tumorviruses

Question 1

what are the two models by which viruses could cause cancer?

Answer 1

1: provirus model: genes enter the cell at the time of infection carried by the tumor virus
2: oncogene model: genes for malignancy are already present in all cells of the body - tumor viruses can activate

Question 2

what is the difference between cellular oncogenes and viral oncogenes?

Answer 2

cellular oncogenes have introns and exons whereas viral oncogenes don’t

Question 3

what do human papillomaviruses cause?

Answer 3

papillomas
benign tumors of squamous cells
can develop to carcinoma

Question 4

describe the DNA structure of papillomaviruses

Answer 4

double-stranded circular DNA

Question 5

what type of virion structure do papilloma viruses have?

Answer 5

icosahedral nuclocapsid

Question 6

are papillomaviruses enveloped?

Answer 6

nonenveloped

Question 7

which genes in papillomaviruses are implicated in carcinogenesis? by what mechanism?

Answer 7

two of the early genes: E6 and E7
encode proteins that inactivate genes encoded by tumor suppressor genes (esp. p53 and RB) - interfere with the stability of these proteins

Question 8

how many types of HPV are there? which ones infect which tissues?

Answer 8

over 100 types
HPV 1-4: skin warts
HPV-6 and HPV-11: genital warts, respiratory tract papillomas, especially laryngeal, in young children
HPV-16: E6 and E7 proteins bind more strongly to p53 and RB proteins than other types of HPV => more carcinogenic
also oral cancers
HPV-16 and HPV-18: intraepithelial neoplasia
about 30 types infect genital tract

Question 9

in what kinds of cells does HPV replicate?

Answer 9

in terminally differentiated squamous cells

initially infects cells of basal layer of skin, but no virus produced in those cells

Question 10

how does HPV DNA become malignant?

Answer 10

it’s incorporated into host cell DNA in vicinity of cellular proto-oncogenes
E6 and E7 are overexpressed
E6 can bind to the p53 protein and inactivate it

Question 11

where is HPV DNA in latently infected cells?

Answer 11

episomally located

E6 and E7 are not overexpressed

Question 12

why are E6 and E7 not overexpressed in the latent form of HPV?

Answer 12

another early gene, E2, controls E6 and E7 expression
E2 only functional when DNA is episomal
E2 inactivated when viral DNA is integrated, so now E6 and E7 can be overexpressed

Question 13

how is HPV transmitted?

Answer 13

by skin-to-skin contact and by genital contact

Question 14

can HPV be transmitted to neonates? if so, what would be the symptoms of neonatal HPV?

Answer 14

yes, during childbirth

causes warts in mouth and in respiratory tract, especially on larynx

Question 15

what are koilocytes and what viral infection are they the hallmark of?

Answer 15

cytoplasmic vacuole that’s characteristic of infection by HPV

Question 16

what type of immune reaction is induced by HPV? what is the result of this reaction?

Answer 16

both cell-mediated immunity and antibody

spontaneous regression of warts

Question 17

what would be the clinical presentation of HPV infection?

Answer 17

most commonly, papillomas of various organs depending on the virus type
carcinoma of uterine cervix, penis and anus
intraepithelial neoplasia

Question 18

what is intraepithelial neoplasia and what viruses cause it? how would you detect it?

Answer 18

HPV-16 and HPV-18
premalignant lesions on cervix (CIN) or penis (PIN)
detect by applying acetic acid to tissue

Question 19

how would you diagnose HPV? (laboratory diagnosis)

Answer 19

usually diagnosed clinically - presence of koilocytes in lesions
PCR to detect DNA of 14 high-risk genotypes

Question 20

how is HPV treated?

Answer 20

podophyllin for genital warts
alpha interferon also, and help prevent recurrences
liquid nitrogen for skin warts
plantar warts removed surgically or treated with salicyclic acid
cidofovir for severe infections

Question 21

what are the vaccines for HPV? what types of vaccines are they?

