Emerging treatments

Question 1

What pathways with metabolism are usually affected with genetic disease?

Answer 1

• Usually alternate product
• Carbohydrate
• Fatty acid
• Proteins
• lack enzyme

Question 2

What are some examples of inborn errors of metabolism disease?

Answer 2

PKU
MCAD Deficiency
Maple Syrup Urine Disease
Homocystinuria

Question 3

What is PKU caused by? What does this cause?

Answer 3

1 Caused by lack of phhenylanine hydroxylase (so not transformed into tyrosine)

2. So increased levels of phenylanine which turns into phenylketones
3. Both of these are neurotoxins

Question 4

What does untreated PKU lead to?

Answer 4

-Major cognitive impairment 
behavioural difficulties
fairer skin, hair and eyes than siblings
-lack of melanin
-recurrent vomiting

Question 5

How is PKU treated?

Answer 5

Treated with low protein diet – Tyrosine supp
Before treatment need to identify cause
Possible before gene identified - biochemistry
-Lack of PAH 1960’s PKU screening introduced (just measuring levels can’t see gene as not known)
-1984 PAH mutation identified

Question 6

What is Haemophilia?

Answer 6

• Blood clotting disorder
• Known since ancient times
• Uncontrolled bleeding
• Bleeding into joints
• excruciating pain
• Bleeding into brain
• Internal bleeding
• Untreated fatal

Question 7

How do you treat haemophilia?

Answer 7

1968 - First FVIII concentrate available
1970s - Freeze-dried plasma-derived factor concentrates available
However Not all good news
1970-1980s
5000-30000 given clotting factors contaminated with HIV and hepatitis
2500 so far died
1980s - heat treat products kill virus
1980s - Factor VIII gene cloned 
1990s – Recombinant Factor VII treatment
So now pure and disease free

Question 8

How is Growth hormone deficiency treated?

Answer 8

Injection growth hormone now recombinant (cadaver derived cjd)

Question 9

How is lysosomal storage diseases treated?

Answer 9

-This affects lysosomal breakdown

Question 10

How is Fabry disease treated?

Answer 10

•Injection recombinant alpha galactosidase A

Question 11

How is Pompe disease treated?

Answer 11

•Injection of alpha glucosidase

Question 12

How are drugs approved?

Answer 12

• Discovery
• Animals
• 3 clinical phase
• Approval EMA FDA
• For NHS, NICE and look at evidence, cost and value for money

Question 13

What are some therapies targeting proteins?

Answer 13

• These are treatments not cures

- Try to normalise function of mutant protein

Question 14

Why are pharmalogical chaperons used?

Answer 14

1. Protein folding is complex sometime fails
2. System in ER degrades misfolded proteins
3. Some mutations prevent proteins folding properly
4. Subject degradation pathway
   If folded correctly would be active

Question 15

What is Fabry disease?

Answer 15

deficiency α-galactosidase A

Question 16

What is a result of Fabry disease?

Answer 16

Build up of globotriaosylceramide

Question 17

What is a pharmacological chaperon for Fabry disease?

Answer 17

-Some mutations cause misfolding
-Migalastat small molecule chaperone
Stabilises enzyme in correct shape
NICE approved Feb 2017
-Mutation specific (have to same mutation)

Question 18

What are pharmacological modulators?

Answer 18

Commonly used drugs:
1. Receptor agonists/antagonist
2. Ion channel activators/blockers
-Can design one that has these effects on mutant receptor or channel
- e.g. Bcl-abl Kinase inhibitors (Philadelphia chromosome)

Question 19

What is cystic fibrosis?

Answer 19

• Defective chloride channel

- Mutations (33) cause channel not to open

Question 20

What is a treatment for cystic fibrosis?

Answer 20

• Design a drug which causes activation - Ivacaftor binds tochannel and make it more open
• Is mutation specific (treatment won’t work without this mutation)

Question 21

How is cystic fibrosis caused treated with combination therapy?

Answer 21

• Defective chloride channel
• One mutation (f508del) misfolded, inactive channel
• Treat with combination chaperone and activator
• Orkambi (Ivacaftor/lumacaftor) – -NICE approved Oct ’19
• Not cure does improve lung function

Question 22

What is a stop Condon read through?

Answer 22

Some diseases caused by non-sense mutation
-premature stop codon
-This prevents protein production
Can drugs be used to prevent this

Question 23

What is amino glycoside antibiotic?

Answer 23

-Aminoglycoside antibiotics bind to ribosome
-Causemistranslation
Drugs based on these → read through non-sense mutations

Question 24

How is stop codon read through used in DMD and BMD?

Answer 24

Duchenne muscular dystrophy – premature stop
-Becker muscular dystrophy – missing section
-If read through premature stop DMD → BMD
-Ataluren – approved in EU not in US
NICE approved – June 2016
-Non-sense mutation specific

Question 25

Why is gene therapy hard?

