Lecture 34: Stem Cells

Question 1

Define stem cell

Answer 1

A primitive cell that can either self-renew or give rise to more specialized cell types

Question 2

______________ refers to the ability of a cell to give rise to all cells of an organism, including embryonic and extraembryonic tissues (cells which support embryonic development)

Answer 2

Totipotency

Question 3

______________ refers to the ability of a cell to give rise to all cells of the embryo and subsequently adult tissues

Answer 3

Pluripotency

Question 4

What is the primary example of a pluripotent cell?

Answer 4

Embryonic stem cell

Question 5

_________________ refers to the ability of a cell to give rise to different cell types of a given lineage

Answer 5

Multipotency

Question 6

What is the primary example of a multipotent cell?

Answer 6

Adult stem cells

Question 7

What is the overall hierarchy of stem cells?

Answer 7

Totipotent
Pluripotent
Multipotent

Question 8

Endoderm, mesoderm, and ectoderm cell lines are considered to be _____________ embryonic stem cells

Answer 8

Pluripotent

Question 9

The zygote is considered to be a _____________ embryonic stem cell

Answer 9

Totipotent

Question 10

If the adult organ needs to be renewed, ____________ stem cells can divide as stem cells giving rise to one daughter cell that remains a stem cell and a set of cells that have a set number of transit amplifying divisions

Answer 10

Founder

Question 11

True or false: each organ or tissue has a fixed number of founder cell populations programmed to have a fixed number of divisions

Answer 11

True

Question 12

What defines the size of large final structures?

Answer 12

Founder stem cells because they have a fixed number of divisions

Question 13

What controls the founder stem cell population?

Answer 13

Short range signals from things like growth factors

Question 14

Are founder stem cells totipotent, multipotent, or pluripotent?

Answer 14

Multipotent, they are considered to be adult stem cells

Question 15

True or false: transit amplifying cells can divide an unlimited number of times

Answer 15

False, they are programmed to divide a LIMITED number of times

Question 16

How do stem cells become frequently dividing transit amplifying cells?

Answer 16

Founder stem cells become TACs when they leave the basal layer and are incorporated into the layers above

Question 17

Characteristics of stem cells include:

Not terminally _____________
Can ____________ without limit
Undergo ___________ division

Answer 17

Differentiated
Divide
Slow

Question 18

When stem cells divide, what are the two resulting cells?

Answer 18

One cell with stem cell characteristics, one with the ability to be differentiated

Question 19

Are adult stem cells tissue specific?

Answer 19

Yes

Question 20

Out of a steady pool of stem cell population, precisely 50% must remain as stem cells. What two processes accomplish this?

Answer 20

Divisional asymmetry

Environmental asymmetry

Question 21

Which type of asymmetry in the maintenance of stem cells involves asymmetric division leading to 2 cells - one with stem cell characteristics and another with factors that give it the ability to differentiate?

Answer 21

Divisional asymmetry

Question 22

Which type of asymmetrical division relating to the maintenance of stem cells produces 2 identical cells, but the environment influences/alters one of the cells to become terminally differentiated?

Answer 22

Environmental asymmetry

Question 23

What two processes work closely in sync to maintain our stem cell pool?

Answer 23

Asymmetric division and independent choice

Question 24

What hypothesis states that stem cells of some tissues selectively retain original DNA.

Answer 24

Immortal strand hypothesis

Question 25

The immortal strand hypothesis postulates that the original strand of DNA is preserved across generations of stem cells that retain their stem cell characteristics. So what happens with the other stem cell, and why is this hypothesis important?

Answer 25

The other cell gets a newly synthesized strand

This is important because the stem cell will not obtain genetic errors due to getting a newly synthesized strand

Question 26

What are the 5 types of stem cells?

Answer 26

• Embryonic
• Adult
• Fetal
• Cord blood
• Induced pluripotent

Question 27

What type of stem cells can become any tissue?

Answer 27

Embryonic

Question 28

What type of stem cells are tissue-specific?

Answer 28

Adult

Question 29

What type of stem cells are multipotent adult stem cells that reside in the liver and have become progenitor cells for a subset of tissues?

Answer 29

Fetal stem cells

Question 30

What type of stem cells come from a fully developed organ so they are not pluripotent?

Answer 30

Cord blood stem cells

Question 31

What type of stem cells come from adult cells so they are not embryonic, but they are pluripotent. These are considered the best case scenario when legal/ethical considerations have to be made in terms of harvesting stem cells.

Answer 31

Induced pluripotent stem cells

Question 32

All political and ethical issues aside, what type of stem cell is most ideal for a therapy for damaged brain tissue?

Answer 32

Embryonic stem cells - because they can become any tissue needed.

Question 33

Embryonic stem cells are derived from what early embryonic structure?

Answer 33

Inner cell mass

Question 34

The cells from the inner cell mass are:

A. Totipotent
B. Multipotent
C. Pluripotent
D. Determined

Answer 34

C. Pluripotent

Question 35

What are the 3 different protocols used for ES cell differentiation?