Answer 21

1: Gardasil - recombinant vaccine against 4 types of HPV - has capsid proteins from types 6, 11, 16, and 18
2: cervarix - recombinant vaccine - proteins from 16 and 18 plus adjuvant AS04 that stimulates toll-like receptors and thereby enhances antibody production

Question 22

how would you prevent HPV transmission?

Answer 22

vaccines
c-section uncertain in effectiveness
circumcision reduces risk of infection

Question 23

steps of replicative cycle of hepatitis B

Answer 23

1: virion enters cell
2: uncoating
3: virion DNA polymerase synthesizes missing portion of DNA (remember that hep B has double-stranded circular DNA with two notches/gaps)
4: DNA serves as template for mRNA synthesis by cellular RNA polymerase
5: full-length positive-strand transcript made = template for minus-strand of progeny DNA
6: minus strand then template for plus-strand of genome DNA

catalyzed by reverse transcriptase
RNA-dependent DNA synthesis
some of progeny DNA integrates into host cell genome

Question 24

where does replication of hep B DNA occur?

Answer 24

within the newly assembled virion core in the cytoplasm

Question 25

what is malignant transformation of cells? what are morphogenic characteristics of these cells? (review of biochem last term)

Answer 25

when cells change in growth properties, shape and other features when becoming a tumor cell = altered morphology
lose characteristic differentiated shape
appear rounded and more retractile under microscope
rounding due to disaggregation of actin filaments
grow in disorganized, piled-up pattern
lose contact inhibition
grow in vitro at much lower concentrations of serum than non-malignant cells
grow well in suspension - non-malignant cells must be grown adherently
can be easily cloned

Question 26

what happens to the life-span of cells in culture when infected by a tumor virus?

Answer 26

the cell becomes immortalized - able to continue growing long past the time when when its normal counterpart would have died

Question 27

how do tumor viruses affect cell cycle phase?

Answer 27

tumor viruses can induce DNA synthesis and move cells that were in G1 phase to S phase

Question 28

what is the effect of tumor viruses on karotype?

Answer 28

the karyotype of infected cells will change - changes in number and shape of chromosomes - deletions, duplications, translocations

Question 29

what sorts of antigens will tumor virus infected cells display?

Answer 29

virus-encoded proteins
preexisting cellular proteins that have been modified
previously repressed cellular proteins that are now being synthesized
new antigens are recognition sites for immune surveillance against tumor cells

Question 30

how will infection by tumor viruses affect agglutination by lectins?

Answer 30

agglutination will be enhanced
lectins = plant glycoproteins that bind specifically to certain sugars on the cell membrane surface
increased agglutination may be due to clustering of existing receptor sites rather than to the synthesis of new ones

Question 31

what biochemical properties will change in tumor virus infected cells? (summary card)

Answer 31

1: reduced levels of cAMP
2: secrete more plasminogen activator
3: increased anaerobic glycolysis => increased lactic acid
4: loss of fibronectin
5: changes in membrane glycoproteins

Question 32

how does infection with tumor virus affect cell cAMP production?

Answer 32

reduced production

addition of cAMP to malignant cells can cause reversion to non-malignant state

Question 33

how does infection with tumor virus affect cell plasminogen activator secretion? (what is plasminogen activator?)

Answer 33

plasminogen activator is a protease that converts plasminogen to plasmin
plasmin dissolves the fibrin clot
malignant cells secrete more

Question 34

how does infection with a tumor virus affect cell lactic acid production?

Answer 34

Warburg effect - cancer cells have increased anaerobic glycolysis and so increased lactic acid production

Question 35

how does infection with a tumor virus affect fibronectin production?

Answer 35

fibronectin = high molecular weight glycoprotein
loss of fibronectin in malignant cells
effect of this unknown

Question 36

how does infection with a tumor virus affect components of cell membranes?

Answer 36

changes in the components of glycoproteins and glycolipids in membranes

Question 37

does viral material have to be present for the virus to transform a cell into its malignant form?

