Viruses and Prions

Question 1

Reasons to Study Viruses?

Answer 1

-major source of disease
-limited anti-viral therapies
-One Health

Question 2

What % of human viral infections have an animal origin?

Answer 2

70%

Question 3

3 Components of the Definition of a Virus

Answer 3

1. Obligate intracellular parasite (needs host cell)
2. Submicroscopic (filterable) infectious agent
3. Possess genetic material

Question 4

Viral Small Size Exception

Answer 4

Megavirus from Chile was HUGE (1.2 million base genome)

Question 5

Viral Genetic Material Exception

Answer 5

prions (do not contain nucleic acids)

Question 6

Definition of Life

Answer 6

capacity to maintain an electrochemical gradient across a membrane (make ATP)

Question 7

Are viruses living or non-living?

Answer 7

non-living

Question 8

Do viruses have any biologically active membranes?

Answer 8

no

Question 9

Modified Live Virus vs. Inactivated/Killed Virus Vaccine

Answer 9

modified live is still replication content versus killed are chemically inactivated

but NEITHER is living!

Question 10

Envelope vs. Membrane

Answer 10

an envelope is non-living and does not function metabolically (despite being derived from the host cell)

Question 11

3 Functions of RNA

Answer 11

1. Can fold into complex structures
2. Perform enzymatic activities (self-cleaving)
3. Contain genetic information

Question 12

Why is it thought that RNA-based organisms were the first “proto-life” forms?

Answer 12

you can find genes in modern RNA viruses that you can’t find anyplace else - evolutionary remnants

Question 13

Koch’s Postulates

Answer 13

Question 14

Polymicrobial Syndromes

Answer 14

“Death by a Thousand Cuts”
you’re not typically chasing after one big deadly virus, but it’s multiple things

Question 15

The structure and physical composition of a virus provides essential information on what five things?

Answer 15

1. Identification
2. Pathogenesis
3. Diagnosis
4. Treatment
5. Prevention

Question 16

identification

Answer 16

how to classify it

Question 17

pathogenesis

Answer 17

how it causes disease

Question 18

diagnosis

Answer 18

how to detect it

Question 19

treatment

Answer 19

how to control it

Question 20

prevention

Answer 20

how to keep it out

Question 21

2 Possible Virus Structures

Answer 21

1. Non-enveloped
2. Enveloped

Question 22

Layers of a Non-Enveloped Virus

Answer 22

1. Protein Capsid
2. Nucleic Acid Genome

Question 23

Layers of an Enveloped Virus

Answer 23

1. Lipid envelope
2. Protein capsid
3. Nucleic Acid Genome

Question 24

Where do enveloped viruses get their envelope from?

Answer 24

host cell membranes (nuclear, ER, Golgi, plasma)

Question 25

Whose proteins are embedded in the lipid envelope - host or viral?

Answer 25

BOTH

Question 26

capsid protein subunits

Answer 26

capsomeres, nucleocapsid proteins, nucleoproteins

Question 27

Why is a capsid considered a “minimum structure?”

Answer 27

it is made to be the SMALLEST surface area that can encase a MAXIMAL volume

Question 28

Why does a capsid need to be stable?

Answer 28

protects the nucleic acid genome

Question 29

Why does a capsid need to be unstable?

Answer 29

it will need to be disassembled to allow the release of nucleic acid during replication

Question 30

2 Protein Capsid Shapes

Answer 30

1. Symmetrical
2. Complex

Question 31

2 Symmetrical Capsids

Answer 31

1. Icosahedral
2. Helical

Question 32

Icosahedral Capsid

Answer 32

soccer ball, EPCOT

Question 33

Helical Capsid

Answer 33

cylindrical with capsomeres arranged in a “spiral staircase” pattern around the genome
ex: rhabdovirus (rabies)

Question 34

Complex Capsid

Answer 34

no symmetry, an absolute mumbo jumbo or nuclear proteins and nucleic acids

Question 35

Two Types of Proteins in the Lipid Bilayer of the Virus Envelope

Answer 35

1. Surface Glycoproteins
2. Integral/Matrix Proteins

Question 36

Origin of Surface Glycoproteins?

Answer 36

host OR virus

Question 37

Origin of Matrix Proteins?

Answer 37

viral protein, always

Question 38

Surface Glycoproteins

Answer 38

glycosylated, often appearing as spikes or protrusions on the envelope

Question 39

Matrix/Integral Proteins

Answer 39

non-glycosylated viral protein weaves in and out of the envelope to help stabilize it

Question 40

Budding

Answer 40

process by which the viral envelope is plucked from the host cell membrane and incorporates viral and host cell proteins

Question 41

Advantages of Enveloped Viruses

Answer 41

1. Increased stability to virion
   2/ Facilitates entry into cell (lipid-lipid interaction helps promote fusion)
2. Capsid disassembly
3. Incorporation of host cell proteins into envelope gives a level of “camouflage”

Question 42

Possible Antiviral Drug Target?

Answer 42

hydrogen ion pore
If blocked, then the genome cannot be released into the cytoplasm

Question 43

Effect of pH on Capsid

Answer 43

a drop in pH causes capsid to fall apart

Question 44

Amantadine as an Anti-viral

Answer 44

Able to block the M2 H+ pore of the influenza virus

Question 45

Original goal of Amantadine?

Answer 45

developed in 1966 to treat Parkinson’s by increasing dopamine levels

Question 46

Do we still use amantadine as an antiviral today?

