Lecture 27 Flashcards
Define cell differentiation
Cellular differentiation is the process in which a stem cell changes from one type to a differentiated one.
Gene expression and transcription factors, why are they relevant to stem cells research?
Gene Expression:
Relevance: Defines cell identity and function.
Implication: Influences stem cell characteristics and differentiation potential.
Transcription Factors:
Relevance: Regulate gene expression.
Implication: Crucial for directing stem cell differentiation into specific lineages.
Define totipotent cells
An isolated cell that is able to produce a fertile adult individual.
Define pluripotent cells
Potent type of stem cell that normally only exists during early embryonic development.
Define multipotent cells
Cells that have the ability to differentiate into all cell types within one particular lineage.
What are the differences between embryonic stem cells and adult stem cells?
Source:
Embryonic Stem Cells (ESCs): Derived from embryos.
Adult Stem Cells (ASCs): Found in various body tissues.
Pluripotency:
ESCs: Pluripotent, versatile differentiation.
ASCs: Multipotent, limited differentiation.
Renewal Capacity:
ESCs: Higher self-renewal.
ASCs: Limited self-renewal.
Differentiation Potential:
ESCs: Broad differentiation potential.
ASCs: Differentiate into specific tissue types.
Developmental Stage:
ESCs: Derived from early embryos.
ASCs: Present in developed tissues.
Somatic stem cells: where do we find them? How differentiated are they? What are the therapeutic advantages/disadvantages?
Source:
Found in various body tissues.
Differentiation:
Multipotent, specific to tissue.
Therapeutic:
Pros:
Replace damaged cells.
Ethical advantages.
Reduced immune rejection.
Cons:
Limited differentiation.
Challenges in expansion.
Limited applications in some tissues.
Embryonic stem cells: how do we isolate them? What are the therapeutic advantages/disadvantages?
Isolation:
Derived from blastocyst’s inner cell mass.
Isolated without harming the embryo.
Therapeutic:
Pros:
Pluripotent for diverse applications.
Cons:
Ethical concerns.
Risk of immune rejection.
Tumorigenic potential.
Technical challenges in controlled differentiation.
Induced pluripotent stem cells: how do we isolate them? What are the therapeutic advantages/disadvantages?
Isolation:
Reprogramming adult cells with specific transcription factors.
Therapeutic:
Pros:
Patient-specific, reducing immune rejection.
Overcomes ethical concerns.
Potential for personalized medicine.
Cons:
Risk of genetic mutations.
Challenges in controlling differentiation.
Describe therapeutic cloning and its ethical implication
Therapeutic Cloning:
Process: Creates embryonic stem cells using somatic cell nuclear transfer.
Purpose: Generates patient-specific cells for therapy, disease study, and drug testing.
Ethical Implications:
Concerns:
Involves embryo creation and destruction.
Potential Benefits:
Personalized treatments.
Advances in disease understanding.
What are the Yamanaka factor? Describe Dr Yamanaka’s work, why is it important
Yamanaka Factors:
A group of protein transcription factors that play a vital role in the creation of induced pluripotent stem cells
Dr. Yamanaka’s Work:
Discovery (2006):
Identified factors for reprogramming adult cells into pluripotent stem cells.
Importance:
Revolutionized stem cell research.
Enables ethical creation of patient-specific stem cells.
Advances regenerative medicine and disease modeling.