Answer 37

at least for some viruses
to determine this, rous sarcoma virus was made that is temperature sensitive - active at 35 degrees C but not at 39
infect chicken cells
at 35, these cells are transformed
when incubated to 39, regain normal morphology and behavior
return to 35 and go back to transformed morphology
therefore, continuous production of some functional virus-encoding protein is required for maintenance of the transformed state

Question 38

how has the onc gene provided evidence that oncogenes exist in normal cells?

Answer 38

DNA copy of onc gene of chicken retrovirus Rous sarcoma was used as probe
DNA in normal embryonic cells hybridized to this probe - indicates that the cells contain a gene homologous to the viral gene

Question 39

what are the hypothesized precursors to viral oncogenes?

Answer 39

cellular oncogenes
but although they’re similar, they’re not identical
cellular have exons and introns
viral don’t
but viral oncogenes likely acquired by incorporation of cellular oncogenes into retroviruses lacking these genes
therefore, retroviruses can be thought of as transducing agents

Question 40

what types of proteins can viral oncogenes encode?

Answer 40

• protein kinases that phosphorylate tyrosine (most protein kinases in cells phosphorylate serine)
• cellular growth factors such as EGF
• proteins that have effect at cell membrane, such as G-proteins
• proteins that act in nucleus by binding to the DNA

Question 41

describe the model of growth control that incorporates the variety of different types of proteins encoded by viral oncogenes.

Answer 41

growth factor binds receptor on cell membrane
membrane g-proteins and tyrosine kinases are activated
these interact with cytoplasmic proteins or produce second messengers
proteins or second messengers transported to nucleus
interact with nuclear factors
DNA synthesis activated
cell division occurs
overproduction or improper expression of any of the proteins in the above sequence can result in malignant transformation

Question 42

what is the evidence that cellular oncogenes can cause malignant transformation? (5)

Answer 42

1: DNA-containing cellular oncogenes from tumor cells can transform normal cells in culture - genes have single base change
2: characteristic translocations of chromosomal segments can be seen in certain tumors
3: some tumors have amplification (multiple copies) of some oncogenes - results in overexpression of these genes
4: insertion of the DNA copy of the retroviral RNA (proviral DNA) near a cellular oncogene stimulates expression of c-one gene
5: some cellular oncogenes isolated from normal cells can cause malignant transformation if they have been modified to be over-expressed within the recipient cell

Question 43

what is an example of when translocation is the apparent cause of tumorigenesis?

Answer 43

burkitt’s lymphoma cells
tranlocation moves cellular oncogene c-myc from its normal site on chromosome 8 to a new site adjacent to an immunoglobuilin heavy chain gene on chromosome 14
results in enhanced expression of c-myc

Question 44

what are the two mechanisms that appear to be able to activate quiescent proto-oncogenes into functioning oncogenes?

Answer 44

mutation

increased expression

Question 45

how can tumor suppressor genes contribute to oncogenesis? what viruses cause tumors by this mechanism

Answer 45

when mutated may not suppress tumor
like RB
called antioncogenes
HPV and SV40 viruses produce proteins that binds to and inactivates RB gene
HPV also produces protein that inactivates p53

Question 46

must a virus replicate to have tumorigenic properties?

Answer 46

no. actually, in most cases DNA tumor viruses transform only cells in which they do not replicate
all that’s necessary for transformation is that one or a few of the viral proteins that are oncogenes are replicated
can occur in non-permissive cells

Question 47

what is the essential step required for a DNA tumor virus to cause malignant transformation?

Answer 47

expression of the early genes of the virus

produce set of early proteins called T antogens

Question 48

what are T antogens?

Answer 48

proteins produced by early genes of viruses
most located in cell nucleus
for SV40 gene, large T antigen is necessary and sufficient for tumorigenesis
has protein kinase and ATP activity
mostly located in nucleus, but some in outer cell membrane where can be detected by transplantation antigen tumor specific transplantation antigen (TSTA)

Question 49

what do RNA tumor viruses usually do as opposed to DNA tumor viruses? (ie what genes does each type of virus affect?)

