Nucleoside Analogues

Information about Nucleoside Analogues[edit source]

The nucleoside analogues are an important class of antiviral agents now commonly used in the therapy of human immunodeficiency virus (HIV) infection, hepatitis B virus (HBV), cytomegalovirus (CMV) and herpes simplex virus (HSV) infection.

Mechanism of action of Nucleoside Analogues[edit source]

The nucleoside analogues resemble naturally occurring nucleosides and act by causing termination of the nascent DNA chain. These agents are generally safe and well tolerated as they are used by the viral, but not human polymerases in DNA replication. Actually, nucleoside analogues are a large class of agents that include drugs for cancer (cytarabine, gemcitabine, mercaptopurine), rheumatologic diseases (azathioprine, allpurinol) and even bacterial infections (trimethoprim).

HIV reverse transcriptase inhibitors[edit | edit source]

The nucleoside analogues used to treat HIV infection are often referred to as reverse transcriptase inhibitors (NRTIs). However, they have activity against both DNA dependent and RNA dependent DNA polymerases. They are believed to inhibit viral replication by several mechanisms, either by competitive inhibition of the viral polymerase or by DNA chain termination. Many of the antiviral nucleoside analogues are blocked at the 3’ hydroxyl group of the deoxyribonucleic acid, which results in failure of elongation of the nascent DNA molecule. Other antiviral nucleoside analogues are negative enantiomers (L-forms: lamivudine, emtricitabine, telbivudine) of the natural (D-form) nucleosides and interfere with replication, partially because of steric hindrance when they are taken up by the viral polymerase or added to the DNA molecule. Nucleoside analogues that are phosphorylated at the 5’ site are often referred to as nucleotide analogues, but this distinction is artificial as these agents (tenofovir, adefovir) are also nucleoside analogues. These features of the structure of nucleoside analogues are important because of the danger that they might be used by human polymerases and incorporated into RNA or DNA, which is the basis of the serious toxicities of the nucleoside analogues.

Liver toxicity of Nucleoside Analogues[edit source]

Nucleoside analogues can cause liver injury by several mechanisms. Most characteristic is a mitochondrial type of hepatic injury that is probably caused by the nucleoside analogue becoming incorporated into or blocking mitochondrial DNA synthesis by the mitochondrial gamma polymerase, leading to a depletion of mitochondria or decrease in their function. Mitochondrial injury can affect multiple tissues thereby causing myopathy, neuropathy, pancreatitis, bone marrow suppression and/or hepatic injury. The hepatic injury is characterized by accumulation of lactic acidosis, microvesicular steatosis and hepatic synthetic failure (LASH). Serum aminotransferase levels may be minimally elevated and jaundice arises late. The most dramatic example of hepatic mitochondrial injury occurred with the drug fialuridine (FIAU), a nucleoside analogue that was withdrawn after several fatalities due to hepatic failure, lactic acidosis and pancreatitis arising 2 to 3 months after initiation of therapy during phase 2 trials in humans. A similar, but rare and less dramatic and partially reversible hepatic mitochondrial injury has been linked to use of didanosine (dideoxyinosine: ddI), zalcitabine (dideoxycytine: ddC), stavudine (d4T) and less commonly to zidovudine (AZT).

Nucleoside analogues can also cause hepatic injury by other mechanisms, such as acute hypersensitivity and perhaps production of toxic intermediates (abacavir, allopurinol), but these forms of liver injury are idiosyncratic and uncommon. Finally, many nucleoside analogues have potent activity against HBV and can cause acute exacerbations of hepatitis B, either early during therapy or more commonly when therapy is suddenly terminated and viral levels rebound.

Thus, nucleoside analogues can cause a direct hepatotoxicity (mitochondrial dysfunction due to their interaction with host polymerase activity), indirect (idiosyncratic) hepatotoxicity or exacerbation of underlying liver disease (reactivation of hepatitis B after withdrawal of therapy).

List of antiretroviral nucleoside analogues:

• Abacavir
• Adefovir
• Didanosine
• Emtricitabine
• Entecavir
• Lamivudine
• Stavudine
• Telbivudine
• Tenofovir
• Zidovudine

Drugs for HIV Infection, in the Subclass Antiretroviral Agents

• Fusion Inhibitors (HIV)
  • Enfuvirtide, Maraviroc

• Integrase Inhibitors (HIV)
  • Dolutegravir, Elvitegravir, Raltegravir

• Monoclonal Antibodies
  • Ibalizumab

• Nonnucleoside Reverse Transcriptase Inhibitors (HIV)
  • Delavirdine, Efavirenz, Etravirine, Nevirapine, Rilpivirine

• Nucleoside Analogues (HIV)
  • Abacavir, Didanosine, Emtricitabine, Lamivudine, Stavudine, Tenofovir, Zidovudine

• Protease Inhibitors (HIV)
  • Amprenavir, Atazanavir, Darunavir, Fosamprenavir, Indinavir, Lopinavir, Nelfinavir, Ritonavir, Saquinavir, Tipranavir

Drugs for Hepatitis B

• Alpha Interferon, Adefovir, Emtricitabine, Entecavir, Lamivudine, Telbivudine, Tenofovir

Drugs for Hepatitis C

• Interferon Based Therapies
  • Alpha Interferon and Peginterferon, Ribavirin

HCV NS5A Inhibitors

• Daclatasvir, Elbasvir, Ledipasvir, Ombitasvir, Pibrentasvir, Velpatasvir

HCV NS5B Inhibitors (Polymerase inhibitors)

• Dasabuvir, Sofosbuvir

HCV Protease Inhibitors

• Asunaprevir, Boceprevir, Glecaprevir, Grazoprevir, Paritaprevir, Simeprevir, Telaprevir, Voxilaprevir

Combination Therapies

• Epclusa, Harvoni, Mavyret, Technive, Viekira Pak, Vosevi, Zepatier

Drugs for Herpes Virus

• infections (HSV), CMV, others

Acyclovir, Cidofovir, Famciclovir, Foscarnet, Ganciclovir, Valacyclovir, Valganciclovir

Drugs for Influenza

• Amantadine, Oseltamivir, Peramivir, Rimantadine, Zanamivir

• Dailymed label info on Nucleoside Analogues
• FDA Nucleoside Analogues

Nucleoside Analogues Resources
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