Genetic treatments

Question 1

What are inborn errors of metabolism?

Answer 1

Rare inherited disorders whereby the body is unable to effectively convert substrate into energy or for the synthesis of ATP (Glycolysis, and beta oxidation)
Disorders attributed to defects in specific enzymes responsible for the hydrolytic degradation (metabolism) of food

Question 2

What inheritance pattern is demonstrated by phenylketonuria (PKU)?

Answer 2

Autosomal recessive

Question 3

Which metabolism is affected by PKU?

Answer 3

Phenylalanine metabolism

Question 4

Why is phenylalanine metabolism affected by PKU?

Answer 4

There is a deficiency in the enzyme phenylalanine hydroxylase (PAH)
The enzyme catalyzes the amino conversion of phenylalanine into tyrosine
Leads to an accumulation of phenylalanine and its metabolites in tissues and bodily fluids

Question 5

What is the PAH gene mutation in terms of chromosomes?

Answer 5

12q23.2

Question 6

Explain the pathophysiology of PKU in terms of phenylalanine accumulation?

Answer 6

Elevated levels of Phe, leads to increased production of phenyl ketones, these compounds express degrees of neurotoxicity.
Phe affects the synthesis of inhibitory monoamine neurotransmitters (Responsible for physiological and homeostatic processes)

Question 7

What are the symptoms associated with untreated PKU?

Answer 7

Major cognitive impairments; behavioural difficulties; fairer skin tone, hair and eyes; lack of melanin and recurrent vomiting.

Question 8

How is PKU treated?

Answer 8

Patients are given a low protein diet (protein diets have high Phe content) - in a combination of Tyrosine supplements
Screening program introduced to measure levels of phenylalanine upon initial recognition of disease; treatment succeeds in scientific understanding.

Question 9

What is neutral amino-acid therapy?

Answer 9

Supplement partially inhibits the absorption of phenylalanine

Question 10

What is the inheritance pattern of hemophilia?

Answer 10

Sex-linked inherited genetic condition

Question 11

What is hemophilia?

Answer 11

Sex-linked genetic conditions which impair the body’s ability to release clotting factors in aim to produce blood clots.
Symptomatically, this increases the clotting time after injury, contributes to easy bruising and increased riskof internal bleeding (brain and joints)
The condition typically caused by hereditary lack of coagulation factor VIII,
Heat treatment of product kills HIV & HBV

Question 12

What treatments are available for hemophilia (5)?

Answer 12

Cryoprecipitate 
Desmopressin
Clotting preserving medications
Fibrin sealants
Replacement therapy

Question 13

How can cryoprecipitate be used to treat hemophilia?

Answer 13

Prepared from plasma & purified, contains factor VIII, and platelet concentrates can be intravenously administered as a replacement therapy
Recombinant clotting factor VIII gene cloned to synthesize an increased level of factor can be used.

Question 14

How can desmopressin be used to treat hemophilia?

Answer 14

Hormone can stimulate the release of more clotting factors, administered intravenously or as a nasal spray, only for milder variants of hemophilia.

Question 15

How do clotting preserving medications work?

Answer 15

Medications inhibit and reduce fibrinolysis - reducing clot degradation

Question 16

How do fibrin sealants work?

Answer 16

Medications can be applied directly to the wound sites to promote clotting & bleeding

Question 17

Which recombinant protein is injected in patients with Fabry & Pompe diseases?

Answer 17

Alpha galactosidase A

Question 18

What is the first phase of drug development?

Answer 18

Drug development relies on multiple phases to ensure efficacy
First stage discovery is based on preclinical understanding (lab-based experimental procedures to provide evidence to back hypothesis)
Animal testing to evaluate toxicity, and clinical testing to identify dosages

Question 19

How many main phases are there for clinical drug testing?

Answer 19

Phase 1-3

3 phases

Question 20

What is phase 1 for clinical testing?

Answer 20

Safety in healthy volunteers (<100)

Question 21

What is phase II during clinical testing?

Answer 21

Check therapeutic effect (100-300)

Question 22

What is phase III of clinical testing?

Answer 22

Large scale therapeutic trials (200-3000) Approval: EMA & FDA

Question 23

How are NHS drugs approved?

Answer 23

Prescription of NHS drugs require approval by the National Institute for Health & Care Excellence (NICE) for England & Wales.
Healthcare improvement in Scotland

Question 24

How are NHS drugs approved?

