3. stem cell proliferation and fate

Question 1

what are the four phases of the cell cycle?

Answer 1

G1, S, G2 and M

Question 2

what occurs in S phase?

Answer 2

DNA replication

Question 3

what occurs in M phase?

Answer 3

mitosis

Question 4

at what point of the cell cycle to cells exit and enter G0?

Answer 4

G1

Question 5

what are the two types of G0?

Answer 5

post mitotic cells and quiescent cells

Question 6

what type of cells are quiescent?

Answer 6

stem cells

Question 7

what is quiescence?

Answer 7

the temporary persistence of G0 phase of the cell cycle

Question 8

give an example of hyper-quiescent cells?

Answer 8

some mice HSC have been shown to only divide 5 times in their entire two years of life

Question 9

given the right signal, what can stem cells in G0 do?

Answer 9

re-enter the cell cycle via G1

Question 10

what phase of the cell cycle can mutations occur in?

Answer 10

S phase

Question 11

what happens if too many DNA mutations occurs?

Answer 11

apoptosis

Question 12

why is it beneficial for stem cells to remain quiescent?

Answer 12

they do not accumulate mutations

Question 13

if a mutations occurs in stem cells how will this affect its progeny?

Answer 13

they will also have mutations

Question 14

what two ways can proliferation in a tissue be measured?

Answer 14

using DNA labels or staining for cell cycle markers

Question 15

what are the two types of cell cycle marker staining called?

Answer 15

1. cyclin immunostaining

2. Ki67 staining

Question 16

when is Ki67 expressed?

Answer 16

during all active stages of the cell cycle

Question 17

when is Ki67 not expressed?

Answer 17

G0

Question 18

when are cyclins expressed?

Answer 18

they are expressed at specific stages of the cell cycle

Question 19

what method may used to look at the proliferative index of cancer? and what does a high index mean?

Answer 19

Ki67 immunohistochemistry

if there is a lot of staining this means the tumour is highly proliferative and malignant

Question 20

what can Ki67 staining be used in conjunction with?

Answer 20

DNA labelling

Question 21

is a cell has low Ki67 staining and low Hoechst staining, what stage of the cell cycle is it in?

Answer 21

G0

Question 22

if a cell has high Hoechst staining and high Ki67, what stages of the cell cycle could it be in?

Answer 22

S, G2 or M

Question 23

name two DNA dyes that bind to DNA?

Answer 23

DAPI and Hoechst

Question 24

if a cell contains double as much DNA stain that another, what does this mean?

Answer 24

the cell has undergone S phase but has not yet undergone M phase

Question 25

if a cell has an intermediate amount of DNA what does this mean?

Answer 25

cell is in S phase replicating its DNA

Question 26

what does coupling Ki67 staining with DNA staining allow you to do?

Answer 26

determine the percentage of cells in each stage of the cell cycle

Question 27

what is BrdU?

Answer 27

an analogue of thymidine

Question 28

how can cells that have incorporated BrdU label into their DNA be indented?

Answer 28

• antibodies specific for BrdU

- immunohistochemistry/flow cytometry

Question 29

what does the label retaining assay look for?

Answer 29

quiescent cells

Question 30

what does the pulse section of the label retaining assay involve?

Answer 30

BrdU label administered long enough to allow labelling of stem cells

Question 31

what does the chase section of the label retaining assay involve?

Answer 31

allowing dividing cells to dilute their label

Question 32

what are label retaining cells?

Answer 32

cells that have not divided enough to dilute their label

Question 33

what can we suggest about these label retaining quiescent cells?

Answer 33

they are stem cells

Question 34

what type of cells are most efficiently labelled in the pulse period?

Answer 34

the most highly proliferative

Question 35

in addition to potential stem cells, what else might label retaining cells suggest?

Answer 35

location of stem cell niche

Question 36

what are the 4 limitations of using BrdU in label retaining assay?

Answer 36

1. cells need to divide at the time of the pulse
2. BrdU is toxic and so injury to the tissue means we are not looking at homeostatic conditions
3. detection of brdU requires fixation and permeabilization (to allow antibodies into nucleus) - functional analysis cannot do done on dead cells
4. it is hard to distinguish intermediate levels of proliferation

Question 37

what is an alternative method to BrdU labelling in label retaining assay?

