HIV

Question 1

What are the tests for HIV?

Answer 1

A rapid finger-prick or mouth-swab point-of-care test (POCT)

A blood test requiring lab analysis

Question 2

Where are HIV tests done?

Answer 2

Sex health/genitourinary medicine clinics
Some GP surgeries
Clinics run by charities
Antenatal clinics
Private clinics

Question 3

How do 3rd and 4th gen tests for HIV differ?

Answer 3

3rd have larger window period (6 weeks compared to 14-20 days) because it looks only for HIV Abs and not p24 antigen

Question 4

What is a window period?

Answer 4

The time between a person becomes infected with HIV until the point when a test can detect HIV infection

Question 5

Describe the natural history of HIV infection

Answer 5

First CD4 cells drop and viral loads peaks (about 6 weeks)

Viral load then drops and CD4 pop rebounds

Then, the CD4 begins to progressively drop and eventually the viral load increases again

Question 6

Below what CD4 count do contitutional symptoms start?

Answer 6

350

Question 7

At what CD4 count do opportunistic infections affect the host?

Answer 7

300-250

Question 8

What do CD4 counts and viral load tell you?

Answer 8

when to intervene in terms of antiretroviral

Question 9

What is the definition of the HIV viral load measurement?

Answer 9

The amount of HIV RNA in peripheral blood

Question 10

What 3 assays are used to measure viral load?

Answer 10

RT-PCR
bDNA (branched DNA test)
NASBA (nucleic acid sequence based amplification)

Question 11

How does RT-PCR work?

Answer 11

Viral RNA is transcribed to DNA with retroviral RT

Millions of copies are amplified using standard PCR

Assay makes even tiny amounts of RNA detectable

Can detect the number of copies being made by primers which make colour or light (real time PCR)

Question 12

How does bDNA work?

Answer 12

Uses nucleic acid hybridization to detect target.

Question 13

In what way is bDNA better than RT-PCR?

Answer 13

Doesn’t rely on PCR and is more quantitative

Question 14

what does NASBA do?

Answer 14

it is a method to amplify RNA seq

Question 15

How do you find out CD4 cell count

Answer 15

Take whole blood

Do an assay based on fluorescence activated cell sorter: Sample is mixed with tagged anti-CD4 Ab which bind to any CD4 cells which the machine counts as a sample flow by the detector

Question 16

How many times a year are patients’ CD4 cell counts checked?

Answer 16

3-4 times (so they know about changes over time)

Question 17

What does 90-90-90 refer to?

Answer 17

90% should know that they have it

Of these 90% should be on treatment

And of this 90% should be virally suppressed

Question 18

What is the main receptor for HIV and its co receptor?

Answer 18

CD4

important co receptor = CCR5

Question 19

Images of the HIV virus look smooth. Why?

Answer 19

Probably there are very few virus gps and they all move to the point where they make contact with the CD4 cell (so the immune system doesnt see it)

Question 20

What are some adaptations of HIV to not be detected by the immune system?

Answer 20

They have few virus gps outside

A glycan shield covers most of it except where it binds the cell (even this can be covered sometimes)

Env (viral envelope forming protein) has has very variable sequence

Question 21

Describe the HIV replication cycle

Answer 21

Attachement and entry —> reverse transcription –> nuclear import –> integration, gene expression, genome replication –> production and release of virus particles

Question 22

How does HIV genome replication occur

Answer 22

RT makes a complementary DNA strand to HIV RNA

The RNA strand is degraded

RT makes carries out DNA dependent DNA synthesis for the new DNA strand to make a double stranded DNA

This all occurs in the cytoplasm

The DNA enters in the nucleus where it is integrated in the host genome by integrase

Question 23

How might HIV’s replication cause a problem (for the virus)?

Answer 23

The DNA is made in the cytoplasm –> can trigger DNA sensors –> antiviral effect

Question 24

What is the only other time (other than virus infection) when you see DNA in cytoplasm?

Answer 24

Mitosis

Question 25

How does HIV prevent its DNA getting detected in the cytoplasm?

Answer 25

Capsid

Question 26

How do you get nucleotides into the capsid to make DNA?

