Andy Watts

Question 1

What is the HIV mechanism of infection?

Answer 1

HIV primarily infects CD4+ T cells of the immune system.

1. HIV gp120 protein binds to CD4 receptors.
2. Co-receptors CCR-5 and CXCR4 are involved.

Question 2

What HIV protein binds to CD4 receptors?

Answer 2

gp120

Question 3

What occurs once gp120 + CD4 binding has occurred?

Answer 3

Conformational change occurs and gp120/CD4 binds to either CCR-5 or CXCR4.

Question 4

What is a HIV infection characterised by? [3]

Answer 4

1. Chronic immune activation.
2. CD4 T cell depletion.
3. Dysfunction of the immune system.

Question 5

What is the importance of the CCR-5 receptor?

Answer 5

1. Co-receptor involved in HIV entry to cells.
2. Mutations that inactivate it are found and individuals homozygous for the CCR-5 mutation are very resistant to HIV infection.

Question 6

What co-receptors are involved in HIV infection?

Answer 6

CCR-5
CXCR4
Some HIV will only use one or the other, some will use both.

Question 7

What opportunistic infections may someone with HIV develop? [5]

Answer 7

1. Candidiasis
2. Cytomegalovirus (CMV)
3. Herpes Simplex Virus (HSV)
4. Tuberculosis (TB)
5. Mycobacterium avium complex (MAC or MAI)

Question 8

In what ways can the immune activation associated with HIV infection be manifested? [2]

Answer 8

1. T cell proliferation

2. Increased expression of CD38 on CD4/CD8 T cells.

Question 9

What occurs after gp120/CD4 has bound to either CCR-5 or CXCR4?

Answer 9

gp41 membrane penetration and then fusion occurs.

Question 10

What is the most potent factor known to increase the risk of progression from M.tuberculosis infection to disease?

Answer 10

HIV.

Question 11

What does current HIV treatment involve?

Answer 11

Combinations of drugs acting at different targets. Treatment with a single drug has short term benefit, but long term only serves to select resistant mutants,

Question 12

What are NNRTIs?

Answer 12

Non-nucleoside reverse transcriptase inhibitors.

Question 13

What are the six classes of current HIV anti-virals?

Answer 13

1. NRTIs
2. NNRTIs
3. Protease inhibitors (PI)
4. Fusion inhibitors
5. Integrase inhibitors.
6. CCR5 antagonists

Question 14

What is HAART?

Answer 14

Highly Active Anti-Retroviral Therapy.

Question 15

What is HAART composed of?

Answer 15

1. 3 different antiretroviral drugs
2. From at least two different classes.
3. Reduces incidence of resistance.
4. Can reduce toxicity/side effects by lowering dose.

Question 16

What are NRTIs?

Answer 16

Nucleoside/Nucleotide Reverse Transcriptase Inhibitors.

Question 17

How do NRTIs function?

Answer 17

Act as chain terminators or inhibitors at the substrate binding site of RT.
Didanosine.
Zidovudine.
Lamivudine.

Question 18

What examples of NRTIs are there?

Answer 18

Didanosine, Zidovudine, Lamivudine.

Question 19

What are NNRTIs?

Answer 19

Non-nucleoside analog reverse transcriptase inhibitors. Bind allosterically, causing a conformational change.
Nevirapine, Delavirdine, Efavirenz.

Question 20

What is Nevirapine?

Answer 20

NNRTI

Question 21

What is Delavirdine?

Answer 21

NNRTI

Question 22

What is lamivudine?

Answer 22

NRTI - chain terminator/inhibitor at active site.

Question 23

What is Efavirenz?

Answer 23

NNRTI

Question 24

What is didanosine?

Answer 24

NRTI - chain terminator/inhibitor at active site.

Question 25

What are three NNRTIs?

Answer 25

1. Efavirenz
2. Nevirapine
3. Delavirdine.

Question 26

How do protease inhibitors function?

Answer 26

Inhibit HIV protease which is need to process GAG and POL polyproteins into mature HIV components. All PIs contain a hydroxyethylene bond instead of the normal peptide bond. Lopinavir

Question 27

What bond do all PIs contain that allows them to inhibit HIV protease?

Answer 27

Hydroxyethylene bond instead of normal peptide bond.

Lopinavir

Question 28

HIV protease normally processes what into mature HIV components?

Answer 28

GAG and POL polyproteins.

Lopinavir.

Question 29

What is Lopinavir?

Answer 29

Protease inhibitor.

Question 30

What is fuzeon?

Answer 30

New class: fusion inhibitors.
36 amino acid peptide. Produced synthetically.
Rationally designed to mimic components of GP41 and displace them.

Question 31

Fuzeon was rationally designed to mimic what?

Answer 31

New class: fusion inhibitors.
36 amino acid peptide. Produced synthetically.
Rationally designed to mimic components of GP41 and displace them.

Question 32

What is Maraviroc?

Answer 32

CCR5 inhibitor.
Block attachment of HIC to the CCR5 receptor. Only effective in people whose HIV only uses the CCR5 receptor for replication, not ones that use both (CCR5 + CXCR4) or those that only use CXCR4.

Question 33

For which patients can Maraviroc be prescribed?

Answer 33

CCR5 inhibitor.
Block attachment of HIC to the CCR5 receptor. Only effective in people whose HIV only uses the CCR5 receptor for replication, not ones that use both (CCR5 + CXCR4) or those that only use CXCR4.

Question 34

Against which receptor is Maraviroc targeted?

Answer 34

CCR5 inhibitor.
Block attachment of HIC to the CCR5 receptor. Only effective in people whose HIV only uses the CCR5 receptor for replication, not ones that use both (CCR5 + CXCR4) or those that only use CXCR4.

