Introduction to Antivirals

Question 1

Antivirals

Answer 1

• Antiviral agents are inhibitors of viral replication
• Since viral replication is associated with metabolism of the host cells, it is very difficult to develop antivirals that only attack the virus but not the host cell
• oxicities and Resistance

Question 2

Potential Sites for Antivirals

Answer 2

• Viral attachment, penetration and uncoating
• Reverse Transcription (retroviruses)
• Viral replication and integration
• Transcription and Translation
• Viral assembly

Question 3

Inhibitors of Viral Attachment

Answer 3

• Viral specific spikes interact with a specific receptor on the host cell
• This interaction could be blocked by neutralizing antibodies or other inhibitors

Question 4

Inhibitors of Viral Attachment - HIV

Answer 4

•Maraviroc

-HIV-1 coreceptor CCR5

•Enfuvirtide

-HIV-1 gp41

Question 5

Inhibitors of Cell Penetration and Uncoating

Answer 5

• Two related synthetic amines, Amantadine and Rimantadine
• Prevent uncoating or RNA transcription, if used early in infection
• Low doses may also inhibit viral assembly
• Both the agents are taken orally and have low toxicities
• Active against Influenza A but not B
• Influenza A virus became resistant to both the agents during treatment, Not used anymore

Prophylaxis: 70% effective if given daily during influenza outbreaks

Mechanism: They target the M2 (matrix) protein

Toxicity: CNS complaints, minor nervousness and light-headedness

Question 6

Inhibitors of Cell Penetration and Uncoating Resistance

Answer 6

•Resistance requires only a single amino acid change in transmembrane protein

Question 7

Inhibitors of Viral Release - Neuraminidase Inhibitors: Oseltamivir

Answer 7

• Oseltamivir (Tamiflu) selectively inhibits the neuraminidase of influenza viruses - Competitive inhibitor towards sialic acid
• Orally administered
• Reduce influenza symptoms and shorten the course of illness by 1 to 1.5 days
• Active against both influenza A and B
• Recommended above 2 weeks of age and above
• Common adversity: nausea, vomiting, diarrhea, abdominal pain
• Rare adverse reactions: hepatitis, elevated liver enzymes, rash, allergy, anaphylaxis

Question 8

Inhibitors of Viral Release - Neuraminidase Inhibitors: Zanamivir

Answer 8

selectively inhibits the neuraminidase of influenza viruses - Competitive inhibitor towards sialic acid

• Orally administered
• Reduce influenza symptoms and shorten the course of illness by 1 to 1.5 days
• Active against both influenza A and B
• given as inhalation powder for oral inhalation, 7 years of age and above
• Common adversity: nausea, vomiting, diarrhea, abdominal pain
• Rare adverse reactions: hepatitis elevated liver enzymes, rash, allergy, anaphylaxis

Question 9

Inhibitors of Nucleic Acid Synthesis

Answer 9

• Most antivirals are nucleoside analogs that interfere with viral DNA and RNA syntheses
• Serve as chain terminators after incorporation into the nucleic acids
• Most specific agents work on virus specific nucleic acid polymerases or transcriptases

Question 10

Inhibitors of Nucleic Acid Synthesis: Zidovudine (ZDV) or AZT

Answer 10

Question 11

Inhibitors of Nucleic Acid Synthesis: Adenine Arabinoside (Vidarabine)

Answer 11

• Purine, inhibits DNA polymerase
• Phosphorylated to its active form intracellularly, 15 to 30 times more
• Susceptible to herpes DNA polymerases than cellular DNA polymerases
• Less toxic than others
• Intravenous administration reduces the mortality of herpes encephalitis
• Useful in the treatment of neonatal herpes infection and herpes zoster in immunocompromised patients
• Used in the treatment of herpes infection of eye

Question 12

Inhibitors of Nucleic Acid Synthesis: Acyclovir

Answer 12

• Acycloguanosine
• Very active against replicating herpes simplex virus (HSV)
• Phosphorylates to monophosphate form by virus specific thymidine kinase limiting the presence of the derivative to virus infected cells
• Further phosphorylates to triphosphate form by cellular kinase to inhibit viral DNA polymerase 100 fold greater than cellular DNA polymerase
• It causes termination of herpes DNA elongation
• Little toxicity for host cells

