Tag Archives: danoprevir

Emerging Targets for Hepatitis C -Part 2

Posted on by

The best review on new therapies for HCV that I’ve read in quite a long time:

Hepatology 2013; 58: 428-38

First the abbreviations:

  • ASV -Asunaprevir
  • BOC -boceprevir
  • DAA -direct-acting antiviral
  • DCV -daclatasvir
  • DNV -danoprevir
  • NI -nucleos(t)ide inhibitor
  • NNI -nonnucleos(t)ide inhibitor
  • SIL -silibinin
  • SOF -sofosbuvir
  • TVR -telaprevir

More terminology:

  • First-generation NS3/4A protease inhibitors (TVR, BOC) are “defined as agents that display potent activity on HCV-1 but oppose a low barrier to selection of resistant viral variants and are not effective on all viral genotypes.”
  • Second generation NS3/4A protease inhibitors are “defined as agents that pose a high barrier to the development of viral resistance, retain activity against the viral variants that are resistant to first-generation compounds, and are active across all HCV genotypes.”
  • First-wave therapies are covalent linear inhibitors and second-wave therapies are either non covalent linear or macrocyclic inhibitors.

What are the weapons?

Some second-wave, first generation NS3/4A PIs: faldaprevir, asunaprevir, sovaprevir, simeprevir, danoprevir, and vaniprevir.  These agents have similar clinical efficacy as BOC and TVR but are easier to administer, usually once-a-day.  Some of these agents have better activity  against several genotypes.

MK-5172, 2nd-generation NS3/4A PI,  has pan-genotype activity & maintains antiviral activity against most mutations that confer resistance to 1st-generation PIs.

DCV, a NS5A inhibitor, has potent HCV activity but a low barrier for viral resistance; thus, it is likely to be used in combination with other agents.  Multiple NS5A inhibitors are in development.

SOF, a NS5B polymerase inhibitor, is being studied in interferon-free combinations.  Viral resistance has been rare in clinical studies with this agent.  Multiple other agents in this class are in study.

NS5B polymerase inhibitor NNIs bind to less conserved sites on HCV; thus, initial results have not been as promising.  Several NNIs, including setrobuvir and lomibuvir (& others), are being tested in combination in all-oral, interferon-free regimens.

SIL, a NS4B binding inhibitor, is an intravenous agent that has shown some efficacy in liver transplant patients.  Other oral agents, like clemizole, are being investigated.

How these agents may be useful:

  1. “The first step forward in anti-HCV therapy will be the introduction of a second-wave PI to used in combination with PEG-IFN/RBV.” Simeprevir, faldaprevir, and ritonavir-boosted danoprevir (DNV) will be easier to administer than TVR or BOC as they can be given once-daily.  In addition, these drugs are more active against genotypes 2, 4, 5, and 6.  In fact, ritonavir-boosted DNV in combination with PEG-IFN/RBV had 100% SVR efficacy for patients with HCV-4 in one trial.
  2. Next, will be NS5A and NS5B inhibitors to be used in combination with previous agents.  These agents will compete with second-wave PIs but “whether they will provide a true innovation in terms of viral cure rates, safety profile, or patient tolerability is still to be demonstrated.”  These agents work better with other DAAs.
  3. Finally, all-oral combinations will enter the market.  “The first all-oral anti-HCV regimen will be likely available in 2014 for HCV-2 and HCV-3 patients.”  SOF with RBV has had good success rates in previous studies.

Potential Problems:

  • Many of these investigational agents have been studied in easy-to-cure populations.
  • Lack of data in advanced fibrosis/cirrhosis.
  • Safety questions in post-transplant populations.
  • Affordability.  “It is possible that these innovative regimens will be confined to groups of patients in whom TVR/BOC or PEG-IFN/RBV are either ineffective or unsafe.”  Some patients may receive ‘maginally less effective and less tolerable drugs for cost-containing issues.’
  • Drug resistance.  This is likely to become a clinical problem with all oral IFN-free regimens. with TVR/BOC, resistance has limited significance due to HCV quasispecies reverting back to wild-type virus after stopping TVR or BOC.  It is unclear if this will be the case with other DAAs.

 

 

Emerging Targets for Hepatitis C -Part 1

Posted on by

The latest advances in hepatitis C are related in several recent publications:

  1. Hepatology 2013; 57: 2143-54.
  2. Hepatology 2013; 57: 2155-63.
  3. Clin Gastroenterol Hepatol 2013; 11: 612-619.

The first two studies provide specific information about the effectiveness of Faldaprevir combined with peginterferon alfa-2a/ribavirin (PEG/RBV) in treatment-naive patients and patients with prior nonresponse respectively.  The third reference provides the big picture regarding all of the emerging treatments.

In the first study, the “SILEN-C1” phase 2 trial, 429 patients without cirrhosis were randomized to several treatment arms.  423 of the 429 patients were genotype 1.  This large study involved 89 centers in 15 countries.  All of the treatment groups received PEG/RBV along with either placebo, faldaprevir 120 mg with lead-in (LI), faldaprevir 240 mg LI and faldaprevir 240 mg without LI.   Faldaprevir is a NS3/4A protease inhibitor which can be administered orally once a day.  Results: SVR achieved in 56% (placebo), 72% (faldaprevir 120mg LI), 72% (faldaprevir 240 mg LI), and 84% (faldaprevir 240 mg without LI).  Discontinuation rates were 1%, 4%, 11%, and 5% for the aforementioned treatment groups.

In the second study, the “SILEN-C2” trial, 290 non cirrhotic genotype 1 patients with either no response or partial response to previous treatment underwent a 48 week treatment trial with a similar design as the SILEN-C1. Results: SVR rates among partial responders were 32% (faldaprevir 240 mg LI), 50% (faldaprevir 240 mg without LI), and 42%(faldaprevir 240 mg BID/LI).  Among null responders, SVR rates were 21% (faldaprevir 240 mg LI), 35% (faldaprevir 240 mg without LI), and 29% (faldaprevir 240 mg BID/LI).  Adverse reactions were higher in those on higher doses and included anemia, rash, indirect hyperbilirubinemia, and nausea. Discontinuation rates were 6%, 4%, and 23% for the aforementioned treatment groups.

The third study provides a landscape of current treatment and emerging treatments.  Given the improvement in SVR among genotype 1 patients, the use of either telaprevir or boceprevir in combination with PEG/RBV is the “new standard of care” among adult patients with HCV.  Studies supporting telaprevir include the ADVANCE study, the REALIZE trial, and the OPTIMIZE study.  For boceprevir, its effectiveness was demonstrated with SPRINT-2, and RESPOND-2.

Both boceprevir and telaprevir, are NS3/4A serine protease inhibitors and are considered direct acting antivirals (DAAs). On the horizon:

  • Simeprevir -NS3/4A protease inhibitor.  Studies: PILLAR, ASPIRE.  SVR: 75-86% in treatment-naive patients. Once daily, no rash or increased anemia.  Hyperbilirubinemia can occur.
  • Faldaprevir -see above studies.
  • Danoprevir -NS3/4A protease inhibitor. Study: DAUPHINE. For genotypes 1 and 4. 100% SVR in genotype 4.  Rates of withdrawal with danoprevir were similar to placebo.
  • Daclatasvir -NS5A replication inhibitor. Study: COMMAND-1. For genotypes 1 and 4.
  • Sofosbuvir -NS5B polymerase inhibitor. Studies: PROTON, ATOMIC. For genotypes 1, 4, and 6.
  • Multiple DAAs in combination. Studies: MATTERHORN, INFORM-SVR, AVIATOR, ELECTRON, SOUND-2

Related blog posts: