Hard Deck 2

Question 1

Pulse-chase experiment: • To measure turnover of cells • T1/2

Answer 1

• Labelled BrUridine deoxythymidine Short time (PULSE)
• Unlabelled Thymidine (Chase)
• label 4 cells, how long for it to get to 1/2 tabled cells
• measure radioactivity at zero then a X minutes

Question 2

Intestinal Stem Cells Niche

Answer 2

• Wnt - promotes survival and proliferation of stem cells in intestine
• cells undergoing continuous dividing replace microvilli and are in the crypt
• progenitor cells form transient amplifying zone. They move forward till reach epithelium
• progenitor not cabable of unlimited self renual (unlike stem cells)
• BMP - promotes differentiation, maturation in the direction of willis

Question 3

Fluorescence activated Cell sorting (FACS)

Answer 3

• CFP and GFP expressing cells -stem cells have specific surface markers
• cell goes through resiviour one at a time. Excited by laser and florescent light detected by photomultiplier tube
• certain changes (that’s related to surface markers) and separated into fractions

Question 4

Bones

Answer 4

• osteoblasts -form bone cells
• osteoclasts -degrade bone cells (arise from hemapoetic stem cells)
• osteoblasts arise from mesenchymal stem cells

Question 5

Formation of ICM Cells

Answer 5

Trophectoderm undergoes asymmetrical division perpendicular to apicobasal axis (instead on the normal symmetrical division to expands the trophectoderm) This creates an ICM (inner cell mass)

Question 6

Reprogramming of somatic cells induced pluripotent stem (iPS) cell

Answer 6

• EScells can be differentiated in somatic cells then reprogrammed to induced pluripotent sen cell by TF such as Sox2 and Oct4
• Regenerative Medicine: Disease treatment Organ repair

Question 7

iPS derived HSC correct sickle cell anemia

Answer 7

1) harvest tail tip fibroblasts
2) infect with Oct 4, Sox2
3) correct sickle cell mutation in iPS cells by specific gene targeting
4) differentiate into embryo bodies
5) transplant corrected hematopoietic progenitors back into irradiated mice

Question 8

Natural Stem cell therapy: Trafficking cells from Fetus across placenta Stem Cells

Answer 8

• embryo to maternal circulation to moms heart which was experimentally damaged
• generated diverse cardiac lineages

Question 9

Mesenchymal Stem Cells differentiation

Answer 9

if cells sit on colagen coat thats similar elasticity to brain then MSC differentiated into cells with neural markers but not mucle or bone markers. gel stiffer, cells hsve muscle markers.

Question 10

Regeneration in Planaria

Answer 10

• In planarian flatworms, regeneration is a kind of stem-cell mediated event, and occurs in a way that suggest a morphogen gradient is at work in the regeneration that is observed.
• At the cut surface clonogenic neoblasts (pluripotent stem cell) direct development of the missing structures—heads make tails, and tails make heads.
• Colognenic neoblasts migrate to the site of wound and regenerate the tissues.
• One cologenic neoblast is sufficient to regenerate into head or tail region.

Question 11

Polarity in Planaria regeneration: DV and Ant-Post

Answer 11

DV Axis: •BMP defines the dorsal region in flat worms.
•Noggin in the Ventral Anterior Posterior:
•Anterior posterior polarity is regulated by Wnt and β-catenins.
•β-catenin is activated by Wnt in the posterior regions (generating tail).
•Repressors of Wnt prevent β- catenin production in the anterior– facing regenerating neoblast cells.
•If Wnt pathway is blocked in the posterior blastema then the result is a worm with heads at both the ends.

Question 12

Two possible mechanisms for neoblast specification during regeneration

Answer 12

1) •pluripotent neoblast cell gets activated by injury
•becomes multipotent post mitotic blastemacell
•geys wound specific signal and differentiates

2)
•pluripotent neoblast cell gets regiional signal before injury •becomes multipotent regional lineage restrictedproginators •gets wond specific signal
•becomes unipotent post mitotic blastema precureser
•differetiates

Question 13

Epimorphic regeneration of salmander limbs

Answer 13

• Relatively undifferentiated cells arise from originally differentiated tissue, which then proliferates and re-differentiates into new limb parts.
• Bone, dermis, cartilage and muscles contribute to the regeneration blastema.

Question 14

Upon amputation of salamander limb

Answer 14

• plasma clot forms at the site of injury.
• epidermis from the stump migrate and form wound epidermis.
• Nerves innervating the limb degenererate for a short distance proximal to the plane of amputation.
• Extracellular matrices are degenerated by protease and single cells that undergo dedifferentiation are formed.
• These cells redifferentiate to form new structures of the limb.
• Wound epidermis thickens to form AER equivalent structure called apical ectodermal cap (AEC).
• cut wait 72 days whole limb regrown
• AEC much bigger than AER
• accumulation of blaster under AEC

Question 15

Blastema is similar to progress zone of developing limb

Answer 15

• The anterior-posterior axis is established by sonic hedgehog activation and HoxD gene activation, just as in limb buds
• Proximal-distal axis is established by interactions between HoxA gene activti’on and retinoic acid (RA)
• The most distal cells are fated to become autopod structures
• A transplanted limb blastema can substitute for an AER on a developing limb
• The full ‘nested’ Hox gene pacern is restored during regeneration, and is influenced by RA which PROXIMALIZES blastema cells

Question 16

Limb regenerationon in salamander

Answer 16

• Tissue-specific genes are down-regulated • Genes associated with progress zone mesenchyme of embryonic limb buds are re-expressed (eg msx1, which is abundant in limb bud mesoderm)
• The apical ectodermal cap (AEC) secretes Fgf8 protein, thus acts much in the same way as does the AER in embryonic limb development, although the AEC is about 10 x bigger than the AER!

Question 17

Wnt signalling forms what in hydra

Answer 17

•Wnt establishes hypostome (part that has a mouth) acting through canonical B-catenin pathway

Question 18

Epimorphic Regeneration: of hydra

Answer 18

If the hydra is cut in mid section then:
• Interstitial cells at the site of wound undergo apoptosis.
• Dying cells produce Wnt3a.
• Wnt3a induces β-catenin in the interstitial cells.
• This promotes proliferation of interstitial cells and there is remodelling of epithelial cells.
• Secondary axis is formed.

Question 19

Morphallactic regeneration: of hydra

Answer 19

Cut made close to head. Wnt 3 in the epithial cells repacern the tissue and no secondary axis formed.

Question 20

There are 2 mechanisms of regeneration upon injury to liver

Answer 20

1. Differentiated mature cells that do not divide under normal are induced to divide.
   - There are 5 types of cells in the liver, including hepatocytes, ductal cells, fat-storing (Ito) cells, endothelial cells and Kupffer cells that begin proliferation and make more of themselves to make up for the missing part.
2. Quiescent hepatic progenitor cells, oval cells are activated to proliferate when hepatocytes are destroyed due to senescence, alcohol or disease.
   - Oval cells (small progenitor population)differentiate into hepatocyte or bile duct cells

Question 21

Injury is sensed by some of the hepatic factors missing or secreted in the blood stream triggering liver cells to divide.

Answer 21

• Kuppfer cells secrete IL-6 and TNF-α
• Stellate cells secrete hepatocyte growth factor (HGF) and TGF-β. – HGF binds to its receptor c-Met that is increased immediately upon injury.
• Increased bile concentratoons in the blood activates Fxr transcription factors that increase cell proliferation.