Answer 49

RNA tumor viruses affect proto-oncogenes by introducing, up-regulating or mutating them - affect on the DNA of the host cell - since acting on genes, is somewhat heritable
DNA viruses act on tumor suppressor genes by inactivating them - act at the protein level - sequester or degrade them

Question 50

what are the 5 ways viruses can transform cells?

Answer 50

1: by inserting an oncogene into the host geneome - only happens in transducing retroviruses - no known human examples known
2: by random insertion into the host genome by altering expression of an existing cellular oncogene - only in non-transducing retroviruses
3: by altering growth properties of cells, rendering them more likely to enter a transformed state - done by non-transducing long latency retroviruses and DNA tumor viruses such as EBV and HHV-8
4: by infecting cells and altering activity/stability of cell cycle-related proteins with or without an integration effect - seen in DNA tumor viruses such as papilloma virus and hepadnaviruses such as hep b may fall into this category
5: other mechanisms in vivo, such as chronic tissue damage that causes regeneration of tissue - such as what hep C does in the liver
hep B may also fall in to this category

Question 51

why are retroviruses particularly tumorigenic?

Answer 51

+stranded RNA viruses but must go through a DNA intermediate to make mRNA
this DNA integrates into the host cell genome
while some other viruses make DNA, retroviruses are the only ones for which integration into the genome is essential for replication and that can get out - only ones where integration is a viable concern

Question 52

what is the structure of retrovirus genomes?

Answer 52

two identical strands of +sense RNA

Question 53

what proteins do retroviruses carry in their nucleocapsids?

Answer 53

reverse transcriptase
integrase - integrates DNA into host genome
protease

Question 54

what are the three basic categories of transforming viruses? (classified by mechanisms)

Answer 54

transducing
non-transducing
non-transducing, long latency

Question 55

how do transducing retroviruses cause cancer? how did they become transducing retroviruses?

Answer 55

usually need coinfection with another virus to get integration of genome - lost one of their growth genes and acquired a cellular oncogene
insert their oncogene into the host DNA

Question 56

How effective are transducing retroviruses at causing cancer? how quickly do they cause cancer?

Answer 56

almost 100% of infected cells will get tumors

tumor latency matter of days

Question 57

non-transducing (summary card)

Answer 57

slow tumor latency
have not acquired a snark
insert into the wrong spot in genome - cause endogenous genes to be mistranslated
LTR gets inserted - it’s a downstream enhancer - orientation independent so can insert anywhere in genome and can act on genes far away as enhancers or can act as promoters to adjacent genes

Question 58

how do transducing retroviruses capture oncogenes? (not going to be tested on)

Answer 58

viral DNA has LDRs on the side - strong promoters of transcription - where they insert into the genome, will induce high transcription rates for viral DNA
RNA that’s made and part of genome gets deleted - acquires piece of host DNA downstream from that deletion spot - if it was an oncogene, virus now carries oncogene
can also occur if virus just also replicates snark gene and so has an additional oncogene component

Question 58

what is the cost of being a transducing retrovirus?

Answer 58

since the end sequence that was replaced by an oncogene is no longer there, the viral DNA can’t get out of the host DNA so can’t replicate unless there’s a helper virus also in the cell that contains the end-gene needed to get the DNA out of the genome

Question 59

why is insertional inactivation of a tumor suppressor gene very rare?

Answer 59

we have two copies of these genes, so even if one is suppressed, it’s very unlikely that the virus would also suppress the other and so the gene will still be expressed

Question 60

how could non-transducing RV be used theraputically?

Answer 60

could be used for gene therapy to insert a correct gene into the genome of those who have mutated versions
recently used to reverse SCID, but trial was halted due to the development of leukemia in 3 kids

Question 61

what is the estimated worldwide incidence of HTLV-1?

Answer 61

20 million worldwide

Question 62

where is the highest incidence of HTLV-1?

Answer 62

japan

Question 63

what diseases does HTLV-1 cause?

Answer 63

no clinical manifestations but 2% of female carriers and 6% of male carriers develop adult T cell lymphoma/leukemia

Question 64

how long is the latency of HTLV-1?

Answer 64

greater than 30 years often

Question 65

how long do people usually carry HTLV-1?

Answer 65

usually lifelong, but there’s no clinical manifestations

Question 66

how is HTLV-1 transmitted?

Answer 66

sexually and via IV drug use or transfusion

Question 67

is there chromosomal location specificity with HTLV-1?

Answer 67

even though the tumor cells are clonal for insertion, there doesn’t seem to be any chromosomal location specificity

Question 68

which genes does HTLV carry?

Answer 68

gag
pol
env
LTRs (Long Terminal Repeats are not actually genes. They are structural elements in the viral genome that allow for the insertion of functional genes into the host genome.)
and Tax

Question 69

what is tax and what does it do? what virus carries it?

Answer 69

carried in HTLV
transcription factor
tax –> NF(kappa)B –> IL-2 –> proliferation

Question 70

why does the presence of tax in HTLV-1 increase the likelihood of cancer?

Answer 70

tax leads to increase in IL-2, which leads to increase in T-cell proliferation
this rapid rate of proliferation leads to t cell malignancy

Question 71

what does it mean for a cell to be clonal?

Answer 71

the virus will insert at the same insertion site in all of the cells from the same person

Question 72

in what diseases is the xenotropic murine leukemia virus-related virus (XMRV) implicated?

Answer 72

prostate cancer - seen in 27% of prostate cancers

also found in blood of CFS patients

Question 73

what type of virus is XMRV (of the types of tumor causing viruses)?

Answer 73

it’s unclear as to what group it belongs in
could be non-transducing or long latency
has no known oncogene

Question 74

what are mechanisms by which DNA tumor viruses can cause cancer?

Answer 74

• interfere/inactivate tumor suppressors - p53 and RB are common targets
• stimulate/interfere with cell signaling
• produce cyclin homologs
• inhibit apoptosis
• inhibit immune response to tumors

Question 75

how does the SV40 virus cause cancer?

Answer 75

it produces the LT protein, which sequesters p53

Question 76

how is papillomavirus treated?

Answer 76

antivirals and vaccines
imiquimod (aldara) is a topical cream
potent agonist of TLR7 and IFNalpha
see resolution of lesions from 0-5 months

Question 77

in what species does SV40 cause cancer?

Answer 77

in various animals but there’s no evidence that it causes cancer in humans

Question 78

where does EBV usually cause cancer in the body?

Answer 78

Jaw, abdominal, and also in the heart

Question 79

in what regions of the world does EBV usually cause cancer?

Answer 79

subsaharan/equatorial africa

Question 80

what other diseases does cancer caused by EBV coinside with?

Answer 80

with highest rates of HIV and malaria

Question 81

how does EBV cause cancer?

Answer 81

increases size and activity of germinal centers
these germinal centers are the sites of somatic mutation of Ig regions for maturation of Ab responses
LMP-1 protein drives B cells to proliferate - enters germinal centers
greater than 90% of cases of burkitt’s lymphoma have a reciprocal translocation that results in the movement of the proto-oncogene c-myc from chromosome 8 to the proximity of the antibody genes on chromosome 14 => overexpression of c-myc => transformation and cancer

Question 82

what factors does HHV-8/KSHV rely on for growth?

Answer 82

exogenous cytokines

Question 83

what does HHV-8/KSHV require to form tumors?

Answer 83

cofactors from HIV/immunosuppression

Question 84

how does HHV-8/KSHV help tumor growth?

Answer 84

it’s highly angiogenic, so increases blood supply to tumors

viral IL-6 and v-GPCR homologs are essential for tumor growth - these cause cells to replicate

Question 85

what are the most prevalent tumor causing viruses in the world?

Answer 85

hep B and C

Question 86

what percentage of the world population are infected with Hep B and C

Answer 86

3-5%

Question 87

how does hepatitis B cause cancer?

Answer 87

has an x protein that seems to target p53 and fos-myc
DNA may integrate into genome
causes chronic inflammation

Question 88

how does hepatitis C cause cancer?

Answer 88

likely through chronic inflammation
non-cytolytic
does not have DNA intermediate, oncogene, or DNA integration