Answer 35

Cells differentiated as embryoid bodies (key is that there are no signals to become an organism so they stop dividing)

Cells differentiated on stromal cells

Cells differentiated on extracellular matrix proteins

Question 36

What stage of the embryo are embryonic stem cells derived from?

Answer 36

Blastocyst stage - inner cell mass

Question 37

True or false: Embryonic stem cells derived from the blastocyst stage of the embryo are capable of proliferating indefinitely in culture with unrestricted developmental potential

Answer 37

True

Question 38

What happens when embryonic stem cells harvested from the blastocyst stage are put back into the blastocyst?

Answer 38

They integrate well with the embryo and develop into different cell types with characteristics appropriate for that site (even germ cells)

Question 39

What happens when embryonic stem cells are injected into an embryo at a later stage or into an adult?

Answer 39

They fail to receive appropriate sequences of cues for proper differentiation. There is no control mechanism once injected to guide it to a certain spot, so if it lands in an inappropriate location it can become cancer

Question 40

The defining feature of an embryonic stem cell is its ability to differentiated into a wide range of tissues. Therefore, they have the dangerous potential to give rise to disorganized growths called _____________, which may contain tissues like teeth and bone in strange locations

Answer 40

Teratomas

Question 41

In order to avoid teratoma formation after embryonic stem cell injections, what precautions can be taken?

Answer 41

Make sure you are targeting the right tissues by manipulating the cell culture prior to injection. This is done to stop differentiation so they have less tendency to go back to some other tissue type. Give it as much of a stromal environment as possible.

Question 42

True or false: teratomas have been discovered after ES injection in vivo followed by inappropriate differentiation into cartilage, bone, skin, nerves, gut, and respiratory lining

Answer 42

True

Question 43

Which of the following would be most useful in re-programming a stem cell?

A. Transcription factors
B. Growth factors

Answer 43

A. Transcription factors

Question 44

Which of the following would be associated with stromal differentiation of stem cells?

A. Transcription factors
B. Growth factors

Answer 44

A. Transcription factors

Question 45

Which of the following is associated with outside-in signaling of stem cells?

A. Transcription factors
B. Growth factors

Answer 45

B. Growth factors (like FGF or RA)

Question 46

ES cells may be derived at high frequency from good quality embryos. What does the initial serum contain?

Answer 46

Medium + mouse or human embryonic fibroblast feeder cells

Question 47

What factor is needed to cause differentiation of ES cells into adipocytes, neurons, and smooth muscle?

Answer 47

Retinoic acid

Question 48

Retinoic acid is important for production of different cell types of ES cells. Which of the following is not a cell type requiring the action of RA?

A. Adipocytes
B. Neurons
C. Astrocytes
D. Smooth muscle

Answer 48

C. Astrocytes

Astrocytes and oligodendrocytes require fibroblast growth factor

Question 49

There has been recent promising “proof-of-principle” research indicating that ES cells are strong, reliable, and establish pluripotency with a solid theoretical experimental foundation to induce development of specialized cell types. How does this research apply to organ transplantation?

Answer 49

It would solve rejection problems

Question 50

There is wide potential for stem cell therapies in US patient populations. What medical condition has the highest number of patients that could potentially benefit from stem cell-based therapies?

Answer 50

Cardiovascular disease

Question 51

Successful treatment of the following diseases in animal models was completed with what type of stem cells?

Severe immune deficiency
Diabetes
Parkinson's
Spinal injury
Demyelination
Myocardial infarction

Answer 51

Embryonic stem cells

Question 52

The central strategies of regenerative medicine involve harvesting two cell types: primary cells and ESCs (or iPSCs). What is the purpose of harvesting primary cells?

Answer 52

These can be reprogrammed into desired cell types and transplanted into a host

Question 53

The central strategies of regenerative medicine involve harvesting two cell types: primary cells and ESCs (or iPSCs). What is the purpose of harvesting ESCs or iPSCs?

Answer 53

They can be directed to differentiate into desired cells types and then transplanted into a host

Question 54

Name some of the challenges for regenerative medicine and transplantation therapy:

Production of required cell type in sufficient numbers and _______ form

What _____ to transplant

Delivery and proper __________

Problems of tissue/immune __________

Embryonic or fetal-derived grafts may be __________

Some transplantation sites may be immunologically ____________

Answer 54

Pure
Cell
Integration
Rejection
Immunogenic
Privileged

Question 55

What is the primary advantage of using mature stem cells?

Answer 55

Immune response is less likely because patients are using their own cells

They are also partly specialized so they require less coaxing to become specialized cells

Question 56

What are some disadvantages to using mature stem cells?

Answer 56

They are only multipotent - so there is limited flexibility

Less common (especially with age), limited longevity, difficult to find and extract

Question 57

What is the primary advantage to early stem cells?

Answer 57

Immortal, pluripotent, easy to extract, readily available

Question 58

What are the primary disadvantages to using early stem cells?

Answer 58

Immune rejection possible, difficult to control

Question 59

Immune rejection is a serious problem in adult stem cells if they are grafted from a genetically different person, so an identical genotype is needed. What process involves taking the nucleus from a somatic cell of a patient and injecting it into the oocyte of a donor replacing the oocyte nucleus?

