week 6 part 1

Question 1

How does an egg become a body?

Answer 1

1. As a fertilized human egg divides, it first becomes a solid ball of cells, the morula
2. Next, about five days after fertilization, it becomes a hollow ball, the blastocyst.
3. The cells of the outer layer of the blastocyst eventually form part of the placenta

4Inside the ball is a small clump of cells, the inner cell mass, that will form all the tissues in the body

Question 2

What are two main aspects of development?

Answer 2

1. Proliferation of cells

2. Differentiation

Question 3

What is differentiation?

Answer 3

become specialised to carry out specific functions in an adult body

Question 4

What happens from the mass of totipotent cells?

Answer 4

generate the circulatory system, the nervous system, the muscles and the immune system

Question 5

What does development depend on?

Answer 5

spatiotemporal expression of specific genes

Question 6

What is expression regulated by?

Answer 6

hardwired molecular programmes together with epigenetic mechanisms

Question 7

What contributes to neuronal differentiation?

Answer 7

Both external and internal factors

Question 8

What do internal factors include?

Answer 8

1. Cell surface and secreted molecules that control cellular fates
2. Transcription factors that control gene expression

Question 9

What do external factors include?

Answer 9

1. Nutrients
2. Sensory stimuli
3. Social experience

Question 10

What does neuronal tissue start with?

Answer 10

100 cells

Question 11

What generates the brain?

Answer 11

The neural epithelial stem cells

Question 12

Why does the neural epithelial tissue proliferate?

Answer 12

The neural epithelial stem cells undergo rapid division to increase in number

capable of generating a brain of the central nervous system

Question 13

Starting from stem cells, what does the neural epithelial stem cells become

Answer 13

Restricted in their potential to generate different cell type

Question 14

During mammalian CNS development, what does neural precursor cells arising from neural tube produce?

Answer 14

Pools of multipoptent and more restricted neural progenitor cells

which proliferate, migrate and further differentiate into neurons and glia cells

Question 15

During embryogenesis, where is neural precursor derived from?

Answer 15

neuroectoderm

Question 16

How is neural precursor detected?

Answer 16

During neural plate and neural tube formation

Question 17

When happens when the embryo develops?

Answer 17

the neural stem cells can be identified in nearly all regions of the embryonic mouse, rat, and human CNS

including the septum, cortex, thalamus, ventral mesencephalon and spinal cord

Question 18

What does neural stem cells have

Answer 18

spatial identity and differentiation potential

Question 19

How is neural plate formed?

Answer 19

1.third week of development, the notochord appears in the mesoderm

Question 20

What does notochord secrete?

Answer 20

growth factors which stimulate the differentiation of the overlying ectoderm into neuroectoderm

Question 21

How is neural folds formed?

Answer 21

The lateral edge of neural plate rise

Question 22

How is neural plate formed?

Answer 22

The neural folds move towards each other and meet in the midline, fusing

Question 23

How is neural crest formed?

Answer 23

During fusion of the neural folds, some cells within the folds migrate to form a distinct cell population

Question 24

What do neural crest give rise to?

Answer 24

diverse cell lineage – including melanocytes, craniofacial cartilage and bone, smooth muscle, peripheral and enteric neurons and glia

Question 25

What is neurulation?

Answer 25

The formation of neural tube

Question 26

where does the neural epithelial cells dividie initially?

Answer 26

Ventricular surface

Question 27

What is the three primary brain vesicles divided into?

Answer 27

1. Prosencephalon
2. Mesencephalon
3. Rhombencephalon

Question 28

What does the forebrain give rise to?

Answer 28

1. Telencephalon

2. Diencephalon

Question 29

What is mesencephalon?

Answer 29

midbrain

Question 30

What does Rhombencephalon give rise to?

Answer 30

1. Metencephalon (pons and cerebellum)

2. Myelencephalon (medulla oblongata)

Question 31

How does the development of the nervous system proceed?

Answer 31

in rostro-caudal specification of different areas

Question 32

What is the development of nervous system controlled by?

Answer 32

very limited number of secretory factors e.g. FGF, retinoic acid, sonic hedgehog

Question 33

How do you specify the different regions

Answer 33

• There is a gradient – activate downstream signalling according to the concentration of growth factor present, the receptors, to the transcription factor present within the cell

Question 34

What is responsible for induction of ventral fates ?

Answer 34

Sonic hedgehog

secreted by the notochord

Question 35

how does diverse function of the CNS arise?

Answer 35

regionally distinct division of the neural tube

Question 36

What is the 4 major steps in the establishment of subdivisions?

Answer 36

1. Generation of progenitor cells in the neural plate and tube
2. Generation of regional differences within the NT that correspond to major subdivisions of the CNS
3. Specification of distinct neuronal subtypes
4. • The influence of neuronal inputs

Question 37

How do progenitors differentiate into neurons and glial cells?

Answer 37

1. proliferating
2. undergo symmetric cell divisions
3. produce neuroepithelial stem cells

Question 38

Differentiation of neural precursors?

Answer 38

Asymmetric cell division

Question 39

What is the generation of neurons and glial cells regulated by?

Answer 39

1. Delta-notch signalling

2. Basic helix-loop-helix transcription factors

Question 40

What is first generated from ectoderm forming the neural plate?

Answer 40

Neuroepithelial cells

Question 41

What do neuroepithelial cells and undergo?

Answer 41

1. neural stem cells

2. undergo a symmetric cell division to produce more neural stem cell

Question 42

What happens after neural tube is formed from the neural plate?

