Cellular Differentiation, Stem Cells and Modern Medicine

Question 1

How does an embryo begin?

Answer 1

As a small number of naive, totipotent cells

Question 2

What does totipotent mean?

Answer 2

A cell than can give rise to all parts of the embryo and adult as well as extra embryonic membranes (placental) in species that have them

Question 3

What can embryonic stem cells give rise to?

Answer 3

All cell types except trophectoderm (they are pluripotent)

Question 4

What does pluripotent mean?

Answer 4

A cell (immature or stem) capable of generating all the cells of an embryo with the exception of placenta

Question 5

What happens to a cell as it develops?

Answer 5

It becomes more specialised and less flexible

Question 6

When does the restriction of the cell stop?

Answer 6

When it becomes terminally differentiates and can only give rise to the same type of cells

Question 7

What are the exceptions to cells becoming more specialised and less flexible during development?

Answer 7

Stem cells and germ cells (sperm and egg)

Question 8

What are the stages of embryo development?

Answer 8

8 cell stage&raquo_space;> Cell polarisation&raquo_space;> Compaction&raquo_space;> Inner, apolar cells cut off&raquo_space;> Blastocyst

Question 9

What does a blastocyst consist of?

Answer 9

Inner Cell Mass (ICM) which is the embryo and the trophectoderm which is the placenta

Question 10

What are embryonic cells?

Answer 10

Non-differentiated (pluripotent) and contain genetic information to make any type of differentiated cell. Muscle specific genes are not being transcribed

Question 11

What happens when the cell becomes a myoblast (determined)?

Answer 11

The cell must now develop into a muscle cell. Certain control genes which code for transcription factors are actuated and so transcription factors are produced.

Question 12

What happens when the cell becomes terminally differentiated?

Answer 12

The transcription factors are able to turn on other genes to make other transcription factors and other proteins forming a fully functioning cell that plays a role in the organism

Question 13

What is meant by genomic equivalence?

Answer 13

Differentiated cells contain all the DNA required to build an entire new organism

Question 14

How are embryonic stem cells obtained?

Answer 14

They are harvested from the inner cell mass (future embryo) of mammalian cells

Question 15

How do the cells derived from embryonic stem cells compare to the embryo donor?

Answer 15

They are genetically identical

Question 16

How are induced pluripotent stem cells made?

Answer 16

By reprogramming adult skin cells (pushing it back in time to make and embryo)

Question 17

What can iPS cells be made from?

Answer 17

Anyone

Question 18

How would iPS cells be described?

Answer 18

Genetically identical to the source skin cells. As they are also pluripotent, they can generate any cell type.

Question 19

How do stem cells divide?

Answer 19

Without limit

Question 20

How are adult (tissue) stem cells described?

Answer 20

Undifferentiated, multipoint cells

Question 21

What is multipoint?

Answer 21

They can divide to give rise to both stem cells and cells which will go on to differentiate into one or more (but not all) types of functional tissue cells

Question 22

What are stem cells important for?

Answer 22

Tissues such as skin and blood which need constant renewing

Question 23

What is a progenitor cell?

Answer 23

A cell which will go on to form specific things

Question 24

Where are blood stem cells found?

Answer 24

In the bone marrow

Question 25

What can blood stem cells be used for?

Answer 25

Transplants

Question 26

What is now a common practice in some countries?

Answer 26

Cord blood banking

Question 27

What is involved in cord banking?

Answer 27

Stem cell blood isolated from the umbilical cord of newborn babies are kept frozen (banked)

Question 28

How are umbilical cord stem cells described?

Answer 28

Multipotent as they are immature blood stem cells. They are less restricted than blood stem cells from adults (i.e they can make all blood types)

Question 29

What can umbilical cord stem cells be used for?

Answer 29

To treat leukaemia and many other blood diseases

Question 30

What are stem cells important for in modern medicine?

Answer 30

Gene therapy and regenerative medicine

Question 31

What is gene therapy based on?

Answer 31

The idea that it may be possible to alter the genetic code of an individuals cells

Question 32

What is gene therapy proposed for?

Answer 32

As a way of correcting single gene disorders

Question 33

What could happen in gene therapy?

Answer 33

A normal allele could be inserted into the cells of the affected tissue

Question 34

How could a normal allele be inserted into the cells of the affected tissue?

Answer 34

Virus is one way to deliver genetic material to human cells but CRISPR (gene editing) may also be used

Question 35

What is regenerative medicine based on?

Answer 35

The idea that pluripotent stem cells can be used to repair or replace damaged organs or tissues

Question 36

How can pluripotent stem cells be obtained?

Answer 36

They maybe made from skin cells or blood cells from a patient (genetically identical) or matched donors, or from embryos

Question 37

What can stem cells be encouraged to do?

Answer 37

Differentiate into specific cell types such as neurons, or retinal cells based on their culture conditions

Question 38

What can be done with differentiated cells?

Answer 38

They can be transplanted into patients