Dev 2

Question 1

Wingless and …. maintain each others expression.How?

Answer 1

Hedgehog.
Hh> Wg>Eng>Hh
Hedgehog directly controls wingless expression, but wingless controls Engrailed, which then regulates hedgehog

Question 2

Wingless and Hedgehog are what genes?

Answer 2

Segment polarity

Question 3

Loss of function of wnt/wingless?

Answer 3

Segment polarity genes, so disrupt segment characteristics.

Loss of naked cuticle, covered in denticles.

Question 4

Is the wnt translated in the mature form?

Answer 4

No. It is transcribed with a signalling sequence which is cleaved off.

Question 5

How is Wnt modified after post-translation?

Answer 5

Porcupine Acyl transferase modifies it by Palmitoylation, and the addition of a Palmitoleic acid on ser209 in wnt 3a.

Question 6

……… is required for transport of Wnt to the plasma membrane. (and maybe release/presentation)

Answer 6

Wntless- 7pass transmembrane protein.

think without the PM would be Wntless

Question 7

What are required for diffusion of Wnt away from the plasma membrane? Why?

Answer 7

Due to the hydrophobicity of the palmitolylation Additions the Wnt is water insoluble so for diffusion requires the formation into multimers or loaded into a lipoprotein.

Question 8

What is Palmitolylation?

Answer 8

The covalent attatchment of fattyacids

Question 9

What is HSPG?

Answer 9

Heparan sulfate Proteoglycan in the EXC matrix required for diffusion away.

Question 10

Wnt binds to what receptor?

Answer 10

Frizzled 1-4, which brings together this and Arrow/LRP 5/6 (in humans)

Question 11

Frizzled structure?

Answer 11

7pass transmembrane spanning protein, Wnt binds to the cysteine rich domain (CRD) of the N terminal extension.

Question 12

LRP/arrow structure?

Answer 12

Single pass transmembrane spanning protein, stands for LDL receptor-related protein

Question 13

What is an extracellular inhibitor of the Wnt pathway? How? (lecture one)

Answer 13

Dickkopf-1 (dickhead) Dkk1
Binds to LRP/arrow and Kremen promoting internalisation of LRP, so cannot fuse with Fz.
Used in Wnt loss of function experiments.

Question 14

In the canonical wnt pathway, what happens if there is no Wnt to Beta-catenin?

Answer 14

Without Wnt B-catenin phosphorylated by Ck1alpha and GSK3beta in a distruction complex.
This is recognised by Slimb causing B-catenin to be ubiquitinated and therefore degraded by proteosmones.
This then leaves the destruction complex empty to degrade other B-catenins.

Question 15

HSPG are not required in the drosophila, suggesting?

Answer 15

Most effects of Wnt signaling can be elicited by a membrane bound form of the protein. This suggests that juxtacrine signaling mediated via cell-cell contact is sufficient in many cases.

Question 16

In the absence of beta-catenin, what happens to the wnt genes?

Answer 16

In the absense of B-catenin, Groucho stays bound to the TCF on the promoter and represses transcription.
Groucho recruits histole deacetylases making the DNA tightly packed and hard to access. (heterochromatin)

Question 17

What happens to Beta-catenin levels when Wnt is present?

Answer 17

Arrow and Fz are brought together and dishevelled protein is phosphorylated, which may bind to axin in the destruction complex and inactivate it. GSK3 also phosphorylates arrow/LRP and axin is recruited to the receptor.
Slimb is then lost from the complex, so B-catenin is not ubiquitinated or degraded.
Therefore B-catenin accumulates, and is translocated to the nucleus, (some stay bound to the destruction complex so others cant be degraded.)

Question 18

If Wnt is present and beta-catenin accumulates what happens to wnt genes?

Answer 18

the B-catenin displaces the repressor groucho from the TCF/LEF family binding protein on the promoter and the wnt genes are transcribed.
Histone acetylases and chromatin remodelling factors make the DNA accessible. (euchromatin)

Question 19

How is B-catenin phosphorylated?