Answer 46

no - drug resistance developed!

Question 47

What does amantadine do to pigeons?

Answer 47

Question 48

Why do we not use antivirals often?

Answer 48

Drug resistance!!!!

Question 49

4 Classification Categories for Viral Nucleic Acid Genomes

Answer 49

1. Nucleic Acid Composition
2. Form of Nucleic Acid
3. Polarity of ss Genomes
4. Structure of Nucleic Acid

Question 50

Nucleic Acid Composition (2)

Answer 50

1. RNA
2. DNA

Question 51

Form of Nucleic Acid (2)

Answer 51

1. Single Stranded (ss)
2. Double Stranded (ds)

Question 52

Polarity for ss Genomes

Answer 52

1. Positive sense
2. Negative sense

Question 53

Structure of Nucleic Acid (3)

Answer 53

1. Linear
2. Segmented
3. Circular

Question 54

Positive Sense Polarity

Answer 54

genome can be translated into protein directly

Question 55

Negative Sense Polarity

Answer 55

complementary copy most be made first

Question 56

Exception to the rules of virus genome polarity?

Answer 56

retroviruses - positive-sense single-stranded (ss)RNA viruses that replicate through a DNA intermediate via reverse transcription, and integrate into the genome of the host

Question 57

Prion Discovery

Answer 57

Stanley Pruisner 1982 - PROteinaceous INfectious particles, which were discovered while trying to purify a mysterious virus in sheep (Scrapie)

Question 58

Examples of Prions

Answer 58

Bovine Spongiform Encephalopathy (Cattle)
Scrapie (Sheep)
Transmissible Mink Encephalopathy (Mink)
Chronic Wasting Disease (Mule Deer, Elk)

Question 59

Are any species resistant to prions?

Answer 59

yes

Question 60

5 Important Properties of Prions

Answer 60

1. Resistant to heat, UV, and ionizing radiation (also formaldehyde)
2. Protein only (NO nucleic acid)
3. Transmissible (infectious)
4. Filterable (small)
5. Slow-acting, aggressive disease

Question 61

Do prions have a defined morphology?

Answer 61

no, no capsid

Question 62

What do prion infected brains look like?

Answer 62

Swiss cheese

Question 63

Can land ever become prion-free?

Answer 63

NO, animals can never be put back on that land

Question 64

prion incubation period

Answer 64

LONG (take a two year vacation)

Question 65

PrPc

Answer 65

host-encoded prion, exists naturally, primarily alpha helix conformation

Question 66

PrPSc

Answer 66

scrapie form, or modified “infectious” form, converted from PrPc; now has primarily beta sheet conformation

Question 67

Three Ways Prion Conformation Change Occurs

Answer 67

1. Spontaneously
2. Gene mutation (includes inherited form)
3. Infectious (get PrPSc from infected animal)

Question 68

Which conformation change is arguably the most dangerous?

Answer 68

spontaneous!

there’s no prevention, so you can’t quarantine

Question 69

prion infection as a self-propagation event

Answer 69

PrPSc binds to normal (PrPc) and converts it to the Scrapie form, acting as a chaperone

Question 70

Infectious Disease Process of Prions

Answer 70

ingestion of PrPSc
move from intestine to brain via bloodstream or possibly neurons
neurons in brain uptake infectious form, where conversion of PrPc in host begins
no possible removal; accumulates in amyloid-like plaques
sponge-like holes left in brain

Question 71

Diagnosis of Prion Disease (4)

Answer 71

1. Necropsy of brain material
2. Propagation Assays
3. Antibody-based assays
4. Sequencing

Question 72

Propagation Assays

Answer 72

Question 73

Limitation of Propagation Assays

Answer 73

takes time!

Question 74

Antibody-based assays

Answer 74

use unique epitopes on the PrPSc to bind antibody

Question 75

Is there any evidence of prion resistance?

Answer 75

YES

Fore tribe tradition in Papau New Guinea has a mutation in the PrPc gene making it resistant to conversion to the infectious form of Kuru

Question 76

Mutation in Fore Tribe is specifically?

Answer 76

conversion of glycine 127 to valine

Question 77

Which is more susceptible - enveloped or non-enveloped viruses?

Answer 77

enveloped

lipids are much more susceptible to degradation than the capsule; when an envelope disintegrates, the capsid also goes away

Question 78

Why is species not a commonly used in virus classification?

Answer 78

species technically means it can produce viable offspring, which viruses cannot, they abstain from sexual activity

Question 79

Current Virus Classification System is maintained by ____________ (ICVT)

Answer 79

International Committee on Viral Taxnomy

Question 80

Current Virus Classification System (4)

Answer 80

1. Presence or absence of envelope
2. Capsid symmetry
3. Viral genome characteristics
4. Nucleotide sequence

Question 81

Old Methods of Virus Classification (2)

Answer 81

-Host range or disease (mouse hepatitis virus)
-Serological relationship (serotypes)

Question 82

Virus Order Suffix

Answer 82

-virales

Question 83

Virus Family Suffix

Answer 83

-viridae

Question 84

Virus Subfamily Suffix

Answer 84

-virinae

Question 85

Virus Genus Suffix

Answer 85

-virus

Question 86

What is used in place of species for viruses (options)?

Answer 86

isolate, strain, group, genotype, serotype, common names

Question 87

Examples of Virus Classification (just for looking)

Answer 87

these are just for you to look at, don’t panic

Question 88

and he said to the man, running the stand, “hey, ___________”

Answer 88