HIV/AIDS

Question 1

single largest group who contracts HIV

Answer 1

men who have sex with men

Question 2

how do you transmit HIV

Answer 2

exchange of infected bodily fluids that allows for entry of virus across a mucosal membrane or injected parenterally
blood, semen, vaginal fluid, breast milk

Question 3

three routes of pediatric/perinatal HIV infections

Answer 3

transplacental
infected birth canal
ingestion of breast milk

Question 4

how to decrease risk of infection from infected untreated mother?

Answer 4

treatment of both mother and infant with AZT or HAART (better)

Question 5

structure of HIV

Answer 5

retrovirus related to lentiviruses

Question 6

molecular structure of HIV

Answer 6

gag = core proteins
pol = reverse transcriptase
p24 = core protein; screening antibodies made to this
gp120 = coat protein that binds CD4

Question 7

HIV envelope expresses

Answer 7

the protein envelope that is capped by gp41 and 3 copies of gp120

Question 8

lipids within the viral envelope are derived from

Answer 8

host cells on budding

Question 9

HIV core includes

Answer 9

major capsid protein p24
nucleocapsid proteins
viral enzymes necessary for reproduction (protease, integrase, and reverse transcriptase)
two copies of genomic RNA

Question 10

therapeutic protease inhibitors inhibit

Answer 10

cleavage of three large protein precursors that are coded for by the genome

Question 11

What’s responsible for avoiding antibodies made against the virus?

Answer 11

genetic variability among the envelope glycoproteins

Question 12

what does HIV have a tropism for

Answer 12

hematopoietic, nervous tissue

Question 13

gp120 binds

Answer 13

CD4 molecule on lymphocytes, macrophages, dendritic and glial cells

Question 14

fusion and entry into cells results from

Answer 14

interaction of gp120 with CCR5 or CXCR4 receptors

Question 15

Describe what happens when the virus enters cell

Answer 15

virus uncoats
viral RNA and reverse transcriptase released
viral DNA synthesized
viral DNA integrated into host DNA (via integrase)
viral assembly and budding occurs on inner wall of host cell membrane

Question 16

SEVI stands for

Answer 16

semen-derived enhancers of viral infection

Question 17

Where is the HIV virus found in the body

Answer 17

within lymphocytes and monocytes, and in a cell-free state (in blood, fluids)

Question 18

the increased presence of dendritic cells in the foreskin may in part explain

Answer 18

the increased transmission associated with uncircumcised males

Question 19

what does virus require for entry into host cells

Answer 19

co-receptor CCR5 or CXCR4

Question 20

virus infects cells that display

Answer 20

both CCR5 and CD4

Question 21

some individuals who are apparently resistant to HIV infection have proven to be

Answer 21

homozygous for CCR5 mutations

Question 22

how does a genetic change late in the infection alter the co-receptor

Answer 22

alter its co-recentpr requifrement from CCR5 to CXCR4

Question 23

CCR5 is expressed on

Answer 23

monocytes and lymphocytes

monocytotropic (M-tropic)

Question 24

CXCR4 (also known as fusin) is expressed on

Answer 24

only on T-lymphocytes

lymphotropic (L-tropic)

Question 25

CXCR4 dependent virus causes

Answer 25

syncytia formation in lymphoid tissues

referred to as a syncytium-inducing strain of HIV

Question 26

Switch to the CXCR4 phenotype is associated with

Answer 26

rapid loss of T lymphocytes and clinical deterioration
extremely poor prognostic sign
CXCR4 viruses bind to a wider range of T cell types, including naive T cell and thymocytes
switch allows viral destruction of more lymphocytes

Question 27

CXCR4 switch is due to

Answer 27

hypervariable regions on the gp120 gene

inhibitions of viral replication may alter or delay this switch

Question 28

activated CD8 cells produce

Answer 28

RANTES, MIP-1-a, MIP-1-b

bind to the CCR5 receptor and partially block virus uptake (inhibited once switched to CXCR4)

Question 29

describe uptake of the virus

Answer 29

gp120 binds CD4 molecules - exposes new recognition sites for CCR5 or CXCR4
on binding of gp120 to co-receptor, gp41 binds
gp41 undergoes conformational change that results in the insertion of a fusion peptide that permits fusion of the virus membrane to the host cell membrane