Answer 19

By Ck1 alpha first on the N-terminal , which primes for the three phosphorylations by GSK3 beta. The 4 sites are required for recognition by an E3 ubiqutin ligase complex (slimb)
The serine/threonine phosphates and surrounding amino acid sequence forms an optimal binding site for Slimb.

Question 20

How does slimb interract with Beta-catenin?

Answer 20

Slimb has an F-box which binds to the scaffold proteins e.g. Skp1 of the SCF E3 ligase. The WD40 repeats of the F-box recognises the Phosphorylated sections of beta-catenin, and bind to these also.

Question 21

Structure of the SCF e3 ligase complex? (and other info) Conufused.

Answer 21

The SCF complex consists of the ring finger protein Roc1 binding E2 ligase, a scaffold protein cul1 and skp1. The latter binds the F box of beta TRCP/Slimb. F-box proteins target phosphorylated substrates specifically, leading to addition of Ub to them, and subsequent processing by the proteasome. The WD40 repeats of beta-TrCP interacts with specific substrates, including beta-catenin/armadillo. It also targets Ci from the hedgehog pathway

Question 22

How is the DNA adapted for translation of Wnt genes when Beta-catenin is present?

Answer 22

Histone acetyl transferases recruited and other chromatin remodelling factors such as BRG1.
Euchromatin.
In Drosophila Pygo and Lgs co-factors for transcription- mutations cause wingless phenotype.

Question 23

What are the negative feedback regulators induced by wnt signalling?

Answer 23

Dickkopf-1 and 4, Axin-2
Certain wnts (wnt5a) can inhibit canonical
wnt signaling via ror2
(research more?)

Question 24

What is the most common wnt pathway?

Answer 24

Canonical

others Planar cell polarity/convergent extension

Question 25

Wnt and convergent extension movements?

Answer 25

Non-canonical wnt: in zebrafish wnt11 and wnt5 mutants show clear defects in convergent extension movements.

Question 26

Wnt and axon guidance?

Answer 26

Repulsion by RYK receptor tyrosine kinase

Question 27

3 examples of planar cell polarity Wnt signalling?

Answer 27

Hairs on the arm all facing the same way. Cells have polarity.
Mirror image hexagonal tesselation arund the D/v line of the ommatidium of the drosophila eye.
Convergent extension in the zebrafish, mutant in Vangl has problems. This is a planar cell polarity protein.

Question 28

Examples of Canonical Wnt in Drosophila?

Answer 28

Segment polarity: Drosophila- without wg loss of naked cuticle- sets up segments and parasegments.
Wingbuds: Expressed at d/v boundary of laminal disc in drosophila, mutant= wingless

Question 29

Examples of Canonical Wnt in vetebrates?

Answer 29

Anterior/posterior axis: E.g. zebrafish highest posterior giving different fates etc e.g. overexpression too anteriorly (LiCl experiment) gives loss of eye development.
Orgniser: early beta-catenin along with Nodal sets apart the Nieuwkoop centre, which signals to the organiser through Wnt II.

Question 30

Wnt in c.elegans?

Answer 30

In C. elegans another important model system wnt signaling can be studied by analysing the migration of two neuroblasts: the QRd and QLd cells.
Wnt signaling in the QLd cell induces a homeobox gene mab5 which induces posterior migration. Thus in the absence of the signal both cell move anteriorly whereas ectopic activation of wnt leads to both cells migrating posteriorly.

Question 31

Wnt in intestinal stem cells?

Answer 31

Wnt maintains the gut stem cell population int he villi Crypts which are used to constantly renew gut cells.
If downregulate Wnt signalling by increasng Dkk (or -/- TCF4)= loss of stem cells as differentiate .

Question 32

Wnt signalling and cancer?