Question 13

Acyclovir and CMV

Answer 13

•CMV is resistant to acyclovir because it kinase is unable to phosphorylate acyclovir

Question 14

Acyclovir and VZV and EBV

Answer 14

•Less effective against Varicella-Zoster Virus (VZV) and Epstein-Barr virus (EBV)

Question 15

Acyclovir Preparations

Answer 15

• Available in topical, oral, and intravenous preparation
• Oral therapy is effective in primary oral and genital herpes simplex infection
• Prophylactic use is helpful in frequent recurrences of herpes
• Intravenous is used to manage severe genital herpes and VZV in immunocompromised and burn patients

Question 16

Acyclovir Resistance

Answer 16

• Resistant mutants of HSV and VZV emerge after long term administration due to development of thymidine kinase deficient mutants and alteration in viral DNA polymerase
• Resistant mutants are sensitive to foscarnet and vidarbine because they do not require viral thymidine kinase for activation

Question 17

Acyclovir Prodrugs

Answer 17

•Valacyclovir, Famciclovir and Penciclovir are prodrugs of acyclovir

Question 18

Acyclovir Side Effects

Answer 18

•Obstructive crystalline nephropathy, acute renal failure if not adequately hydrated

Question 19

Inhibitors of Nucleic Acid Synthesis: Ganciclovir

Answer 19

• An acyclovir (nucleoside) analog
• Because it can be phosphorylated by cellular kinase, it inhibits growth of herpesviruses, including CMV and host cells
• Better phosphorylated in CMV infected cells
• CMV UL97 monophosphates it and cellular kinase converts into di- and tri- phosphorylates
• Inhibits viral DNA polymerase function by terminating elongating DNA chain
• Used to treat CMV infection in AIDS patients and CMV retinitis
• Relapses are common when the drug is stopped
• Resistant mutants develop against ganciclovir
• Possesses significant toxicity for uninfected host cells such as, neutropenia, suppressing spermatogenesis, bone marrow precursors and gut mucosal cells

Question 20

Inhibitors of Nucleic Acid Synthesis: Foscarnet

Answer 20

• Trisodium phosphonoformate, a pyrophosphate analog
• Directly inhibits DNA polymerase of all herpes viruses, RNA polymerase of influenza viruses and reverse transcriptase of retroviruses
• Does not require activation by viral specific thymidine kinase and thus is highly active against CMV and acyclovir resistant herpes simplex
• It is nephrotoxic and must be administered by continuous intravenous infusion
• Side effects: nephrotoxic, electrolyte abnormalities (hypo or hyper Ca++, PO4-, hypo K+, hyop Mg++.

Question 21

Inhibitors of Nucleic Acid Synthesis: Ribavarin

Answer 21

• Synthetic triazole nucleoside, guanosine analog
• Mechanism is unclear but it inhibits the synthesis of guanosine 5’-phosphate required for synthesis of viral nucleic acid
• It is phosphorylated to mono-, di- and triphosphate forms by cellular kinases
• Useful as aerosol in prevention and treatment of some respiratory viral infections (Influenza A and B and RSV)
• Oral and intravenous administration successful in arenavirus infection (Lassa fever)
• Active against hepatitis C virus when combined with interferon alpha
• Side effects: hemolytic anemia, fatigue, severe teratogen (an agent that disturbs embryonic development)

Question 22

Inhibitors of HIV Infection

Answer 22

I. HIV Entry Inhibitors

II. Nucleoside Reverse Transcriptase Inhibitors (NRTI)

III. Non-Nucleoside Reverse Transcriptase Inhibitors (NNRTI)

IV. HIV Integrase Inhibitors

V. HIV Protease Inhibitor (PI)

Question 23

Inhibitors of HIV Infection: HIV Entry Inhibitors

Answer 23

•CCR5 (HIV coreceptor) inhibitor, Maraviroc

• Should be used in combination therapy
• Side effects: cough, fever, dizziness, headache, low blood pressure, nausea, bladder irritation and possible liver problems and cardiac events