Answer 24

Depending on cost-effectiveness and efficacy

Provides guidelines for treating conditions

Question 25

What are pharmacological chaperones?

Answer 25

Protein folding and processing occurs in the endoplasmic reticulum (ER), where the protein tertiary structure is maintained and constructed to confer specificity.
Chaperone proteins regulate the folding process. Implemented system in ER degrades misfolded proteins (subject degradation pathway)

Question 26

How do molecular chaperones work?

Answer 26

Molecular chaperones in the endoplasmic reticulum are designated to support nascent proteins entering the ER lumen and assist towards attaining the correct protein conformation and prevent non-specific aggregation
Mutations can alter the polypeptide sequence, transforming the trinucleotide sequence of a codon, encoding for a different amino acid (impacting the stereochemical and polar properties of the chain) - attributing to altered bonds.

Question 27

Which enzyme is misfolded in Fabry disease?

Answer 27

alpha-Galactosidase A

Question 28

Which substrate accumulates within blood vessels, tissue, and organs as a result of Fabry disease?

Answer 28

Globotriosylceramide

Question 29

Which molecular chaperone is used in Fabry disease?

Answer 29

Migalastat

Question 30

How does Migalastat stabilize and treat Fabry disease

Answer 30

Chaperone stabilizes enzyme by binding to active site to mutant forms of alpha-galactosidase A; conforming for correct structural configuration within the endoplasmic reticulum, and facilitating normal trafficking to lysosomes. Migalablast antagonist of substrate - mutation-specific

Question 31

When was migalastat approved by NICE?

Answer 31

Feb 2017

Question 32

What are pharmacological modulators?

Answer 32

Are receptor agonists/antagonists behaving through ion channel activation/inhibition

Question 33

What is the function of the BCL-ABL kinase inhibitor?

Answer 33

Product of Philadelphia chromsome, drug only binds to mutant kinase form

Question 34

How does the pharmacological modulator, ivacaftor treat cystic fibrosis?

Answer 34

CFTR protein defection causes a dysfunctional chloride ion channel. Mutations (33) attributed to channel closure
ANSWER: Facilitates increased chloride transport by potentiating the channel open probability if the G55ID-CFTR protein. Drug is mutation-specific

Question 35

How can combination therapy be used to treat cystic fibrosis?

Answer 35

Orkambi involves a combination of chaperone and activator molecules
Lumacaftor and ivacaftor respectively.
Refolded protein channel does not exhibit complete activity

Question 36

Which cystic fibrosis mutation causes chloride channel dysfunction?

Answer 36

f508del

Question 37

How does lumacaftor work in regards to cystic fibrosis treatment?

Answer 37

A pharmacological chaperone that enhances conformational stability of f508del-CFTR, increases processing and trafficking of mature CFTR protein to the cell surface
Combination of both drugs leads to elevated transmembrane chloride transport

Question 38

How are missense mutations caused?

Answer 38

Caused by premature stop codon within the sequence of mRNA. Stop codon inhibits and ceases ribosomal translation of protein, therefore prematurely truncating the polypeptide chain. Protein is degraded (sensed as incorrect combination).

Question 39

Which antibiotic causes mistranslation of proteins by impacting RNA proofreading (binding to 30s ribosomal subunit)?

Answer 39

Aminoglycosides

Question 40

How does nonsense suppressor binding works?

Answer 40

Enables cognate amino-acyl tRNAs to compete with release factors.

Question 41

How does DMD &BMD in terms of deletions and stop codons occur?

Answer 41

DMD Premature stop codon in DMA
BMD -> Deletion causes omitted section, dystrophin exhibits partial functionality
Reading through premature stop codon can cause the deleterious condition to be transformed into BMD

Question 42

How can DMD be treated using Ataluren?

Answer 42

Stop codon read through

Inhibits premature stop codon expression

Question 43

Which drug can cause a stop codon readthrough in DMD?

Answer 43

Ataluren

Question 44

In terms of gene therapy what happens in dominant conditions to the gene?

Answer 44

Delete defective gene

Question 45

In terms of gene therapy what happens in recessive conditions?

Answer 45

Replace defective gene

Question 46

How can mitochondrial diseases be therapeutically treated in terms of genetics?

Answer 46

Requires IVF, DNA derived from fertilised ovum is extracted and transferred to donor egg normal mitochondria 
Spindle transfer (unfertilised egg). Spindle complex is removed and transferred to the donor egg, the fused egg is fertilised in vitro

PRONUCLEAR TRANSFER

Question 47

How do viral vectors work?

