Infection And HIV

Question 1

What is the host defence strategy for attachment?

Answer 1

Rinse away by surface host secretion (trachea-cilia) and IgA

Question 2

What are the microbial strategies to overcome host attachment defences?

Answer 2

Microbes surface molecules attach to receptors on epithelial cells. Produce ciliatoxic molecules and IgA protease.

Question 3

What is the host defence strategy for invasion?

Answer 3

Cell membrane is used as a barrier.

Question 4

What are the microbial strategies to overcome host invasion defences?

Answer 4

Traverse the membrane of have phagocytise uptake. Fusion proteins in the viral envelope and release proteins that block intracellular killing.

Question 5

How can a microbe defend against a phagocyte?)

Answer 5

Release leukocidins and antiphagocytic haemolysins. Which are cytotoxic to macrophages. And they use components of cell wall/ membrane to inhibit phagocytosis.

Question 6

How do microbes counteracts host defence of restriction of Fe(3)?

Answer 6

The release siderophores, which bind and import iron into the cytosine where it’s released.

Question 7

How do microbes counteract the production of anti microbial peptides?

Answer 7

Microbes alter the cell surface receptors and release processes to break them down.

Question 8

What exit strategies do microbes have?

Answer 8

Stimulate host processes for transmission. Eg: sneezing, diarrhoea. Most processes that release bio fluids.

Question 9

How does the cholera toxin enter the cell?

Answer 9

It binds to enterocyte GM1 receptor and is endocytosed to the ER.

Question 10

What does the cholera toxin release from the ER?

Answer 10

A1 diffuses to Adenylate Cyclades to catalyse ribosylation of Gs Alpha subunit.

Question 11

What happens when cholera toxin ribosylates G-alpha?

Answer 11

Increase GTPase activity, increased cAMP which cause eflux of ions and the water by osmosis leading to diarrhoea

Question 12

What does the cholera toxin do?

Answer 12

Bind GM1 receptors, cause release of A1 from the ER this ribosylates cAMP increase GTPase activity. Leads to increased cAMP causing eflux of ions leading to osmosis and finally diarrhoea

Question 13

What does Enterotoxigenic E.coli do?

Answer 13

Attaches small intestine mucosa and releases heat labile and stable toxins.

Question 14

What does Enteropathogenic E.coli?

Answer 14

Attach firmly to intestinal mucosa and cause dissolution of the brush border by vesiculation of microvilli.

Question 15

What does Enteroinvasive E.coli do?

Answer 15

Attach to colonic enterocytes and causes necrosis and strips areas of colonic mucosa.

Question 16

What is necrosis?

Answer 16

Form of premature cell death (autolysis) can be caused by toxins

Question 17

What is enteroaggregative E.coli?

Answer 17

Damage and blunt villi via haemorrhagic necrosis

Question 18

What is enterohaemorragic E.coli?

Answer 18

It is an E.coli that releases shifts like toxins which kill enterocytes cause haemorrhagic colitis.

Question 19

What haemorrhagic colitis?

Answer 19

Severe cramping and diarrhoea that becomes bloody

Question 20

What are islands of pathogenicity?

Answer 20

Areas of pathogenic genes usually from horizontal gene transfer.

Question 21

What is a major island of pathogenicity?

Answer 21

Locus of enterocyte effacement (LEE) which encodes for proteins that allow the injection of Enterohaemorhagic E.coli proteins into host cell.

Question 22

How many types of shiga like toxin are there?

Answer 22

2

Question 23

How does shiga like toxin work?

Answer 23

Two subunits A) inhibits proteins synthesis and is surrounded by B) binds to ceramics cell receptors- used in apoptosis

Question 24

What is HIV?

Answer 24

Human immunodeficiency virus

Question 25

How many strains of HIV are there?

Answer 25

2- HIV1&2: however HIV-1 has many subtypes due to mutations.

Question 26

What virus family does HIV belong to?

Answer 26

Lentivirus family

Question 27

Describe HIVs genome?

Answer 27

2 single stranded RNA molecules each bound by a reverse transcriptase

Question 28

HIVs genome is surrounded by a capsid with two layers. what are they made of?

Answer 28

Inner layer- p24

Outer layer- p17

Question 29

What proteins form HIVs viral envelope?

Answer 29

gp120 and gp41

Question 30

What does HIV gag protein do?

Answer 30

Produces gag precursor processes by viral protease. It then associated with the membrane attract 2 RNA copies and viral proteins before budding off into a virion

Question 31

What cells does HIV. Infect?

Answer 31

Cells that express CD4 glycoprotein. Eg: monocytes, helper T-cells and dendritic cells

Question 32

What are the two stages of viral infection?