•HIV Gp41 Fusion Inhibitor, Enfuvirtide (Fuzeon) 

• Inhibits HIV gp41 binding to T cells
• It’s a peptide so it requires injections
• Should be used in combination therapy

Question 24

Inhibitors of HIV Infection: NRTIs

Answer 24

• Zidovudine (ZDV or AZT)
• Didanosine (ddI)
• Zalcitabine (ddC)
• Emtricitabine (FTC)
• Stavudine: D4T
• Lamivudine: 3TC
• Tenofovir DF (TDF) or alafenamide (TAF)
• Abacavir (ABC)

Question 25

Inhibitors of HIV Infection: NRTIs - ZDV, AZT

Answer 25

• Zidovudine (ZDV) or Azidothymidine (AZT), a thymidine analog
• Inhibits HIV replication
• Phosphorylates in vivo to 5’-triphosphate form by cellular enzymes
• Inhibits reverse transcriptase by terminating viral DNA elongation
• Monotherapy with AZT in no longer effective
• AZT can be used in combination with other inhibitors of HIV replication
• HIV becomes resistant to AZT after prolonged treatment due to a mutation in the reverse transcriptase
• Significant toxicity for bone marrow and produces severe anemia in 80% of patients
• Useful in reducing the risk of HIV vertical transmission when given during pregnancy

Question 26

Inhibitors of HIV Infection: NRTIs - Didanosine (ddI) & Zalcitabine (ddC)

Answer 26

• Inhibit HIV replication by blocking reverse transcription
• Phosphorylated to active triphosphate form like AZT by cellular enzymes
• Serious side effects include peripheral neuropathy and pancreatitis
• ddI is approved for advanced HIV infection after AZT resistance
• ddC is approved in combination with AZT for adults with advanced HIV infection

Question 27

Inhibitors of HIV Infection: NRTIs - Stavudine (D4T)

Answer 27

• A nucleoside analog that inhibits HIV replication
• D4T is phosphorylated by cellular enzymes to active triphosphate
• Terminates viral nucleic acid synthesis
• D4T is will absorbed and has high bioavailability
• Adverse side effects include headache, nausea and vomiting, confusion, elevated serum transaminase and creatine kinase and peripheral neuropathy

Question 28

Inhibitors of HIV Infection: NRTIs - Lamivudine (3TC)

Answer 28

• A reverse transcriptase inhibitor, comparatively safe and usually well-tolerated
• Phosphorylated by cellular kinases
• Used in combination with AZT or other inhibitors
• 3TC and AZT have unique interactions; 3TC suppresses the development and persistence of AZT resistance mutants
• Useful in treating hepatitis B when combined with interferon alpha

Question 29

Inhibitors of HIV Infection: NNRTIs

Answer 29

• Non-nucleoside analogs inhibit HIV replication
• Nevirapine (NVP), Delavirdine (DLV), Efavirenz (EFV) and Rilpivirine (RPV) NNTRIs
• These compounds do not require phosphorylation and bind to reverse transcriptase
• Active against both AZT-sensitive and AZT-resistant isolates
• Less toxic because they do not inhibit host DNA polymerase
• Drug resistance readily emerges
• Useful when combined with other antivirals
• Side effects: Rash & hepatotoxicity, Vivid dreams and CNS symptoms with EFV; DLV is contraindicated in pregnancy

Question 30

Inhibitors of HIV Infection: HIV Integrase Inhibitor

Answer 30

• Raltegravir, Elvitegravir, Dolutegravir
• Inhibits HIV integrase enzyme that helps integrate HIV genome into host chromosome
• Inhibits DNA strand transfer, no viral mRNA transcription
• Given to patients with HAART resistance
• Should not be used as immunotherapy
• Used in combination therapy for post exposure prophylaxis
• Hepatic metabolism
• Toxicity: minimal, increase in creatine kinase

Question 31

Inhibitors of HIV Infection: HIV Protease Inhibitors

Answer 31

• (Atazanavir, Darunavir, Fosamprenavir, Indinavir, Lipinavir, Nelfinavir, Ritonavir, Saquinavir)
• These agents are used in combination with other class of inhibitors because monotherapy results in rapid drug resistance.
• Protease inhibitors inhibit the HIV protease enzyme that is required to process HIV gag precursors to mature gag (capsid, matrix and nucleocapsid) and HIV Pol to protease, reverse transcriptase and integrase proteins and thus inhibits viral assembly and release or virion maturation.
• Side effects: Hepatotoxic, GI intolerance (nausea, diarrhea), hyperglycemia, lipodystrophy (Crushing –like syndrome), nephropathy, hematuria (indinavir), Contraindicated with Rifampin (anti-TB drug).