Question 35

An antiviral targeted for the CCR5 receptor:

Answer 35

Maraviroc.
CCR5 inhibitor.
Block attachment of HIC to the CCR5 receptor. Only effective in people whose HIV only uses the CCR5 receptor for replication, not ones that use both (CCR5 + CXCR4) or those that only use CXCR4.

Question 36

What is Raltegravir?

Answer 36

Integrase inhibitor.

Question 37

What are fixed dose combinations?

Answer 37

Antiretrovirals which are combinations of 2 or more medications from one or more different classes. These antiretrovirals are combined into one single pill with specific doses of these medicines.

Question 38

NNRTI-based HAART consists of:

Answer 38

Tenofovir/Emtricitabine + Efavirenz

Question 39

Protease inhibitor-based HAART consists of:

Answer 39

Tenofovir/Emtricitabine + Ritonavir + Atazanavir OR

Ritonavir + darunavir.

Question 40

Integrase strand transfer inhibitor based HAART consists of:

Answer 40

Tenofovir + (AND) + Emtricitabine + Raltegravir.

Question 41

What are the main challenges to HAART?

Answer 41

1. Intolerance and long-term toxicity
2. Lack of adherence
3. Co-morbidities
4. Increasing drug resistance
5. Liver disease

Question 42

What is our initial response to influenza infection?

Answer 42

NFKB transcription and thus pro-inflammatory cytokine gene expression of TNFa, IFNB and IL-8. TH1 response.

Question 43

What is our long-term response to influenza infection?

Answer 43

IFNgamma boosts chemokine gene expression, activation of macrophages, antigen presentation and continual development of specific-cell mediated immunity.
TH2 response. Long term protection against similar strains.

Question 44

What is an antigen?

Answer 44

Molecule that provokes a specific immune response may be components of microorganisms.

Question 45

What are the key influenza antigens?

Answer 45

HA

Question 46

What is the primary immune response?

Answer 46

First encounter with a foreign antigen. Only a few B or T cells can recognise the antigen.

Question 47

What is the secondary immune response?

Answer 47

Second exposure to a foreign antigen. This time there is a large clone supply of memory cells that can recognise the antigen. Immune response is more effective (antigen specific antibodies)

Question 48

What is the difference between vaccines for influenza and drugs for influenza?

Answer 48

Drugs will be active against all strains and serotypes but not confer long lasting protection. Can be stockpiled.

Vaccines provide protection, which can be long term, against infection but need to be produced ahead of time. A specific vaccine is required for each serotype of influenza.

Question 49

How are Influenza subtypes distinguished?

Answer 49

The antigenic properties of HA and NA.

Question 50

How many HA subtypes are found in influenza type A viruses that exhibit human-human spread?

Answer 50

3. H1
   H2
   H3

Question 51

How many NA subtypes are found in influenza type A viruses isolated from infected humans?

Answer 51

2.
N1
N2

Question 52

What is antigenic drift?

Answer 52

Gradual accumulation of mutations that allow the hemagglutinin to escape neutralising antibodies. Epidemic strains are thought to have changes in three or more antigenic sites.

Question 53

What is pandemic influenza?

Answer 53

Occurs when a NEW strain of virus is formed, often origination from another species.
No immune history so no natural protection. Impossible to predict the nature of the strain or when it will emerge. Can be highly pathogenic and result in high rates of mortality

Question 54

What is a trivalent vaccine?

Answer 54

Contains three inactivated vaccines, given IM

Question 55

How are vaccines prepared?

Answer 55

Chicken eggs

Question 56

What are the critical factors relating to influenza vaccine manufacturing? [4]

Answer 56

1. Growth potential of seed virus.
2. Timing of strain selection.
3. Potency test reagents.
4. Timing of Annual Licence Supplement Approval.

Question 57

What are the two classes of influenza antiviral drugs?

Answer 57

1. M2 inhibitors. Adamantanes:
Amantadine. 
Rimantadine. 
2. NA inhibitors. 
Oseltamivir.
Zanamivir.

Question 58

Oseltamivir and Zanamivir are which class of influenza antiviral?

Answer 58

NA inhibitors.

Question 59

Amantadine and rimantadine are examples of which class of influenza antiviral?

Answer 59

M2 inhibitors,

Question 60

How does amantadine function?

Answer 60

Interferes with the transmembrane domain of the M2 protein.

Prevents virus assembly.

Question 61

What are the problems with Amantadine?

Answer 61

90% of clinical isolates showed resistance.

Question 62

What is Rimantadine?

Answer 62

1. Less toxic alternative to amantadine.
2. Similar mechanism of action.
3. Not NICE recommend.

Question 63

How do NA inhibitors work?

Answer 63

Competitive inhibitors that compete with the natural receptors for access to the NA active site.

Question 64

What are the advantages of NA inhibitors?

Answer 64

Active against all strains of influenza (ABC) and all serotypes.

Question 65

Why are NAi preferred to M2 inhibitors?

Answer 65

Active against all strains of influenza (ABC) and all serotypes.
M2 only against A.

Question 66

What is Nevirapine?

Answer 66

Non-nucleoside analog reverse transcriptase inhibitors. Bind allosterically, causing a conformational change.
Nevirapine, Delavirdine, Efavirenz.

Question 67

What is Delavirdine?

Answer 67

Non-nucleoside analog reverse transcriptase inhibitors. Bind allosterically, causing a conformational change.
Nevirapine, Delavirdine, Efavirenz.

Question 68

What are nevirapine, delavirdine and efavirenz all examples of?

Answer 68

Non-nucleoside analog reverse transcriptase inhibitors. Bind allosterically, causing a conformational change.
Nevirapine, Delavirdine, Efavirenz.