Answer 37

tet-off-regulated H2BGFP

Question 38

what problem does this alterative label retaining assay solve?

Answer 38

detection of label can be done on live cells and so functional assays can be performed

Question 39

what happens during the pulse of tet-regulated H2BGFP system?

Answer 39

tTA is under the control of a ubiquitously expressed/tissue specific promoter, tTA binds tet-responsive sequence and drives expression of H2BGFP

Question 40

why is this system cells tet-off?

Answer 40

when doxycycline is administered this bind tTA and prevents it from binding tet-responsive element

Question 41

what happens in the chase period of this tet-off system?

Answer 41

doxycycline is administered and this prevents any further expression of H2BHFP

Question 42

what happens to H2BGFP during the chase period?

Answer 42

it is diluted through cell division

Question 43

what ensures that all cells are labelled with H2BGFP during the pulse period?

Answer 43

tetracycline inducible promoter expression is much larger than that of the endogenous H2B promoter

Question 44

what are two advantages of using this tet-off system in the label retaining assay?

Answer 44

1. H2BGFP has very low toxicity

2. dilution of H2BGFP can be followed by FACs analysis of live cells

Question 45

what effect does inducing an injection/inflammation have on label retaining cells?

Answer 45

they rapidly divide in response and thus lose their label

Question 46

what do label retaining HSC do better than non-label retaining HSC?

Answer 46

they transplant better and for more serial passages

Question 47

what type of replicative potential do adult stem cells have?

Answer 47

they have a very high replicative potential

given the right signals they can proliferate

Question 48

what is replicative potential?

Answer 48

the ability to undergo replication

Question 49

what is a holoclone?

Answer 49

a colony forming stem cells that has a higher growth potential than a meroclone because it does not contain any differentiated cells

Question 50

how does the replicative potential vary from stem cells to progenitors?

Answer 50

progenitors can only divide a certain number of times and so have a smaller replicative potential than stem cells that can self-renew

Question 51

as a cell become more lineage committed what two abilities decrease?

Answer 51

1. the ability to self-renew

2. their replicative potential

Question 52

what is symmetric division?

Answer 52

when both daughter cells are the same

Question 53

what is asymmetric division?

Answer 53

division that gives rise to a stem cell and a more differentiated cell

Question 54

what can be used to see how cells divide and differentiate?

Answer 54

time lapse microscopy

Question 55

why might what looks like an asymmetric division actually initially be a symmetric division?

Answer 55

stem cells may divide to produce two stem cells, one of which rapidly becomes more differentiated

Question 56

what are the two mechanisms of asymmetric division?

Answer 56

1. environmental asymmetry (cell extrinsic) - once the cell have divided the two daughters are in slightly different environments, influencing them in different ways
2. divisional asymmetry (cell intrinsic) - different intrinsic factors inherited by the two cells

Question 57

why might asymmetric division be a combination of these two factors?

Answer 57

• the environment of the mother stem cells may influence which factors are inherited by each daughter
• cells are attracted to different environments due to slight difference in inherited factors

Question 58

how is the human epidermis organised?

Answer 58

stem cells are at the basal layers of the epidermis. they can divide to produce more stem cells on the basal layer, or produce more differentiated cells that more up the layers of epidermis

Question 59

what does looking at the orientation of spindles in the epidermis tell us about the divisions occurring in this tissue?

Answer 59

• when the spindle is perpendicular to the dermis this is asymmetrical division
• when the spindle is parallel to the dermis this is symmetrical division
• more asymmetric than symmetric division can be observed

Question 60

what is apoptosis?

Answer 60

programmed cell death

Question 61

what does a cell undergoing apoptosis look like?

Answer 61

it has a blebbing membrane

Question 62

what is they hypothesis to why apoptosis occurs in tissues, using HSCs as an example

Answer 62

• apoptosis is a quick way of regulating how many cells we have in a tissue
• one HSC might give rise to 5 progenitors, 1 undergoes apoptosis
• when infections occurs and more immune cells are needed, the 5th progenitor does not undergo apoptosis

Question 63

when can programmed cell death occur?

Answer 63

programmed cell death can occur any time during the differentiation process