Answer 25

-Achieving specificity
-Getting therapy to right place
-maintain expression

Question 26

Why is gene therapy easy in theory?

Answer 26

1. Recessive disease - replace defective gene

2, Dominant disease – delete defective gene

Question 27

When is it easier to do gene therapy?

Answer 27

Much easier to achieve in vitro than in vivo

Question 28

What does in vivo mean?

Answer 28

In the living

Question 29

What doe ex vivo mean?

Answer 29

out of the living

Question 30

What does in Vitro mean?

Answer 30

In glass

Question 31

How do you undertake mitochondrially inherited disease therapy?

Answer 31

• Only effective therapy
• Requires IVF
• Take DNA from fertilised patient egg
• Transfer to donor egg normal mitochondria

Question 32

What are the two ways to do mitochondrial inherited disease therapy?

Answer 32

1. Maternal spindle transfer

2. Pro-nuclear transfer

Question 33

What is maternal spindle transfer?

Answer 33

1. Chromosomes are removed from an unfertilised egg that has mutated mitochondrial DNA
2. These are added to an unfertilised donor egg that has had its nucleus removed
3. This fused egg is fertilised in vitro
4. The egg develops normally to from an embryo

Question 34

What is pronuclear transfer?

Answer 34

1. An egg with mutated mitochondria DNA is fertilised in vitro
2. The resulting pro-nucleus is removed
3. This is transferred to a fertilised donor egg that has had its pronucleus removed
4. The fused egg develops normally

Question 35

What are the views in mitochondrial inherited disease therapy?

Answer 35

Approved for use in UK
Not without controversy 
Popularly know as three-parent babies
Mitochondrial DNA 16 569bp
Genome 3 088 269 832bp

Question 36

What is virus gene therapy?

Answer 36

Can engineer virus to carry therapeutic gene

Question 37

What are examples of viruses used?

Answer 37

AAV
Adenovirus
Lentivirus – HIV
Vaccinia

Question 38

What does the virus choice depends on?

Answer 38

• Virus choice depends on target tissue

- Amount of DNA limited depends on virus

Question 39

What is the Chimeric Antigen Receptor T cell used? (CAR-T)

Answer 39

-To treat cancer
-T-cell receptorantigen bound to MHC
-Low affinity
-CAR – recognise antigen directly + higher affinity
-Variable region monoclonal antibody scFv
-recognise cancer cell
-T cell receptor and co-receptor signalling domain

Question 40

What is the process of CAR T cell therapy?

Answer 40

1, Isolate patients T-cells

2. T-Cells expanded
3. Transfected with CAR – lentivirus
4. CAR-T cells expanded
5. Reinfused into patient (suppress patients T cells)
6. Currently approved for some B-cell lymphomas

Question 41

When do you use CAR T cell therapy?

Answer 41

• If other therapies haven’t worked
• Can cause cytokine release syndrome, neurological damage.
• Being investigated for solid tumours

Question 42

How is in vivo gene therapy supplement used?

Answer 42

Useful lack of a functional gene

Question 43

How do you carry out in vivo gene therapy?

Answer 43

-Use a virus to carry in working copy
1. Can inject systemically
2. Can inject locally
-Eye
-Spine
-Brain
Many treatments in development

Question 44

What is Leber congenital amaurosis type 2?

Answer 44

1. Recessive disease caused by mutation RPE65

2. Progressive blindness – loss of retinal cells

Question 45

How is Leber congenital amaurosis type 2 treated?

Answer 45

• Luxturna rAAV2 expressing RPE65
• Not cure – greatly improves vision
• Patients need sufficient remaining cells
• EMA approved Nov 2018
• NICE approved Sept 2019

Question 46

What are Anti-sense oligonucleotides?

Answer 46

• Antisense oligonucleotides

- Short modified nucleic acid complementary to target

Question 47

How do Anti-sense oligonucleotides work?

Answer 47

1. Modification prevents degradation allow entry to cell
2. Binds to target
3. Block translation
4. Can also alter splicing
5. Relatively cheap to make

Question 48

What is in vivo therapy knockdown?

Answer 48

• Useful for diseases caused by gain of function
• Currently no successful therapies
• Number in late stages of clinical trials
• Ones closest to use oligonucleotides
• RG6042 Huntington’s disease phase III trial
• Mutation specific

Question 49

What is exon skipping?

Answer 49

1. During pre-RNA processing
2. Oligonucleotides cause exon to be skipped
3. Can be used to skip disease causing exon
4. To put RNA back in reading-frame
5. Useful in limited circumstances
   6.Exons skipped mustn’t be vital
   Generally only large proteins