what are the 4 reprogramming factors used?
oct4, sox2, klf4, c-myc
how do the reprogramming factors work?
activating downstream transcription factors which then unwind and demethylate pluripotency genes and methylate differentiation genes
what are 5 ways of reprogramming somatic cells into iPSC
sendia (non integrating virus), adenovirus, lenti or retrovirus, mRNA, protein
what is the efficiency of integrative reprogramming of iPSC?
0.1-1%
what is the definition of a stem cell?
- a cell that can self renew when it divides into a daughter cell to produce a cell that is an exact copy. And also produce cell that is specified down a specific lineage
within stem cell division, which DNA strand does the stem daughter take?
the template
what do the three germ layers form?
ectoderm (neural and keratinocytes), mesoderm (muscle, blood system, fibroblasts), endoderm enterocytes (gut and pancreas)
what 3 tissues dont regenerate in humans?
retina, eye, CNS and heart (a bit)
what does pluripotent mean?
all three germ layers
what does culture adaptation mean?
selecting stem cells in vitro that increase proliferative potential
explain how acetylation and methylation works?
methylation of promoters suppresses expression of genes, methylation of histones can be suppressive or activating, acetylation of histones upregulates genes.
what did gurdon do?
he removed the nucleus from a somatic cell and put it in an inucleated xenopus egg and it was reprogrammed.
how can you test pluripotency?
in vitro differentiation into three germ layers, implant into SCID mouse and look at teratoma formation, can you remove pluripotency factors and the cells remain iPSC
what is wadding tons genetic landscape?
the hill with the cell doing into one of the two valleys
why are zebrafish a good model organism for tissue repair?
- transparent so can do realtime fluorescent labelling
- they have amazing regenerative abilities: can regenerate the heart, kidneys, CNS, eye, fins
- good for genetics
- vertebrate
- cheap
why can zebrafish regenerate the retina and humans can’t?
their muller cells behave as adult stem cells but in humans they divide once and then form a square
explain how the environment is important for regeneration?
the environment needs to be conducive to regeneration. For example in PNS repair the macrophages remove growth inhibiting myelin and the ECM is remodelled.
what three models are good for regeneration studies?
zebrafish, salamander, mouse
what are hox genes?
the are transcription factors that activate the expression of multiple TFs that give portions of the body their tissue components.
what are some interesting papers in the area that you’ve read on the area of stem cell research (outside the department)? (3)
- Guillot: use transplantation of mesenchymal stem cells that express a normal collagen type 1 molecule. Inject into babies before immune competency. Take normal MSC from normal babies amniotic fluid and injected into mice with the disease model increased bone strength and reduced bone fracturing.
- Using resident fibrocartilage stem cells to treat fibrocartilage disease and injury. Sclerotin to block WNT signalling and upregulate their action. They were first to discover these cells and also found that patients suffering from firbocatrilage disease may have increased WNT in their superficial zone niche. (next step- different joint)
- Idea that progenitors, rather than stem cells, support the tissue. The chance of dividing asymmetrically vs symmetrically is sufficient- can never get rid of this progenitor- if mutated will be there forever. (more lineage tracing, model what happens in disease- would stem cell kick into action)
Describe the process of treating osteogenesis imperfecta.
It is a disease that results from mutation in collagen type 1 in unborn babies. Guillot transplants Mesenchymal stem cells from normal unborn babies and transplants into unborn affected babies before they are immune competent Inject into blood stream. They then form bone progenitors that express correct ECM molecule. Normal babies.
Describe the process of research treatment into fibrocartilage disease and injury and the next step.
- the group found a fibrocartilage stem cells int he mandibular joint that can produce cartilage and bone (EDU Injection into joint). They showed that WNT signalling was tightly controlled across this niche, activating on WNT signalling within the Superficial zone cause premature differentiation of the FSCSs and depletion of the stem cell pool. They showed that in a rabbit disease model of, cartilage can regenerate at a greater rate when in the presence of WNT inhibitor-sclerostin. They also found in humans suffering from fibrocartilage disease may have increase wnt signalling in their superficial zone.
in terms of the slow-cycling stem cell/progentiro theory, how could this be tested?
linear tracing of progenitors- activate temporally and look at the increase in number over time- does it fit model? what about in injury?
what are the names of the three authors that wrote the papers that you’re interested in?
- Catherine Becker and Thomas Becker
- Rambukkana