Answer 32

Loss of APC tumor supressor gene (truncating events that inactivate) e.g. causes Familial adenomatous polyposis.
(dominant but throughout life one somatic cell mutation + the germ cell =cancer)
APC negatively regulates (inhibits) B-catenin, which when levels increase too high results in overproliferation of the tissue from the stem cells.
This can cause multiple polyps in colon and rectum which can go on to form cancer..
90% of rectum cancer causes by gain of Wnt (loss APC). Also in other cancers e.g breast.

Question 33

Axin loss of function?

Answer 33

Axin l.o.f.-hepatocellular carcinoma
loss of axin in the destruction complex= b-catenin accumulating= increased wnt signalling, so stem cell proliferation increases.

Question 34

beta- catenin regulates stem cells how?

Answer 34

Maintains stem cells, so gain of wnt -= benign tumours etc.

Question 35

LRP5/ Frizzled mutation?

Answer 35

LRP5-point mutant (frizzled) G.O.F
insensitive to Dkk-> not internalised ever, so increase in wnt signalling -> increased bone density.
Loss of function: decreased density= osteoporosis.

Question 36

Axin 2 loss of function?

Answer 36

Axin2- loss= B-catenin increases, so wnt signalling increases.
severe tooth agenesis (oligodontia)
-multiple missing teeth,
also pre-disposition for colon cancer.

Question 37

2 broad functions of Hedgehog pathway?

Answer 37

Involved in patterning and development of organs, involved in the regulation of stem cells and the initiation of cancer

Question 38

What type of gene is hedgehog?

Answer 38

It is a segment polarity gene.

Question 39

Hedgehog knockout?

Answer 39

Loss of naked cuticle, so too many denticles, as it and wingless with engrailed are in a feedback loop.

Question 40

Vertebrate hedgehog homologues?

Answer 40

Hh -> sonic hedgehog, indian and desert

Question 41

How is the hedgehog post translational modifications?

Answer 41

Transcribed with the N-terminal signalling sequence in tact, which enables it to be secreted.
This is removed.
C-terminal is cleaved-autoproteolytic cleavage
Cholesterol is added to the new C terminus
Palmitoyl group is added to the N-terminus.

Question 42

What enzyme causes palmitoylation of Hedgehog? Drosophila? Vertebrae?

Answer 42

Skinny hedgehog Ski n drosophila

Hhat in vertebrates

Question 43

What is the impact of the hedgehog ligand being hydrophobic? How is this overcome?

Answer 43

It needs help inn order to diffuse away or would be stuck to the cell membrane.
Dispatched/Scube is required for release.
Multimers/lipoproteins can hide the hydrophobic regions and with help from HSPG can diffuse away a long distance.

Question 44

What is the receptor to hedgehog?

Answer 44

Ptc in drosophila, and in vertebrates Patched 1 and 2

Question 45

WHat makes the hedgehog ligand hydrophobic?

Answer 45

Cholesterol and palmitate modifications.

Question 46

Ptc is constituitively …… what? What happens if the ligand binds?

Answer 46

Inhibiting the Smo protein.

If hedgehog ligand binds to Ptc its internalised, causing an inhibition of the inhibition so activates smo.

Question 47

Hedgehog binding tranduction pathway?

Answer 47

Binds to ptc to inhibit it, which causing the disinhibition of Smo, so Smo is activated. Smo binds to the membrane and accumulates .This inhibit the proteolytic cleavage of the Ci protein, which enables it to translocate into the nucleus and bind to the hedgehog genes to activate.

Question 48

How does Ptc inhibit Smo?

Answer 48

It is thought that Patched is involved in the translocation of Smo to a compartment where it gets degraded. When ptch isnt present three events can happen to smo: Relocation, accumulation and phosphorylation.
Evidence suggests that Ptc could also be used as a translocator (e.g. C elegans, cholesterol in Niemann Pick) so could pump Smo inhibiting small molecules such as Cyclopamine.

Question 49

In vertebrates where are ptc1 and Smo found?

Answer 49

On cilla, Ptc accumulates if no smo and vice versa.