Question 32

Inhibitors of HCV Infection: Protease Inhibitor

Answer 32

• Telaprevir (Incivek), Boceprevir (Victrelis) and Simiprivir (Olysio) are approved by FDA
• Target: HCV protease enzyme (NS3-4A gene products of HCV)
• Mechanism: Competitive inhibitor; competes with the substrate (NS5A/5B gene products of HCV) and targets the substrate binding site
• Resistance: HCV quickly becomes resistant to either drug used alone, combination therapy with interferon and ribavirin controls HCV infection.
• Side effects: anemia, rash, nausea, diarrhea, headache, rectal irritation & pain.

Question 33

Inhibitors of HCV Infection: Polymerase Inhibitor

Answer 33

• Nucleotide analog, Sovaldi (Sofosbuvir), inhibits HCV polymerase
• Sovaldi works better for HCV genotypes 2 and 3 without interferon but should be taken with ribavirin
• For HCV genotypes 1 and 4, interferon should be used with Sovaldi
• Side effects: fatigue, headache, nausea
• Non-nucleoside HCV polymerase inhibitor:
• Dasabuvir
• Side effects are nausea, itching, and insomnia.

Question 34

Inhibitors of HCV Infection: NS5A Inhibitors

Answer 34

•Daclatasvir, elbasvir, ledipasvir, ombitasvir, and velpatasvir

Mechanism: Inhibit HCV NS5A (phosphoprotein) function

•Side effects: headache, feeling tired, and nausea

Question 35

Inhibitors of HCV Infection: Nucleotide Inhibitors

Answer 35

• (Cidofovir) Cidofovir is a nucleotide analog that does not require phosphorylation and inhibits viral DNA polymerase.
• It is used to treat CMV retinitis in immunocompromised patient and acyclovir-resistant HSV.
• It has a long half-life.
• Side effects: nephrotoxicity (use IV fluid)

Question 36

Inhibitors of Viral Assembly and Release

Answer 36

•No specific antivirals. However, methisazone acts on poxvirus infection by blocking late viral protein synthesis.

Question 37

Interferons

Answer 37

• Are host proteins that provide first line of defense against viral infections
• Recombinant interferons are commonly used
• Interferon-alpha has shown definite role in herpes zoster and CMV infections
• Proved beneficial in the treatment of chronic hepatitis B and hepatitis C liver infection
• Active against HIV in vitro and synergistic with AZT
• Some toxicity because of effect on host cell protein synthesis •In the presence of interferon, the synthesis of two cellular enzymes is induced:

1. The first is protein kinase that phosphorylates and thereby inactivates one of the subunits of an initiation factor necessary for protein synthesis
2. The second is 2’, 5’ -oligo synthetase that activates a constitutive ribonuclease that degrades mRNA and the action of both enzymes requires double stranded RNA and prevents adverse effect on uninfected cells

• Viral infection of a cell that has been exposed to interferon results in general inhibition of protein synthesis, leading to cell death and no virus production
• Side effects: flu-like symptoms, depression, neutropenia, myopathy

Question 38

Gene Therapy Approach

Answer 38

• Fomivirsen is an antisense synthetic oligonucleotide complementary to CMV mRNA inhibits CMV infection
• Antisense HIV tat and rev mRNAs have been developed
• Trans-dominant tat and rev proteins have been developed
• Several other genetic approaches are underway

Question 39

Antiviral Resistance

Answer 39

•Common mechanisms of resistance to nucleoside analogs

• Rate of viral replication
• Selective pressure of the drug
• Rate of viral mutations
• Rate of mutation in differing viral genes

•Methods to detect resistance

• Genotypic
• Phenotypic