Answer 59

Somatic cell nuclear transfer

The blastocyst generated from this hybrid oocyte and ES cells is then isolated and can be used in the patient to avoid an immune reaction

Question 60

An alternative approach to stem cell therapy may be better. If adult cells could be converted into ES-like cells by manipulating _______________ directly

Answer 60

Gene expression

Question 61

What are the key determinants of ES cell character?

Answer 61

Gene regulatory proteins

Question 62

Biochemical comparisons of ES cells with other cell types suggest some candidate genes for direct manipulation of gene expression. What are the 4 potential gene regulatory proteins?

Answer 62

Oct3/4
Sox2
Myc
Klf4

Question 63

When Oct3/4, Sox2, Myc, and Klf4 are injected into ______________, they become ES like cells, including the ability to differentiate into other cell types

Answer 63

Fibroblasts

Question 64

What is the yield of ES-like stem cells from alternative approaches like direct manipulation of gene expression using regulatory proteins?

Answer 64

Low, and these are not identical to ES cells

Question 65

What 4 transcription factors are essential for establishment and maintenance of pluripotent stem cells in the embryo?

Answer 65

Nanog
Oct4
Sox2
FoxD3

Question 66

What transcription factor is required for early stages of pluripotent cell differentiation?

Answer 66

GCNF

Question 67

What 2 growth factors are found in pluripotent cells?

Answer 67

Cripto and GDF-3

Question 68

What type of stem cells reside in tissues and respond to demands of growth or repair?

Answer 68

Adult stem cells

Question 69

Proper tissue organization, growth, or repair require that there be ____________ on developmental potential of stem cells. These limits are strictly imposed by powerful molecular restraints on ________ ___________ and are heritable during many rounds of cell division

Answer 69

Restrictions

Gene expression

Question 70

An adult stem cell may show relaxation of the molecular restraints on gene expression in an altered environment, possible accounting for __________. Even so, this is observed usually at low frequency.

Answer 70

Plasticity

Question 71

True or false: anything that is not an embryonic stem cell is an adult stem cell

Answer 71

True

Question 72

What are the 3 primary advantages to harvesting umbilical cord blood for stem cells?

Answer 72

Undifferentiated
No ethical problems
No gene manipulation

Question 73

What type of stem cells come from cord blood?

Answer 73

Hematopoietic stem cells

Question 74

What type of stem cells one from cord tissue?

Answer 74

Mesenchymal stem cells

Question 75

True or false: hematopoeitic and stromal stem cells can become any cell type

Answer 75

False

Question 76

What type of stem cells are found in cord blood, bone marrow, and peripheral blood?

Answer 76

Hematopoeitic stem cells

Question 77

What type of stem cells are found in Wharton’s jelly, bone marrow, adipose tissue, and tooth pulp?

Answer 77

Mesenchymal stem cells

Question 78

What type of mesenchymal stem cell has the natural ability to differentiate into bone, cartilage, muscle, tendon/ligament, adipose tissue, or other potential structure with the proper growth factor applied?

Answer 78

Adipose-derived mesenchymal stem cells (AD-MSCs)

Question 79

An example of adult stem cell therapy involves harvesting hematopoeitic stem cells from bone marrow –> transplanting them into cell culture to multiply –> transplanting them into leukemia patient. How do these cells go from pluripotent to the RBCs necessary for the patient?

Answer 79

Pluripotent –> multipotent –> myeloid progenitor –> erythrocytes

Question 80

Each type of specialized stem cell has a _________ of its developmental history and seems committed to its fate. This limits its clinical use

Answer 80

Memory

Question 81

What are 2 different sources of potential human embryonic stem cells?

Answer 81

Somatic cell nuclear transfer (SCNT)

Induced pluripotent (iPS) cells

Question 82

What are the potential sources of eggs used in SCNT? (These are the cells that your somatic cells replace the nucleus)

Answer 82

Self, mother, relative, egg bank

Question 83

What are some of the problems associated with SCNT?

Answer 83

Inefficient, technically demanding, needs to be available in many or all hospitals

Question 84

How is reprogramming done without using an egg or making an embryo?

Answer 84

Combine a pluripotent cell with an adult cell and fuse them; the hybrid cell shows activation of the embryonic genome. You can also inject pluripotent genes into an adult cell and it will then become pluripotent

Question 85

What effect do growth factors have on stem cells?

Answer 85

They bind membrane receptors and control TF activation of differentiation genes (main effect is activation of proliferation)

Question 86

What transcription factor turns off TGF signaling temporarily?

Answer 86

Noggin

Question 87

Which of the following does not have the potential to develop teratomas?

A. iPS stem cells
B. ES cells
C. EC cells from nuclear transfer
D. Stem cells from fusion of somatic cells with ES
E. All of the above have the potential to form teratomas

Answer 87

E

Question 88

Challenges of stem cell maintenance include __________ and ____________ aberrations that can occur at multiple steps of pluripotent stem cell maintenance.

Answer 88

Genomic

Epigenomic