Answer 26

Each hexomer has a pore in it (core has + charged AAs) which sucks nucleotides in

Acts as a molecular switch to decide whether RT can occur or not

The pore is probably cytoplasmic proteins which the virus recruits

These proteins control pore status and tell the virus where in the cell it is

Question 27

Why is HIV cone shaped?

Answer 27

There is an accumulation of pentamers at pointy end

This is probably because that end docks on the nucleus and releases the DNA into the nucleus by opening

Question 28

Where in the genome does HIV integration occur?

Answer 28

In transcriptionally active genes adjacent to nuclear pores

Question 29

What happens if you mutate capsid or integrase (with respect to HIV integration)?

Answer 29

The integration will happen in a different place in the genome

Question 30

How do HIV particles assemble?

Answer 30

Gag proteins are made. Protease first cleaves itself and then cleaves Gag into 5 subunits to make the structure

Round virus particles become cone-shaped

Question 31

What is a marker of T cell activation?

Answer 31

CD38

Question 32

What is seen in HIV infections (markers and cells)?

Answer 32

Increased CD38

Increased CD8 %

Decreased CD4

Question 33

How do T cells die?

Answer 33

Majority of dead CD4 T cells are not infected

Virus tries to infect and fails –> Caspase 1-mediated pyroptosis, a highly inflammatory form of cell death

Question 34

What is the role of the inflammatory process in CD4 T cell death?

Answer 34

HIV infection –> pyroptosis –> inflammatory cytokines and cell contents are released –> inflammation –> recruiting healthy CD4 cells –> repeat (chronic cycle)

Question 35

Where was the data about chronic inflammation in HIV taken from?

Answer 35

Tonsil explants (from people who might already have been sick and had activated tonsils)

Question 36

Where are most of your T cells?

Answer 36

In the gut

Question 37

Why (when it comes to HIV) should we try to sample from different locations in the body?

Answer 37

CD4 and innate lymphoid depletion occurs in the gut and does not recover even after treatment

Dysbiosis/ microbial translocation causes more activation

T cells have residency

Question 38

How many zoonoses have lead to HIV?

Answer 38

12

Question 39

Which HIV strain causes the HIV pandemic?

Answer 39

HIV-1 M

Question 40

Why is HIV 1 M special?

Answer 40

Not clear but: 1M is the only one that has a fully functioning pore

Question 41

Why might SIV never lead to AIDS like HIV?

Answer 41

Many possible reasons

You don’t see dysbiosis or have chronic immune activation in SIV

Question 42

Why does SIV not have chronic immune activation?

Answer 42

Vpx allows it to replicate in non activated cells

Non activated cells can repress HIV (e.g. SAMHD1)

Question 43

Can we cure HIV?

Answer 43

We can treat it but if you stop treating then you will get rapid rise in virus again

Visconte cohort: people who stopped taking drugs but the virus was controlled in absence of therapy (unknown why)

The Berlin Patient

Question 44

How do active cells allow HIV to be expressed?

Answer 44

NfKb binds to the LTR (promoter for HIV)

Polymerase comes and gets to TAR, which stalls the polymerase

In an activated cell a viral protein called TAT recruits a transcription elongation factor (P-TEFb) which allows RNA polymerase to continue

Question 45

How can you repress proviruses?

Answer 45

Downregulate P-TEFb

Sequester NFkB in the cytosol

Epigenetically silence provirus

Question 46

Can we measure the latent reservoir?

Answer 46

Very difficult

Peripheral blood is often used but this is not representative of other parts of the body

Has very few cells - most mutated

Question 47

Describe the steps of the kick and kill mechanism

Answer 47

1. ART is used to make sure HIV is not detectable
2. 2 vaccines train the immune system to recognise cells that will be activated
3. Vorinostat is used to wake up the sleeping cells
4. The immune system, boosted by the vaccine, attacks and kills the newly activated cells

Question 48

Is there active replication during effective ART?

Answer 48

Yes

Sanctuary sites - replication can occur but the antivirals are not reaching

Question 49

What is CD32a?

Answer 49

It is a controversial marker for latent HIV infected cells

Question 50

What are some new approaches to HIV therapy?

Answer 50

Better ART formulations etc. (e.g. slower release so its not daily doses)

Latency reversal - kick and kill

Targeting immune activation/ specific immunosuppression

Using the host: making the virus visible to sensing

Broadly neutralising antibodies - as adjunct therapy/ replacement or induced by antigens