stem cells

Question 1

what are stem cells

Answer 1

founder cells that can self renew - one of their daughter cells is an exact copy and the other is a differentiated version

Question 2

what can stem cells generate

Answer 2

tissues, organs and whole organisms

Question 3

are stem cells found in tissues specialised

Answer 3

no they are unspecialised but they have the potential to differentiate in to cells that are specialised for theta specific tissue

Question 4

what is the normal role of stem cells in the body

Answer 4

to maintain and renew the organ they are contained in throughout the life of the organism

Question 5

what is totipotent and give an example

Answer 5

he cell that is capable of developing into any cell type. e.g. fertilised egg - can differentiate into any type of cell in the embryo or placenta

Question 6

what is pluripotent and give an example

Answer 6

they have the potential to differentiate into almost any cell in the body - different to totipotent because they can produce entire organisms or placentas e.g. the cells in the blastocyst are pluripotent

Question 7

what is multipotent and give an example

Answer 7

a multipotent stem cell can give rise to other types of cells but it is limited in its ability to differentiate
Examples of multipotent stem cells include those in the brain that give rise to different neural cells and glia or haematopoietic cells, which can give rise to different blood cell types, but they can’t create brain cells. Bone marrow also contains multipotent stem cells that give rise to all blood cell types but not other cells.
adult stem cell are considered multipotent
are also known as mesenchymal cells

Question 8

what is unipotent and give an example

Answer 8

A unipotent stem cell refers to a cell that can differentiate along only one lineage
they can only differentiate into cells of their tissue type
they e.g. stem cells found in bone marrow can only produce blood cells or stem cells of the heart can only produced heart cells etc

Question 9

what is a mature cell and give an example

Answer 9

the fully differentiated cell e.g. connective tissue, blood cells, cells of the nervous system

Question 10

why are stem cells useful in research

Answer 10

• they have a high rate of proliferation

- they can be used for medical research to look at human characteristics without having to do human trials

Question 11

how are stem cells useful in regenerative medicine

Answer 11

they replace, repair, restore and regenerate tissues

we can replace cells or tissues after injury with stem cells or stem cell derived tissue

Question 12

what are the different names for adult stem cells

Answer 12

tissue specific
somatic
mesenchymal cells

Question 13

give examples of where adult stem cells can be found

Answer 13

brain
heart
bone marrow
umbilical chord at birth 
foetal tissues and organs after pregnancy termination

Question 14

what is the difference between autologous and allogenic

Answer 14

they are processes of transplanting stem cells and they differ in where the stem cells come from

Question 15

what is autologous transfer

Answer 15

take stem cells from an individual and return them to the same person

Question 16

what is allogenic transfer

Answer 16

take stem cells from an individual and give them t a different person

Question 17

as a cell becomes more differentiated, what happens to the rate of proliferation

Answer 17

proliferation rate decreases as a cell becomes more specialised

Question 18

by what process do hematopoietic stem cells give rise to all other blood cells

Answer 18

haematopoiesis - the cells are derived from the mesoderm in the red bone marrow which is contained in the core of most bones

Question 19

what can bone marrow transplant be used to treat

Answer 19

leukaemia
sickle cell anaemia
immune deficiencies
MS

Question 20

where are embryonic stem cells isolated from

Answer 20

the blastocyst stage embryo

Question 21

what is a knock out

Answer 21

removes a gene of interest

Question 22

what is a knock in

Answer 22

replaces part of a gene and usually disrupts the gene as a consequence. Can use to mark cells

Question 23

what is inducible excision

Answer 23

systems allows removal of un-needed components from vector and can also be used to induce temporal or lineage specific effects

Question 24

what are genetically modified organisms called

Answer 24

transgenic

Question 25

what are hematopoietic stem cells

Answer 25

stem cells that give rise to other blood cells. This process is called haematopoiesis. This process occurs in the red bone marrow, in the core of most bones. In embryonic development, the red bone marrow is derived from the layer of the embryo called the mesoderm.

Question 26

how are murine embryonic stem cells used to make transgenic mice

Answer 26

1. stem cell cultivation -embryonic stem cells are removed from the embryo of a normal mouse
2. introduction of targeted gene - DNA containing a modified or deactivated gene is introduced. the stem cells that take up the new gene are allowed to proliferate
3. stem cell injection - the modified stem cells are injected into the blastocyst and implanted in surrogate mother, which gives birth to a chimeric mouse that contains both normal and genetically modified genes
4. breeding – the chimeric mouse is mated with a normal mouse - offspring include normal mice and mice with the new gene in every cell

Question 27

how is fluorescent gene marker expression used in producing transgenic mice

Answer 27

they can be used to produce GFP+ mice
- stem cells are isolated and transplanted into a wild type mouse
- GFP+ tissues are derived from the transplanted cells
- the location of the GFP+ (and so stem cells) can be tracked
GFP+ can be made specific to tissues

Question 28

what is GFP+

Answer 28

green fluorescent protein - it is a reporter protein

Question 29

describe the main features of human embryonic stem cells

Answer 29

they are derived from the inner cell mass of the blastocyst
they self renew and expand indefinitely in culture
they are pluripotent - able too derive all cells from all 3 dermal layers

Question 30

what are the 3 dermal layers

Answer 30

endoderm - lung, liver
mesoderm - blood, cardiomyocyte
ectoderm - neural, skin

Question 31

what are the main ethical objections to the use of human embryonic stem cells

Answer 31

• they are taken from a very early stage blastocyst. when does the embryo become a life?
• many religions oppose
• there are a range of policies for the use of hESC across he world

