Antivirals

Question 1

What are viruses?

Answer 1

Obligate intracellular parasites (rely on a host cell to reproduce)

Question 2

How do viruses exist outside on infected cell?

Answer 2

Virions

Question 3

How many proteins can viruses encode?

Answer 3

~4

Question 4

What do virions consist of? (3)

Answer 4

dsDNA or ssDNA, lipid envelope (from host cell) and protein coat/capsid (both can contain antigenic glycoproteins

Question 5

How big are virions approx?

Answer 5

1/100 of a bacterium

Question 6

What is the viral range?

Answer 6

Group of cell types/species that virus can infect

Question 7

What is a virus that only infects bacteria?

Answer 7

Bacteriophage

Question 8

What are viruses that infect plants and animals?

Answer 8

Plant viruses and animal viruses

Question 9

Can animal viruses infect other (cross) phyla?

Answer 9

No, but may affect closely related species

Question 10

How are viruses classified? Diff categories?

Answer 10

Shape of capsid; helical, icosahedral, complex

Question 11

What is pathogenicity?

Answer 11

Ability of viruses to cause disease (not all cause disease)

Question 12

What is virulence?

Answer 12

Degree of pathogenicity (intensity of disease)

Question 13

What is virus latency?

Answer 13

Ability to remain dormant in an organism

Question 14

What is the virus that causes chicken pox and shingles?

Answer 14

Varicella zoster

Question 15

How does chicken pox exhibit latency?

Answer 15

Can remain dormant in body and remerge later in life as shingles

Question 16

What are people chronically infected and serve as reservoirs of infectious virus?

Answer 16

Carrriers

Question 17

What are 4 stages of virus life cycle?

Answer 17

Absorption, penetration, replication, release

Question 18

What determines virus range and initiation of infection process?

Answer 18

Proteins on surface of virus (antigen) that bind to protein receptors in host cell

Question 19

What occurs once virus has access to host cytoplasm?

Answer 19

Viral DNA or RNA crosses pmemb to to cytoplasm or nucleus

Question 20

What occurs to viral DNA or RNA once inside host cell?

Answer 20

Interacts w/ host machinery to translate DNA/RNA into viral proteins

Question 21

What is the 4th stage of a viral life cycle (release)?

Answer 21

Newly synthesized virion particles are release to continue infection cycle

Question 22

What are the 2 types of viruses?

Answer 22

RNA or DNA viruses, can be double stranded or single stranded

Question 23

How does a DNA virus transcribe and translate its specific proteins in a host?

Answer 23

Viral DNA incorporates genome w/ host’s (in nucleus) and is transcribed into mRNA w/ host DNA-dependent RNA polymerase, mRNA in translated into viral proteins

Question 24

Are DNA viruses usually ds or ss?

Answer 24

Double stranded

Question 25

What are poxviruses able to do?

Answer 25

Can replicate in hosts cytoplasm as they carry their own DNA-dependent RNA pol (are a DNA virus)

Question 26

What is required for viral genome REPLICATION?

Answer 26

DNA-dependent DNA pol (from host)

Question 27

How does a RNA virus transcribe and translate its specific proteins in a host?

Answer 27

Require an RNA-depended RNA pol (RNA -> mRNA)

Question 28

What are the 2 purposes of RNA-dependant RNA pol?

Answer 28

Transcriptase (transcribe mRNA) and replicase (replication)

Question 29

Where do most RNA viruses complete their replication? Exception?

Answer 29

Host cell cytoplasm; influenza in nucleus

Question 30

What are retroviruses?

Answer 30

Viruses that have RNA genome (ss) that directs DNA formation from RNA

Question 31

What is reverse transcriptase?

Answer 31

Viral enzyme that turns viral RNA into DNA

Question 32

What is reverse transcriptase aka?

Answer 32

RNA-dependent DNA pol

Question 33

What occurs to viral DNA from a retrovirus?

Answer 33

Is integrated w. Host DNA and transcribed in mRNA and translated into proteins (by host enzymes)

Question 34

T/f: most retroviruses immediately kill their host cells

Answer 34

False, infected host cells can continue to replicate w/ proviral DNA

Question 35

What is an ex of a retrovirus?

Answer 35

HIV

Question 36

What is the best/cheapest/effective what to prevent viral infections?

Answer 36

Vaccinations

Question 37

Approx. how many infections are their vaccines for?

Answer 37

13 (14 w/ COVID?)

Question 38

What can vaccines contain? (4)

Answer 38

Live-attenuated (cant replicate) or killed viruses, viral proteins or mRNA (antigens)

Question 39

How do vaccines work?

Answer 39

Cause host to generate antibodies for virus to decr response to 2nd infection

Question 40

How do antiviral drugs work?

Answer 40

Exert actions at several stages of viral life cycle (treat after infection)

Question 41

What are 5 targets of antiviral drugs?

Answer 41

Stages of viral life cycle: viral entry, nucleus acid synthesis, protein synthesis, viral packaging, and virion release

Question 42

What can antiviral combination therapy allow for?

Answer 42

Incr clinical effectiveness and prevent/delay resistance

Question 43

What does “anti-viral drugs are virustatic” mean?

Answer 43

Only work against replicating viruses (not latent/dormant)

Question 44

What is acyclovir?

Answer 44

Anti-herpes drug that is a nucleoside analog (fake DNA building block) which viruses incorporate into genome during repl’n

Question 45

How does acyclovir cause DNA chain termination?

