Lecture 10 - Properties of Viruses

Question 1

What is a virus? What to note?

Answer 1

Acellular organism with nucleic acid genome that enters a living host and replicates using host biosynthetic machinery

NOTE” “virus” refers to the entire biology and is not limited to the virus particle

Question 2

3 key characteristics of viruses? What to note?

Answer 2

1. No metabolism (they cannot produce energy)
2. No protein synthesis machinery
3. Replication involves de novo assembly of new infectious particles that transport the viral genetic material to another host cell or organism

NOTE: 1 + 2 = cells that they infect must be living, so dead cells on our skin are a barrier to viruses

Question 3

Other name for virus particle?

Answer 3

Virion

Question 4

What is a virus particle?

Answer 4

An infectious package of genetic material

Question 5

Describe the genome of a virus particle.

Answer 5

1. RNA or DNA
2. Multiple topologies: single stranded, double stranded, linear, circular, segmented
3. Characteristics are specific for each virus type (e.g. all influenza viruses have segmented single stranded RNA genomes)

Question 6

How do RNA viruses replicate their genome? What to note?

Answer 6

They use a virally encoded RNA-dependent polymerase (therapeutic target, e.g. Hep C drugs)

Question 7

Which mutate more rapidly: RNA or DNA viruses? Why?

Implications?

Answer 7

RNA viruses because RNA polymerase does note have proof-reading activity

Implications:

1. Limits genome size
2. Better immune avoidance
3. Better drug-resistance
4. Cross-species infection due to better adaptation capability

Question 8

What are 7 examples of DNA viruses?

Answer 8

1. Herpes viruses (HSV-1,2, Varicella, KSHV)
2. Adenoviruses
3. Parvoviruses (B19)
4. Hepatitis B virus
5. Papilloma viruses (HPV-16,18…)
6. Polyomaviruses (BK, JC)
7. Molluscum contagiosum

Question 9

What are 7 examples of RNA viruses?

Answer 9

1. HIV
2. Rhinoviruses
3. Norovirus
4. Measles
5. Respiratory syncytial virus
6. Influenza
7. Hepatitis C virus

Question 10

Example of DNA virus with small genome?

Answer 10

HPV

Question 11

2 roles of the shell of a virus particle?

Answer 11

1. Protects the genome

2. Delivers the genome to new cells

Question 12

2 types of virus particle shells? Examples for each?

Answer 12

1. “Naked” capsid with icosahedral nucleocapsid = protein only (e.g. rhinovirus, enteroviruses, polyo, D68, hepatitis A, norovirus, coxsackie virus, papillomaviruses, adenoviruses, parvoviruses)
2. Enveloped = lipid membrane derived from the host + protein (e.g. influenza, measles, flaviviruses: hepatitis C, dengue, HIV, zika, etc.)

Question 13

2 properties of viruses with a naked capsid? 6 consequences?

Answer 13

1. Environmentally stable
2. Released from the cell by lysis in most cases

Consequences

1. Easily transmitted (fomites, from hand to hand, surfaces, dust, small droplets)
2. Can retain infectivity even after drying out
3. Many can survive the adverse conditions of the gut
4. Resistant to detergents and poor sewage treatment
5. Most kill the infected cell to release progeny
6. Antibody may be sufficient for immunoprotection since the virus particles kill infected cells anyways

Question 14

2 properties of viruses with an envelop? 4 consequences?

Answer 14

1. Environmentally labile: disrupted by detergents, drying, heat
2. Released from the cell by budding or cell lysis and some can spread directly from cell to cell

Consequences

1. Must stay wet or else the membrane will dry out and lose its shape and will not longer be infectious
2. Spread in large droplets, secretions, organ transplants, blood transfusions
3. Do not need to kill the cell to spread (chronic infection)
4. Some require cell-mediated immune responses for protection and control

Question 15

2 types of enveloped virus particles? Examples for each?

Answer 15

1. With icosahedral nucleocapsid (e.g. hep C, Zika, HIV, and herpes)
2. With helical nucleocapsid (e.g. measles, respiratory syncytial virus, rabies, coronaviruses, influenza) => RNA/DNA bound to proteins

Question 16

Difference between capsid and nucleocapsid?

Answer 16

Capsid = the viral protein that directly encases the genome

Nucleocapsid = the capsid + the genome

Question 17

Which type of enveloped virus particles is more typical for RNA viruses?

Answer 17

Helical nucleocapsid

Question 18

How to classify viruses?

Answer 18

1. Virion morphology (i.e. shape, size, type of shell)
2. Genome composition
3. Genetic similarity (i.e. replication mechanisms)
4. Type of Disease (e.g. hepatitis viruses)

Question 19

Examples of viruses that are very similar genetically, but not in terms of diseases?

Answer 19

1. Picornaviridae: rhinovirus, polio, coxsackie, hep A

2. Flaviridae: HCV (not transmitted by mosquitos), West Nile, dengue, Zika

Question 20

How many DNA virus families infect humans?

Answer 20

8

Question 21

How many RNA virus families infect humans?

Answer 21

17

Question 22

What do viruses within the same family share?

Answer 22

1. Similar morphology
2. Similar gene organization
3. Genetic relatedness can affect:
   - Laboratory diagnosis
   - Course of infection

Question 23

What are the 6 steps of viral pathogenesis?

Answer 23

1. Attachment and entry
2. Virus replication in infected cells
3. Spread through body
4. Host responses to infection: innate and adaptive
5. Effects on host cells due to virus and host response
6. Exit

Question 24

What is responsible for symptoms when the virus does not kill infected cells?

Answer 24

Body’s response to the virus

Question 25

What does attachment of the virus involve? What to note?

Answer 25

Involves an interaction between a protein on the surface of the virus and a “receptor” on the surface of a target cell

NOTE: host cell receptor is a critical determinant of cell (and species) specificity => major determinant of the type of disease caused

Question 26

2 ways a virus spreads in an infected individual? Describe each.

Answer 26

1. Local: replication occurs near where the virus entered the body (e.g. many viruses that cause upper respiratory infections; papillomaviruses)
2. Systemic: transit from the entry point to infect target cells/tissues

Question 27

What is a factor that causes some viruses to only spread locally in upper respiratory airways?

Answer 27

Temperature is slightly lower than the core body temp

Question 28

What are 3 examples of viruses that cause upper respiratory infections?

Answer 28

1. Influenza
2. Rhinoviruses
3. Syncytial virus

Question 29

What are the 3 major mechanisms for systemic spread of virus infection within an infected person? Provide examples for each.

Answer 29

1. Bloodstream (viremia) => polio and other enteroviruses (Coxsackie)
2. Lymphatic system => measles and HIV
3. Nerves => rabies

Question 30

Describe the pathogenesis of enteroviruses. How to block the spread?

Answer 30

1. Viral entry through mouth
2. Virus replication in tonsils and Peyer’s pathces
3. Spread to target tissues through blood => primary viremia

Block spread by using antibodies

Question 31

How does the measles virus enter the body?

Answer 31

Respiratory airways

Question 32

What is replication associated with for viruses that cause infected cell death?

Answer 32

Replication is often associated with cytopathic effects (CPE) = morphological changes in host cells caused by virus infection:

1. Syncytia
2. Inclusion bodies
3. Apoptosis

Question 33

Describe a general virus replication cycle once it has entered the cell.

Answer 33

1. Disassembly
2. Make genome copies
3. Transcription and translation to make viral proteins
4. Assembly
5. Exit

Question 34

What happens to some of the viral proteins during a viral replication cycle?

Answer 34

Some viral proteins are presented on surface MHC I

Question 35

3 possible roles of viral proteins?

Answer 35

1. Active in transcription and translation to make viral proteins
2. Involved in interfering with host response (e.g. block MHC expression)
3. Assembled into new virus particles

Question 36

4 possible effects of virus on infected cells?

Answer 36

1. CPEs
2. No apparent effect
3. Latent infection
4. Tumorigenesis

Question 37

2 viruses that cause latent infection of some infected cells?

Answer 37

1. HIV and some polyomaviruses: infection of “quiescent” cells
2. Herpes: specific program of gene expression

Question 38

Describe syncytia formation.

Answer 38

Fusion of membrane outside the envelop of the virus with cell envelop, as part of the entry mechanism or when they have already entered a cell and want to spread to another

Question 39

Is humoral antibody sufficient to prevent spread via syncytia formation?

Answer 39

NOPE

Question 40

Describe the formation of viral inclusion bodies. Purpose? What to note?

Answer 40

Large portions of the infected cell can become virus replication factories to:

1. Hide from the cell to minimize innate host response
2. Concentrate viral components to allow for more efficient replication

NOTE: inclusion bodies are visible using a regular microscope

Question 41

4 examples of viruses that form inclusion bodies?

Answer 41

1. Rabies
2. Adenovirus
3. Herpes simplex
4. Cytomegalovirus

Question 42

Describe a viral latent infection. Purpose?

Answer 42

Virus genome is present in infected cells but there is no active production of infectious virus particles (no replication)

Replication can be (re-)activated by specific signals

Purpose: important mechanism of virus persistence in the host as the immune system cannot detect (kill) infected cells if replication is not occurring

Question 43

2 mechanisms by which viruses can cause cancer? Examples for each? What to note?

Answer 43

1. Direct manipulation of the host cell division mechanisms by the virus => human papillomaviruses, merkel cell virus (rare)
2. Combinations of environmental, viral and host genetic factors => HTLV-1, HTLV-2, Kaposi’s sarcoma-associated herpesvirus, Epstein-Barr virus, HBV, HCV

NOTE: generally takes many years to develop

Question 44

What are the 2 types of host responses to infection?

Answer 44

1. Early: local immunity with non-specific innate responses, including cytokines (IFN and others) that interfere with virus replication and produce non-specific symptoms
2. Later: clearance of virus and subsequent protective immunity, which can be complicated by virus mutations (HCV) or subsequent infections by related viruses (Dengue, Zika) => cell killing by T-cells can produce symptoms

Question 45

What are 3 examples of viruses for which the host response may be insufficient to clear the virus?

Answer 45

1. HIV
2. HBV
3. HCV

Question 46

What are 3 examples of viruses that only have one serotype and allow for the development of vaccines?

Answer 46

1. HAV
2. HBV
3. Measles

Question 47

What to note about most poliovirus infections?

Answer 47

They are asymptomatic because they are cleared by the immune system before spread to the nervous system

Question 48

What is the loss of lymphoid tissues and immunological structures during HIV infections due to?

Answer 48

1. Virus killing of infected cells
2. Immune killing of infected cells
3. Dysregulated immune cell activation leading to killing of uninfected cells

Question 49

Describe acute vs long-term infections? Which are more common?

Answer 49

1. ***Acute: typically resolves within days-weeks with development of protective immune responses (90% of infections)
2. Long-term (chronic) with:
   - Persistent replication (HBV, HCV, HIV)
   - Latency

Question 50

What are the 7 major routes of virus infections?

Answer 50

EPITHELIA

1. Skin
2. Conjuctiva
3. Respiratory tract
4. Gastrointestinal tract
5. Genitourinary tract
6. Parenteral (i.e. injection: HBV, HCV)
7. Placenta

Question 51

What does the route of viral infection depend on? 3 factors.

Answer 51

1. Physical properties of the virus
2. Site of replication in the source (tropism)
3. Type of infection caused by the virus (acute vs. chronic)

Question 52

6 possible viral transmission routes?

Answer 52

1. Secretions: aerosolization, hand to mucous membranes
2. Transcutaneous
3. Fecal-oral
4. Sexual
5. Hematogenous (blood transfusions, needle sticks)
6. Insects (mosquitoes)

Question 53

What does viral transmission depend on? Implication?

Answer 53

Modes of transmission are intimately linked to the types of cells infected and whether the infection is chronic or acute => strong relationship between transmission and disease symptoms

Question 54

3 ways to diagnose/detect viruses?

Answer 54

1. Symptoms
2. Direct methods
3. Indirect methods

Question 55

4 direct methods to detect viruses?

Answer 55

1. Cytology/histology: inclusion bodies/syncytia
2. Virus growth in culture
3. Virus antigen
4. PCR (RT-PCR for RNA viruses): sensitive but requires appropriate sample and window for positive detection might be short

Question 56

1 indirect method to detect viruses?

Answer 56

Antibody: usually detectable as infection is resolving

Question 57

What are the 3 general approaches to antiviral therapy?

Answer 57

1. Immune system modulation (indirect): interferon, ribavirin??
2. Direct-acting antivirals: currently most useful for long-term infections (e.g. HIV, HCV)

Question 58

Issue with viral treatment using interferon?

Answer 58

Side-effects (similar to flue symptoms)

Question 59

3 challenges with using direct-acting antivirals?

Answer 59

1. Most viruses use a small number of proteins for replication (few targets)
2. Many RNA viruses mutate rapidly (resistance)
3. For acute infections rapid diagnosis is critical

Question 60

Treatment for HCV?

Answer 60

Targeting replication:

1. Processing of viral proteins by HCV NS3-4A protease
2. Synthesis of viral RNAs by HCV NS5B polymerase

Question 61

5 ways to prevent viral infections?

Answer 61

1. Vaccination
2. Passive antibody administration
3. Physical/social measures: isolation and hand-washing (esp. enveloped viruses because the envelop is sensitive to detergents)
4. Therapy
5. Testing the blood supply

Question 62

List 11 viruses that we have vaccines for.

Answer 62

1. Smallpox
2. Polio
3. Measles
4. Mumps
5. Yellow fever
6. Rubella
7. Varicella zoster
8. Hepatitis B
9. Hepatitis A
10. Human papilloma virus
11. Influenza

Question 63

3 different types of viral vaccines?

Answer 63

1. Live attenuated
2. Killed virus
3. Subunit vaccine

NOTE: also new technologies on the horizon

Question 64

What are some viruses that present challenges for vaccine development?

Answer 64

HIV, HCV, RSV, Dengue?

Question 65

What 7 viruses are blood donations tested for in the US?

Answer 65

1. HBV
2. HCV
3. HIV 1
4. HIV 2
5. HTLV1
6. HTLV2
7. West Nile virus

Question 66

What 2 things to note about DNA viruses with large genomes?

Answer 66

1. They have more complex replication

2. They have more complex host immune avoidance strategies