Answer 32

Binding to the host cell and fusion with the membrane.

Question 33

What protein does HIV have that binds CD4?

Answer 33

gp120 protein

Question 34

What is the HIV lifecycle?

Answer 34

Binds CD4 via gp120. The nucleocapsid enters the cell and releases RNA & RTase produces DNA. Viral proteins translate from RNA. Assembly of RNA and protein into viral particles where the bud of the membrane.

Question 35

What is special between HIV and dendritic cells?

Answer 35

Dendritic cells can be hijacked and used to move around the body and to lymph nodes as they’re attract CD4 T-helpers- causes increased infection.

Question 36

What is HIVs Gp160?

Answer 36

It’s a glycoprotein trimer used to overcome fusion energy barriers.

Question 37

How does HIVs Gp160 protein work?

Answer 37

It cleaves into gp120 & gp41. gp120,binds CD4 receptor allowing binding to CXCR4/CCR5. gp41 becomes integral to both membranes

Question 38

What are M-trophic?

Answer 38

Use CCR5 receptor allows infection of T-helper, macrophages, monocytes and dendritic.

Question 39

What is T-tropic HIV?

Answer 39

Use CXCR4 can only infect T-helper cells

Question 40

What mutation can cause HIV resistance?

Answer 40

Homozygous for mutant CCR5 these individuals are resistant to infection of HIV.

Question 41

What does emergence of T-tropic signal?

Answer 41

Rapid progression of AIDs

Question 42

Why does HIV have a high mutation rate?

Answer 42

~10 mistakes per replication leading to a high mutation rate.

Question 43

What is latency in HIV?

Answer 43

Latentcy is the time between HIV infection and development of AIDs

Question 44

How does HIV hitch a ride to lymphnodes from dendritic cells?

Answer 44

Using a sialyllactose head on GM3 ganglioside (glycosphingolipid) exposed on HIV membrane is recognised by dendritic cells and takes up the virus

Question 45

What happens to serum antibodies in people with HIV?

Answer 45

They have increased serum antibodies and autobodies even though they have impaired antibody responses.

Question 46

What happens directly after HIV infection?

Answer 46

There is a period of rapid viral replication

Question 47

Why does HIV enter the latent phase?

Answer 47

Infection results in strong antibody response to gp120 and p24. Alongside a strong CD8 cytotoxic which eliminates 99% apart from 1% as a prophage entering latent phase

Question 48

Is the latent phase really latent?

Answer 48

No, there is a high level of viral replication known as viraemia

Question 49

What can viraemia tell us?

Answer 49

High levels of of viraemia means faster development of aids.
Low levels of viraemia means slower development of aids

Question 50

What give HIV higher chance of immunological survival?

Answer 50

It has a very high replication rate and can hide as a provirus
HIV also has a very high mutation rate so antigen aren’t recognised well

Question 51

How do you get CD4. T-cell loss?

Answer 51

• HIV causes direct lysis
• Infected cells have antigen on surface membrane so are killed by antibodies and complement
• cytotoxic CD8 T-cells

Question 52

What molecule mediates apoptosis?

Answer 52

Capase-3

Question 53

What molecule mediates pyroptosis?

Answer 53

Capase-1

Question 54

What is pyroptosis?

Answer 54

A highly inflammatory form of lytic programmed cell death

Question 55

How does pyroptosis occur?

Answer 55

Inefficient reverse transcription leads to accumulation of viral DNA detected by DNA sensor IFI16 resulting in the inflammasome forming- causes activation of Capase-1 that causes pyroptosis

Question 56

What are the 3 categories of HIV drug used?

Answer 56

• nucleoside analogue reverse transcriptase inhibitors
• non-nucleoside analogue reverse transcriptase inhibitors
• HIV protease inhibitors

Question 57

How do HIV Nucleoside analogue reverse transcriptase inhibitor drug work?

Answer 57

They lack a 3’-hydroxyl group in deoxyribose so cannot join the next nucleoside replication halts- called chain termination.

Question 58

How do HIV non-nucleoside reverse transcriptase inhibitors work?

Answer 58

They bind to reverse transcriptase inhibiting movement of protein domains that are needed to carry out DNA synthesis.

Question 59

How do HIV protease inhibitors work?

Answer 59

They inhibit the active site of reverse transcriptase used to leave precursor proteins preventing protein synthesis.

Question 60

What is the best treatment for HIV?

Answer 60

Combination treatment of all three as it can be very effective at reducing virus levels and increasing CD4 levels. However they can be quite toxic to humans so some can’t take the regime.