Answer 47

Viral genes conferring for proteins that result in stimulating adverse effects are removed or inactivated, and the desired gene is inserted. Thereby, this integrates the desired gene into the viral genome
Lysogenic viruses are used to transfer the desired gene into the cell to be transformed
The recombinant DNA can thus be integrated into the host’s genome

Question 48

Which viruses are commonly used as viral vectors in the treatment of genetic diseases?

Answer 48

AAV, adenovirus, lentivirus (HIV) and vaccinia

Question 49

What are gene guns?

Answer 49

Gene guns bombard cells with minute particles of tungsten/gold, these particulates are coated with copies of desired DNA, the particles that have entered the cell and be integrated into the host genome

Question 50

Who do liposomes work?

Answer 50

The desired gene is enclosed in a spherical phospholipid bilayer, the liposomes can fuse with the cell surface membrane of the host cell delivering the DNA into the cytoplasm

Question 51

Which enzyme is dysfunctional in Severe Combined Immunodeficiency Disease (SCID)?

Answer 51

Adenosine deaminase

Question 52

How can SCID be treated?

Answer 52

Involves the removal of T-lymphocytes and insertion of the correct allele into them using a vector. The successful cells are cloned - replenish numbers

Question 53

What is the inheritance pattern of cystic fibrosis?

Answer 53

Autosomal recessive

Question 54

Which transporter protein is affected in patients with cystic fibrosis?

Answer 54

CFTR Transmembrane conductive receptor

Question 55

What is the purpose of the CFTR protein?

Answer 55

Present on epithelial cells within the airways; pumps chloride ions through channels in the plasma membrane, and hence a low water potential outside the cells.
Water moves out of the cells by osmosis down the water potential gradient, diluting the mucous and reducing its viscosity.

Question 56

Which chromosome is the CFTR gene located on?

Answer 56

Chromosome 9

Question 57

How can liposomes be used to treat CF?

Answer 57

Liposomes containing the dominant allele can be introduced into the cells lining the respiratory tract. Adenovirus is the vector used for treating this disorder, although the effects of cystic fibrosis are suppressed for a small period of time

Question 58

Which is the most common viral vector for CF treatment/

Answer 58

Adenovirus

Question 59

What is germline gene therapy?

Answer 59

Involves changing the genes in cells that would go on to become gametes

Question 60

What does CAR-T cell gene therapy stand for?

Answer 60

Chimeric antigen receptor -T cell (CAR-T)

Question 61

Which diseases are commonly treated by CAR-T cell therapy?

Answer 61

Cancer, mainly forms of lymphoma

Question 62

What is the T cell receptor antigen associated within CAR-T cell gene therapy?

Answer 62

Major histocompatibility complex, low affinity

Question 63

How can the TCR-MHC affinity increase in CAR-T cell gene therapy?

Answer 63

Attachment of antibody to YCR enhances affinity, thereby can recognize antigen directly without the assistance of proteins.

Question 64

Which antibody region recognizes cancer cells during CAR-T cell gene therapy?

Answer 64

Variable region monoclonal antibody scFV receptor recognizes cancer cells.
T-cell receptor and the co-receptor signaling domain

Question 65

Where is the antigen recognition domain exposed on the extracellular surface on CAR-T cells?

Answer 65

Ectodomain portion of the receptor

Question 66

What is the purpose of the ectodomain portion of the receptor in CAR-T cells?

Answer 66

Interacts with potential target molecules and is responsible for targeting the CAR-T cell to any cell expressing a matching molecule

Question 67

What is the antigen-recognition domain derived from in CAR-T cells?

Answer 67

Derived from single-chain variable fragments (scFv)- Chimeric protein consists of light and heavy chains of immunoglobulins, connected to shorter linked peptides
Light and heavy chains are used for binding affinity to the target antigen.

Question 68

Which virus is used to insert the chimeric antigen gene into T-cell DNA during CAR-T cell therapy?

Answer 68

Lentivirus (Retrovirus undergoes reverse transcription and inserts specific scFv gene into the genome)
CAR-T cell proliferate and reinfused into the patient

Question 69

How is in vitro CAR-T cell therapy conducted?

Answer 69

Patient T-cells are isolated, these are expanded, transfected with chimeric antigen receptor using lentivirus

Question 70

Which drugs are prescribed to patients alongside with CAR-T cell gene therapy?