Question 30

plays an important role in establishment of the infection

Answer 30

infection of macrophages

Question 31

macrophages provide

Answer 31

transportation of the virus throughout the body, including CNS

Question 32

severe disease is associated with an

Answer 32

increase in virus proliferation and cytotoxicity in activated lymphocytes

Question 33

primarily an infection of

Answer 33

lymphoid tissues

little presence of virus in peripheral lymphocytes

Question 34

first phase decay due to

Answer 34

virus-specific CD8 T cell response

CD8 antiviral response destroys virally-infected cells and terminates early infection

Question 35

second slower decay is thought to be due to

Answer 35

loss of longer lived viral reservoirs

Question 36

progression of infection occurs because of three main factors:

Answer 36

1. continued loss of CD4 cells
2. inflammatory cytokine-mediated disruption of lymph node-associated immune processing, lymph node architecture, and CD8 effector functions
3. evolutionary changes in the virus that result in increased T cell syncytia formation and cell death

Question 37

continued loss of CD4 cells due to

Answer 37

1. viral replication in CD4+ cells
2. induction of memory CD4 cell apoptosis
3. CTL destruction of virally-infected cells

Question 38

results in progressive systemic inflammatory activation by pathogens

Answer 38

loss of CD4 mediated protective mechanisms in the gut

Question 39

many of the CD4 T cells are initially lost from

Answer 39

Peyer’s patches in the gut

Question 40

apoptosis of uninfected memory CD4 lymphocytes in lymph nodes results from

Answer 40

TLR-induced entry into S-phase (mediated by TLR-7 and TLR-8)

Question 41

treatment with HAART results in

Answer 41

an increase in CD4 cells

Question 42

which cells are never recovered even after HAART

Answer 42

HIV-specific CD4 cells

Question 43

progression of disease is reflected in

Answer 43

absolute peripheral CD4 count

Question 44

progressive defects in immune function result from

Answer 44

loss of memory T cells (CD4) and disruption of effector T cell (CD8) mediated processes

Question 45

chronic immune and inflammatory activation of both CD4 and CD8 cell populations results in

Answer 45

1. increased viral replication and cell death by cytolysis
2. enhanced apoptosis of non-infected cells
3. disruption of CD8 effector mechanisms

Question 46

what does a sticky effector CD8 T cell mean

Answer 46

expression of CD69

CD8 T cells retained within lymph nodes instead of migrating to the periphery to provide protective functions

Question 47

Two current treatment maxims resulted from evolution of drug-resistant strains

Answer 47

1. maximal inhibition of virus replication should result in a decrease in the frequency of drug resistance
2. treatment should also include multiple agents

Question 48

HIV RNA levels are currently used to

Answer 48

diagnose acute infection
follow effectiveness of therapy
indicated breakthrough of virus
predict prognosis in combination with CD4 levels

Question 49

full blown AIDS is diagnosed when

Answer 49

CD4 count drops below 200/ml

Question 50

HIV/AIDS infection of the CNS is associated with

Answer 50

subacute meningoencephalitis with a chronic inflammatory infiltrate with microglial nodules and multinucleated giant cells

Question 51

Associated neoplastic conditions

Answer 51

Kaposi’s sarcoma, Hodgkin’s disease, and lymphoma

Question 52

Opportunistic infections

Answer 52

1. Candidiasis
2. Pneumocystis pneumonia
3. Cryptococcus
4. CMV/Herpes/Zoster
5. GI infections (Giardia, amebiasis, cryptosporidiosis)
6. reactivation of latents - TB, toxo, herpes zoster
7. fungal infections

Question 53

Kaposi’s sarcoma

Answer 53

masses of proliferative spindle-shaped cells that form blood-filled channels
involves skin, mucous membranes, GI tract
angiogenic and inflammatory cytokines synthesized by virally infected cells appear to drive the vascular proliferation

Question 54

Non-Hodgkin’s lymphoma

Answer 54

highly aggressive B cell lymphomas

Question 55

inhibits viral repliation

Answer 55

HAART