Answer 42

Neuroepithelial cells become radial glia by acquiring some glial features

Question 43

What is Notch known to inhibit and maintain?

Answer 43

1. inhibit = neuronal differentiation

2. maintain = neural stem cells

Question 44

What are the 3 main stages of development of mammalian cerebral cortex?

Answer 44

1. A pre-plate
2. A cortical plate
3. The mature pattern of layers

Question 45

How do neurons achieve their final position within the cortex?

Answer 45

Migrating along radial glial fibers

Question 46

What are neurons within the cortical plate?

Answer 46

organised into well-defined layers

Question 47

What do the cortex layers have?

Answer 47

different connectivity’s, they are responsible for transmitting different information

Question 48

What is the inside out layers?

Answer 48

the earliest born neurons will populate deep layers of the cortex, the later born ones migrate past them and populate the upper layers of the cortex

Question 49

When is most neurogenesis complete?

Answer 49

before birth

it is embryonic

Question 50

What happens at embryonic day 10-11, half way through gestation?

Answer 50

There is a huge expansion of neuroepithelial stem cells in the cortex

Question 51

What is the neuro epithelial cortex?

Answer 51

single cell layer pseudo-stratified epithelium

Question 52

What gives cortex an appearance of being multi-layered?

Answer 52

During the cell cycle, the cell body of the neuroepithelial cells migrate up and down

Question 53

When does neurogenesis in the cortex in neuron cortex start?

Answer 53

embryonic day 13 and proceeds at about day 17 which is near birth

Question 54

What is the ventricular zone?

Answer 54

a degree is a stem cell niche – when the cells lose their contact with the stem cell niche, they begin to commit to differentiating and becoming post-mitotic neurons

Question 55

What does the intermediate progenitor undergo?

Answer 55

divisions and will form the sub-ventricular zone – another proliferative layer

Question 56

What does different transcription factors specify?

Answer 56

neurons present in different layers

Question 57

What do Radial glial cells serve?

Answer 57

neural progenitors and structurral scaffold

Question 58

What is only expressed when radial glial become neurons?

Answer 58

RNA-binding protein called HU

Question 59

How do you study the behaviour of neural stem cells?

Answer 59

plating them in culture, isolate the cortices at different stages of embryonic development – dissociate them and plate the cells

Question 60

When does neurogenesis really begin?

Answer 60

Embyronic day 13

Question 61

What is Oligodendrocytes marked by?

Answer 61

Expression of O4+

Question 62

What are all cells of CNS generated from?

Answer 62

Neural stem cell (NSCs)

The tissue stem cells which give rise to all neural lineage cells

Question 63

What are NSC specified in?

Answer 63

1. Space

2. Time

Question 64

What do NSC depend on?

Answer 64

selective activation or silencing of lineage-specific genes by lineage-specific transcription factors (bHLH)

Question 65

What does Transcription factors ensure?

Answer 65

Appropriate chromatin remodellers are recruited to specific gene regulatory elements

Question 66

What are neurotrophins?

Answer 66

secreted growth factors which are absolutely essential for the survival of neurons

Question 67

What is P75?

Answer 67

1. P75 neurotrophin receptor (low affinity receptor)

2. doesn’t have any enzymatic activity but share homology with the TNF

Question 68

What is TRK receptors?

Answer 68

tryosine kinases

initiate cascade of events

Question 69

What shows a clear preference for the different neurotrophin?

Answer 69

• TrkA, TrkB, TrkC

Question 70

What does TrkA bind to?

Answer 70

preferentially to NGF with high affinity

Question 71

What does TrkB bind to?

Answer 71

BDNF and NT4/5 and TrkC is receptor for NT-3

Question 72

Where was SC1 cloned from?

Answer 72

schwann cell library and it binds to the cytosolic domain of the P75

Question 73

What are proteins that contain subdomains?

Answer 73

1. Histones
2. Lysines
3. Methyltransferases

Question 74

What are PRDM proteins involved in?

Answer 74

Epigenetic control of gene expression during development

Question 75

What does TUJ1 express?

Answer 75

post mitotic neurons

Question 76

What is controlled by levels of PRDM4?

Answer 76

The timing of the differentiation

Question 77

What can protein Arginine Methyltransferases (PRMTs) promote?

Answer 77

non-methylation of arginine on nitrogen atom

Question 78

What does type 1 and type 2 of PRMTs mediate?

Answer 78

1. Type 1 =mediate asymmetric di-methylation nitrogen

2. Type 2 =mediate symmetric di-methylation

Question 79

What are the two enzymes that mediate this reaction?

Answer 79

1. PRMT5

2. PRMT9

Question 80

What is positive for neural stem cell?

Answer 80

Nestin

Question 81

Where do you delete SC1?

Answer 81

dorsal cortical precursors

Question 82

Where is FMRP implicated in?

Answer 82

Fragile X syndrome

Question 83

What do Hu proteins do?

Answer 83

Trigger development of autoimmune neurological diseases

Question 84

Where is FUS implicated in?

Answer 84

FTD/ALS

Question 85

Where is SMN implicated in?

Answer 85

in spinal muscular atrophy

Question 86

What are the major challenges in regeneration within CNS?

Answer 86

1. neurons are post-mitotic
2. A huge variety of neurons within the brain
3. Connectivity which is essential for proper neuronal function

Question 87

What are a huge variety of neurons within the brain?

Answer 87

• They are functionally different

Question 88

What displays discrete brain regions?

Answer 88

Organisation of the cerebral organoids