Question 50

Evidence that hedgehog signalling takes place on cillia?

Answer 50

Mouse with a mutation that disrupts the formation of cillia causes the hedgehog singalling to be impaired.

Question 51

Ptc has a homology to what?

Answer 51

A prokaryote RND permease which confers drug resistance.

Question 52

Ptc is also related to what membrane protein disease?

Answer 52

Niemann Pick Protein C1- involved in transporting cholesterol vesicles along microtubules and across the plasma membrane. Implicated in people with Nieumann Pick disease, which causes accumulation of lipids in organs.

Question 53

Ptc in C.elegans?

Answer 53

No hedgehog signalling but Ptc is used for cell membrane remodelling

Question 54

Smo is inhibited by..?

Answer 54

Cyclopamine

Question 55

What is the effect of hedgehog interracting protein?

Answer 55

In vertebrates. Acts to most likely mop up excess hedgehog, so keeping signals down.

Question 56

CDO/BDO or vertebrate Gas1 function?

Answer 56

promote the binding of Hh to Ptc.

Question 57

Structure of Smoothened?

Answer 57

Smoothened is a 7 pass transmembrane protein

Question 58

Current model of Hh impact on Ci?

Answer 58

No Hh, ci bound in a complex,

Question 59

Ci or Gli?

Answer 59

Ci is the drosophila, and Gli the vertebrate (vertebrates more complex so longer name)

Question 60

If no hedgehog what happens to Ci?

Answer 60

Complex of costal2 (acts as a scaffold protein) and fused (serine threonine kinase) bound to Smo.
Ci is bound to SuFu- Supressor of Fused.
GSK3 B, PKA and CK1 in another complex that are recruited by the complex on Smo.
This is recognised by Slimb, which partially breaks Ci down into CiR, the active repressor of the gene.
(Cig- when the hedgehogs gf gets involved who worked at GSK for 3yrs, has a Pink KA and CK1 bra then his cig habit is repressed by the want to be slim)

Question 61

Low Hedgehog impact on Ci?

Answer 61

Smo partially activated, CK1, GSK3, PKA complex dissociates. Ci is not broken down into the repressor, but also no activation.

Question 62

High Hedgehog impact on Ci?

Answer 62

Smo activated, fused phosphorylates SuFu (suppressor of fused) its thought so Ci is released from the complex at the full length- CiAct.

Question 63

How is Ci made into an active form?

Answer 63

PKA phosphorylates Ci first, priming phosphorylation by GSK3 and CK1.
Mutation of any of these sites reduces processing to cleaved Ci, and reduces Slimb binding

Question 64

What is slimb’s structure?

Answer 64

Slimb is an F box protein, a component of the SCF ubiquitin E3 ligase complex

Question 65

When Ci is cleaved what length to? from?

Answer 65

Ci-155 to Ci-75

Question 66

Vertebrate homologues of Ci? Difference between them?

Answer 66

Gli 1,2,3
Gli1 does not get cleaved to a shorter repressor form and acts only as a transcriptional activator, whereas Gli 2 and 3 can work as both activators and repressors.

Question 67

How does Slimb repress Ci?

Answer 67

Slimb binds to non-optimal binding sites on Ci and partially proteolyzes it, leaving only the N terminus in tact- ciR

Question 68

How does Shh negatively regulate its own concentration?

Answer 68

Induction of Patched1 in vertebrates by hedgehog will:
-Act to supress the level of signal inside the particular cell
-The increased amount of Patched1 is used to bind extracellular sonic hedgehog and restrict diffusion.
-Stimulators of the signal (CDO/BOC and GAS1) are downregulated by Shh
This steepens the gradient

Question 69

2 Examples of Non-Canonical Hh/Shh signallign?

Answer 69

1. Smo activates RhoA GTPase in endothelial cells.
2. Smoothened can boost Ca2+ and activation of AMPK in myocytes and adipocytes. This causes an increase in aerobic respiration in mitochondria, incomplete metabolism of glucose , producing lactose. Can be seen in the cell by the acidification of the ECM. (warburg effect)

Question 70

Warburg effect and Hedgehog signalling?