Answer 70

Immunosuppressants

Question 71

Why are immunosuppressants provided to patients undergoing CAR-T cell gene therapy?

Answer 71

Reduces host T-cell production

Question 72

What are the symptoms and side effects associated with CAR-T cell therapy?

Answer 72

Cytokine release syndrome attributed to neurological damage, expensive treatment

Question 73

Which congenital disease is usually treated with in vivo therapy supplement?

Answer 73

Leber congenital amaurosis type 2

Question 74

What is the inheritance pattern of Leber congenital amaurosis type 2?

Answer 74

Autosomal recessive

Question 75

Which mutated allele causes Leber congenital amaurosis type 2?

Answer 75

RPE65

Question 76

What are the symptoms associated with the mutated RPE65 allele?

Answer 76

Results in progressive blindness attributed to a reduction in retinal cells

Question 77

Which virus is used to insert the corrected RPE65 gene for patients with Leber congenital amaurosis type 2?

Answer 77

Luxturna rAAV2

Question 78

How can in vivo therapy supplement be used to treat retinal blindness?

Answer 78

Viral vector (rAAV2) expressing the correct RPE65 gene  is injected into the retina, replaces defective recessive allele); minimizes retinal damage and inhibiting further deterioration 
Patients require sufficient remaining cells

Question 79

What are anti-sense oligonucleotides?

Answer 79

Antisense oligonucleotides are short modified single-stranded nucleic acids that interact with mRNA to prevent translation of a targeted gene

Question 80

How do anti-sense oligonucleotides work?

Answer 80

Non-coding RNA nucleotide antagonists prevents the action of RNA polymerases from catalyzing the formation of phosphodiester bonds between adjacent nucleotides - thereby inhibiting translation of DNA sequence is complementary to specific mRNA target binding leads to degradation of the DNA sequences - failure of protein production

Alter splicing during post-translational modification of pre-mRNA transcript –> transcription is inhibited

Question 81

What is in vivo therapy knockdown?

Answer 81

RNA interference results in knocking and downregulating gene expression of the target gene responsible for the pathogenesis of the genetic condition. Useful for diseases caused by gain of function - currently no successful therapies

Question 82

How can in vivo therapy be used to treat Hungtington’s?

Answer 82

Oligonucleotides injected into CSF of the spinal cord (intrafoetally) - Blocks the translation of mutant huntingtin protein (RG602 Huntington’s disease) PHASE III trial

Question 83

What is exon-skipping?

Answer 83

Pre-RNA processing oligonucleotides cause exons to be skipped, thereby this skips the disease-causing exon, and enables the RNA to be reintegrated into the reading frame with the removed mutant exon, resulting in partially active protein.
Removed exon cannot be vital to protein function; effective for large proteins (minor impact on polypeptide chain)

Question 84

Why is exon skipping more effective in large proteins?

Answer 84

Removed exon cannot be vital to protein function; effective for large proteins (minor impact on polypeptide chain)

Question 85

Which genetic disorder is exon skipping used for?

Answer 85

Duchenne muscular dystrophy; transformed into Becker phenotype

Question 86

Which drug can be used to exon skip for DMD?

Answer 86

Eteplisern

Question 87

What is the mechanism of action for Eteplisern?

Answer 87

Oligonucleotide causes skipping of exon 51, therefore truncated active dystrophin is produced

Question 88

What does CRISPR stand for?

Answer 88

Clustered regularly interspaced short palindromic repeats

Question 89

Which enzymes are associated with the CAS-9 protein?

Answer 89

Endonucleases, these nucleases are molecular enzymes responsible for catalyzing and cleavage of phosphodiester bonds between adjacent mononucleotides
CAS-9 cleves the double-stranded DNA at specific restriction sites along with the genome, these sections can be added.remvoed

Question 90

What is the purpose of guide-RNA in CRISPR?

Answer 90

Consists of pre-designated RNA sequence located within a longer RNA scaffold
The scaffold section binds to DNA, pre-designated sequence guides CAS-9 to the correct genomic location. Cas-9 cleaves a specific target sequence of DNA as designated by gRNA.

Question 91

What are the limitations of gene editing?

Answer 91

Gene editing corrects relatively small errors, cannot correct large changes (deletions and triple expansions)
Off-target effects and ineffective intracellular mechanisms.