gene function studiesmouse model of human diseasesn Regenerative medicine/Cell-rep
14、lacement therapy (an alternative to conventional organ transplantation )degenerative brain disorders (Alzheimer or Parkinson disease) or spinal cord injuriesdiabetesanemiasimmune deficiencies+ LIF (cytokine leukemia inhibitory factor)+ Different combinations of growth factors Culture of human ES cel
15、ls on mouse bone marrow produces hematopoietic stem cells (HSCs) which could further differentiate into numerous types of blood cellsCThe drawback of ES cells in medical applicationsn Immune rejectionTherapeutic cloning (somatic nuclear transplantation)Induced pluripotent stem cells (iPSc) n Tumor f
16、ormationEnsure that only a pure population of differentiated ES cells is used for the cell/tissue transplantationn The ethical problemiPS cellsAdult stem cellsStem cell biology (I)1 Introduction2 Early Development2.1 Embryonic stem cells (ESc) 2.2 induced pluripotent stem cells (iPSCs)2.3 Germline stem cells (GSC) 3 The germ layer derived development 3.1 Ectoderm3.1.1 Neural stem cells3.1.2 Epidermal stem cells3.2 Mesoderm3.2.1 Hematopoietic stem cells3.2.2 Mesenchymal stem cellsInduced pluripot