Question 32

what are some of the applications of embryonic stem cells

Answer 32

basic research 
drug testing - disease and patient specific cells 
toxicology - normal human cell supply 
drug discovery 
therapy

Question 33

what are the current concerns over the use of hESC

Answer 33

scientific methods need to be refined - differentiation is often still mixed
potential for teratoma formation from undifferentiated hESC
to use as a therapy we would need a bank to tissue match otherwise there would be immune rejection issues
animal products are used in culture - infection risk

Question 34

what is a teratoma

Answer 34

An often-benign tumour containing tissues of more than one germ layer, arising from totipotent cells, often occur in the ovary or testes
Might arise if pluripotent cells were left in therapies of differentiated cells.
tumours that may produce fully mature tissues forming e.g. teeth and hair

Question 35

how can stem cells be used in cloning

Answer 35

• the nucleus is removed from a donor egg

- nucleus transplanted from the patients cell to the egg

Question 36

what kind of transfer does non reproductive (therapeutic) cloning use

Answer 36

autologous

• blastocyst made using enucleated oocyte and a nucleus from patient cell
• these are then grown into pluripotent ES cells
• these are then differentiated into the cell of interest e.g. liver cells

Question 37

what is reproductive cloning

Answer 37

the production of new individuals

• using an enucleated oocyte and a patient cell nucleus to make a blastocyst
• blastocyst is then implanted into the uterus
• birth of clone

Question 38

compare the origin of adult and embryonic stem cells when used in therapy

Answer 38

adult - autologous or allogenic

embryonic - allogenic

Question 39

compare the expansion of adult and embryonic stem cells when used in therapy

Answer 39

adult - poor

embryonic - limitless

Question 40

compare the differentiation of adult and embryonic stem cells when used in therapy

Answer 40

adult - limited lineages

embryonic - all cells of the body

Question 41

compare the ethics of adult and embryonic stem cells when used in therapy

Answer 41

adult - few issues

embryonic - pro life issues

Question 42

which type of stem cells can be reprogrammed into induced pluripotent stem cells

Answer 42

adult stem cells

Question 43

what type of genes are silenced in fully reprogrammed iPSC

Answer 43

exogenous

Question 44

which type of gene expression is re-established in iPSC

Answer 44

endogenous

Question 45

what is the double potential of induced pluripotent cells

Answer 45

they can be used for cell therapy and drug discovery

Question 46

how are ALS neurons created from stem cells

Answer 46

1. skin cells are taken from the ALS donors and put in a lab dish
2. viruses insert four genes into the skin cells DNA, reprogramming the cells
3. the skin cells form cell colonies similar to embryonic stem cells. these are induced pluripotent stem cells
4. the iPSC are coaxed by signalling molecules into motor neurons. these can now be studied to see how ALS arises.

Question 47

what are the advantages of induced pluripotent stem cells

Answer 47

they can be used to make person specific cell lines
no embryos are damaged
can make lines from people with genetic disease and study lineages e.g. ALS

Question 48

what are the disadvantages of induced pluripotent stem cells

Answer 48

they are genetically modified

potential oncogenesis or damage to host genome

Question 49

what is direct reprogramming -transdifferentiating

Answer 49

when somatic cells are made to form induced pluripotent stem cells which are then directed in their differentiation to produce the desired form of the somatic cell

Question 50

do clones behave in the same way

Answer 50

no - it has been seen in cows all developed from the same cell line that certain cows are more dominant while others show more submissive behaviour

Question 51

do clones always look the same

Answer 51

no - a cat clone had a different coat due to random X chromosome inactivation (a normal occurrence during development)

Question 52

give an example of naturally occurring clones

Answer 52

identical twins – environmental influences and random phenomena play a significant role during development

Question 53

what are some of the reasons for the low efficiency of cloning and the high incidence of abnormalities

Answer 53

• in fully differentiated cells a small subset of genes is turned on and expression of the rest of the genes is repressed. this often results in the epigenetic changes of chromatin such as acetylation of histones or methylation of DNA
• ## methylation helps regulate gene expression so increased methylation may interfere with the gene expression necessary for normal embryonic development

Question 54

what is the main reason that researchers have been trying to clone human embryos

Answer 54

so they can produce stem cells to treat human diseases

Question 55

what is the difference between the blastula and the blastocyst

Answer 55

the blastocyst is the same thing as the blastula but specific to humans

Question 56

what is a progenitor cell

Answer 56

a cell that can differentiate into one of several cell types depending on external factors

Question 57

what does a stem cell divide into

Answer 57

another stem cell and a progenitor cell

Question 58

how could stem cells be used to treat type 1 diabetes

Answer 58

they could be used to produce insulin producing beta cells of the pancreas

Question 59

what type of stem cell is pluripotent

Answer 59

embryonic

Question 60

what is therapeutic cloning

Answer 60

when the main aim of cloning is to treat disease

Question 61

how are induced pluripotent stem cells made

Answer 61

a retroviral vector is used to introduce 4 genes encoding transcription factors that convert adult stem cells into induced pluripotent stem cells

Question 62

how do ES and IPS cells differ

Answer 62

there are some differences in gene expression and other cellular functions such as cell division

Question 63

what are the 2 major uses of IPS cells

Answer 63

1. disease study - cells form diseased patients have been reprogrammed to produce IPS cells which act as a model for studying the disease and potential treatments
2. regenerative medicine - a patients own cells can be reprogrammed into IPS cells and used to replace non functional tissues such as pancreas beta cells