Answer 45

Lacks an -OH group that is needed for chain elongation of the DNA backbone

Question 46

What is the result of acyclovir causing chain termination?

Answer 46

The virus life cycle is halted since newly synthesized DNA is inactivated

Question 47

Why does acyclovir only affect viral DNA if humans also rely on guanine (its NT analog)?

Answer 47

Herpes thymidine kinase has affinity 200x greater for acyclovir vs mammalian thymidine kinase (specificity)

Question 48

What must occur to acyclovir before it can be incorporated into viral DNA?

Answer 48

Phosphorylated into acyclovir-triphosphate, herpes thymidine kinase adds first phosphate group (host has own thymidine kinase)

Question 49

What 3 ways can herpes simplex virus have acyclovir resistance?

Answer 49

Impaired viral thymidine kinase production (decr acyclovir phos’n and DNA incorp.), altered thymidine kinase substrate specificity (phos’n of thymidine vs acyclovir), altered viral DNA pol (integrates normal NT vs acyclovir)

Question 50

What is HIV?

Answer 50

Human immunodeficiency virus; a retrovirus (lentivirus) that causes chronic/persistent infection w/ gradual onset symptoms

Question 51

Which cells and receptors does HIV infect?

Answer 51

T cells; CD4+

Question 52

What occurs when CD4+ T cell levels decline below a critical level after HIV infection?

Answer 52

Host loses cell-mediated immunity and is susceptible to opportunistic infections (AIDS)

Question 53

T/f: there is a period of viral latency after HIV infection

Answer 53

False, repl’n is constant after infection (wo/ treatment)

Question 54

T/f: anti-viral HIV drugs only target one step of viral life cycle

Answer 54

False, drugs can target multiple levels (fusion, transcription, integration, viral release)

Question 55

Currently, how many antiretroviral drugs are used to treat HIV?

Answer 55

Usually 3 or more together

Question 56

What is highly active retroviral therapy (HAART)?

Answer 56

Drug combinations that can slow/reverse viral RNA production (HIV disease progression)

Question 57

What occurs at the beginning of HIV infection?

Answer 57

Gp120 (HIV envelope proteins) bind to CD4 and CCR5 receptors on T cells

Question 58

What are entry inhibitors for HIV?

Answer 58

Antivirals that interfere w/ binding, fusion, and entry of HIV virion into human call

Question 59

What is maraviroc?

Answer 59

CCR5 receptor antagonist that interferes w/ HIV binding to T cell

Question 60

What is reverse transcriptase?

Answer 60

HIV enzyme that converts viral RNA into DNA using host nucleosides (RNA dependent RNA pol)

Question 61

What are nucleoside reverse transcriptase inhibitors (NRTIs)?

Answer 61

Small molecule drugs that resemble host nucleosides and are incorporated into new HIV DNA (by reverse transcriptase)

Question 62

How do NRTIs cause chain termination?

Answer 62

NTRIs lack 3’-OH on ribose ring (prevent elongation)

Question 63

What provides NTRIs w/ viral specificity? (Ie. don’t affect mammalian transcription)

Answer 63

Mammalian RNA (DNA to RNA) and DNA pols (DNA to DNA) are distinct enough from viral reverse transcriptase (RNA to DNA)

Question 64

What is integrase?

Answer 64

Viral enzyme that inserts viral/HIV DNA into host genome

Question 65

What are integrase strand transfer inhibitors (INSTs)?

Answer 65

Block activation of integrase and inhibit viral DNA incorporation into host genome (inhibits HIV proliferation)

Question 66

What is an ex of a INST?

Answer 66

Raltegravir

Question 67

What are aspartase proteases?

Answer 67

Viral enzymes that are required for assembly of HIV virions (cleave precursor proteins for mature virion core)

Question 68

What are HIV protease inhibitors?

Answer 68

Antivirals that bind to and inhibit aspartase proteases (active site ligand analog) that prevents new HIV from becoming mature

Question 69

T/f: HIV protease inhibitors are usually used w/ reverse transcriptase inhibitors

Answer 69

True

Question 70

What is amantadine?

Answer 70

Anti-influenza drug that inhibits uncoating of influenza A virus (early step in replication)

Question 71

What is the M2 protein?

Answer 71

Proton pump that permits acidification of virus core to allow activation of viral RNA transcriptase (onset of infection)

Question 72

How does amantidine affect M2?

Answer 72

Blocks proton transfer through M2, blocking acidification and viral transcription

Question 73

T/f: amantidine is prophylactive against influenza A not B

Answer 73

True

Question 74

T/f: amantidine and block infection or reduce symptoms of influenza if given w/ 48 hours after contact

Answer 74

True

Question 75

What is a resistant influenza A virus mutant?

Answer 75

H3N2

Question 76

What is a more cost-effective strategy against influenza?

Answer 76

Vaccination

Question 77

What is a possible treatment against influenza in high-risk/immunocompromised patients?

Answer 77

Seasonal prophylaxis using anti-viral drugs (if vaccine cant be administered)

Question 78

What is zanamivir?

Answer 78

Anti-influenza drug that inhibits neuroaminidases produced by influenza A and B

Question 79

What are neuroaminidases?

Answer 79

Enzymes that cleave sialic acid residues from viral proteins that enable virus to be released from host cell

Question 80

How do neuroaminidase inhibitors (zanamivir) provide anti-influenza action?

Answer 80

Prevent viral spread (prevent release from host cell by neuroaminidases)