Answer 70

Aerobic respiration is often a feature of tumour cells, known as the Warburg effect. hedgehog non-canonical signalling can cause Smo to increase Ca and activate AMPK, which causes a shift towards aerobic respiration.

Question 71

Why could patients taking Shh inhibitors lose weight and have muscle cramps?

Answer 71

Some inhibitors of the Canonical pathway of Hh are activators of the non-canonical. E.g. Smo causing activation of AMPK, causing increased glucose uptake into muscle cells and fatty acid oxidation. Also increased Ca, increasing aerobic respiration in mitochondia of muscle cells, thus using more energy up.

Question 72

How do Hh and Wg regulate each other?

Answer 72

Hh -> Wg-> Eng->Hh

Question 73

Hh in the wing patterning?

Answer 73

In the Drosophila Hh is expressed in the posterior and diffuses into the anterior. This induces expression of decapentaplegic (Bmp, tgf like gene), patterning the wing.

Question 74

Shh in the neural tube?

Answer 74

Concentration of Shh seen determines the neuron cell, highest in the notocord and floorplate. Dorsal/ventral patterning.

Question 75

Shh in the limb bud?

Answer 75

Shh in the zone of polarising activity ZPA. conferring a posterior identity. Leads to certain HOX genes activation.
E.g. if transplant ectopically on other side get bilateral symmetry of the fingers in chick.

Question 76

Hh and disease?

Answer 76

Holoprosencephaly- loss of Hh-forebrain fails to develop in two hemispheres. (LOOK UP NOTES LAST TERM)
e.g. lambs that eat cyclopamine (inhibitor) can cause cyclopedia.
Polydactyl (increased Shh in ZPA) and syndactyly (webbed feet)

Question 77

Shh in developement summary?

Answer 77

Limb bud-ZPA posterior
Neural tube- neurons- highest NC and floorplate
wing patterning- posterior diffuses to A- patterning
brain development- splits procencephalon (forebrain)
Lung- branching.
etc

Question 78

Gain of Hh?

Answer 78

Cancer.
E.g. Basal cell carcinonoma. (most common cancer-skin)
Stem cell proliferation.
Gain in Smo- Proto-oncogene, or loss in Ptc tumour supressor

Question 79

Inactivation of Patched1 or SuFu? disease?

Answer 79

rhabdomyosarcoma- cancer of soft tissues, often muscles.
Loss in Ptc- tumour supressor
Medulloblastoma (ptc loss)

Question 80

inherited Hh mutation disease?

Answer 80

Nevoid basal-cell carcinoma syndrome/ Gorlin syndrome, is an inherited medical condition involving defects within multiple body systems such as the skin, nervous system, eyes, endocrine system, and bones. only 10% of people with don’t develop BCC. Mutation in Patched gene (loss) and then a spontaneous somatic cell mutation will cause -/-.

Question 81

How can Hh cause cancer without causing mutations in the pathway proteins?

Answer 81

Hh can act as a growth factor e.g. Small cell lung carcinoma, Pancreatic, prostate.
Supports tumour growth.

Question 82

Smo inhibitors use?

Answer 82

Cancer treatment?
e.g. GDC-0449. Initially a very good result, to reduce cancerous tumours on the spinal cord, however they aquired a resistance by mutating Smo and grew back.

Question 83

Similarities of Hh and Wnt?

Answer 83

• 2 hydrophobic modifications to each.
• Depend on HSPG and TM proteins for diffusion. And multimers/lipoproteins.
• Frizzled and Smo both 7TM proteins
• Scaffold proteins: Axin, Costal2
• Both proteolyzed: Ci partially proteolyzed, B-catenin fully degraded.
• Both have a repressor in absence of signal; CiR or Groucho.
• Both receptors act via a kinase to cause gene expression.