Novel HCV therapy leads to rapid response
By: DENISE NAPOLI, Family Practice News Digital Network
Combination therapy with the second-generation
protease inhibitor danoprevir yielded high rates of sustained virologic
response in hepatitis C.
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Moreover, a large portion of patients also
demonstrated an extended rapid virologic response up to 20 weeks,
reported Dr. Patrick Marcellin and his colleagues in the October issue
of Gastroenterology.
Dr. Marcellin, of the Hôpital Beaujon in Clichy,
France, and his coinvestigators looked at 225 treatment-naive adults
with hepatitis C virus (HCV) genotype 1 infection, including those who
had a serum RNA level of 50,000 IU/mL or more.
Exclusion criteria included advanced fibrosis or
cirrhosis, anemia, poorly controlled diabetes, or body mass index less
than 18 kg/m2 or greater than 36 kg/m2.
The goal of this phase II, randomized, placebo-controlled study (ATLAS)
was to evaluate the efficacy of treatment with danoprevir plus
peginterferon alfa-2a/ribavirin for 12 weeks, compared with
peginterferon alfa-2a/ribavirin alone.
Patients were randomized to one of three doses of
oral danoprevir or placebo: 300 mg every 8 hours, 600 mg every 12 hours,
or 900 mg every 12 hours.
All doses and placebo were given with standard
combination HCV therapy, including subcutaneous peginterferon alfa-2a
180 mg/week plus oral ribavirin (1,000 mg/day for patients with a body
weight less than 75 kg or 1,200 mg/day for patients weighing 75 kg or
more).
At week 12, treatment with danoprevir or placebo was
stopped, and peginterferon alfa-2a/ribavirin was continued for a total
duration of 24 or 48 weeks, according to patient response.
Dr. Marcellin found that by week 1, mean decreases in HCV RNA ranged from 3.95 to 4.28 log10 IU/mL in the danoprevir groups, compared with 0.77 log10 IU/mL in the placebo group.
By week 2, according to the investigators, more than
half of the danoprevir patients and none of the placebo recipients had
achieved undetectable HCV RNA levels.
Indeed, broken down by dose, the researchers
calculated that 74% of the danoprevir 300-mg group achieved a rapid
virologic response (undetectable serum HCV RNA at week 4), with 65%
maintaining an extended rapid virologic response (eRVR), defined as an
undetectable HCV RNA that lasted from weeks 4 through 20.
Among the patients taking 600-mg doses, 88% achieved an RVR, with 79% maintaining an eRVR at week 20.
Finally, 86% of patients in the 900-mg treatment group achieved an RVR, although only 18% reached an eRVR.
Patients with an eRVR stopped all treatment at 24 weeks.
"Relapse occurred in 18%, 8%, and 11% of patients
treated with danoprevir 300 mg, 600 mg, and 900 mg, respectively, versus
38% in the placebo group," the authors wrote.
Looking at the side-effect profile, Dr. Marcellin
reported that fatigue, headache, nausea, insomnia, myalgia, and chills
were the most common adverse events for both the treatment and placebo
groups.
They also observed reversible, grade 4 elevations in
alanine aminotransferase (ALT) levels between weeks 6 and 12 in 2% of
danoprevir-treated patients, including three in the 900-mg cohort and
one in the 600-mg cohort.
Treatment was discontinued, and serum ALT levels
returned to within 1.5 times the upper limit of normal within a month
for all four patients, the authors added.
"Notwithstanding the low incidence of reversible ALT
elevations observed with high-dose danoprevir in this trial, danoprevir
also appears to have a better tolerability profile than either
boceprevir or telaprevir, as evidenced by the lower incidence of rash
and anemia among danoprevir-treated patients compared with placebo
recipients," concluded the investigators.
Indeed, they pointed to other studies showing that
coadministration of low-dose ritonavir, another protease inhibitor,
"significantly inhibits danoprevir reactive metabolite formation,
proposed to be associated with ALT elevations."
"Studies to further evaluate the efficacy and safety
of danoprevir in different patient groups are ongoing," the researchers
said.
Dr. Marcellin and his fellow investigators reported
financial relationships with numerous pharmaceutical companies,
including Roche, the maker of danoprevir, which also funded this study.
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Danoprevir's role still unclear
Second-generation protease inhibitors (PIs) currently in development are generally thought to have less drug-drug interactions, improved dosing schedules, as well as less frequent and less severe side effects. Many of the second-generation PIs are macrocyclic molecules, which have been shown to generally be more potent and, depending on the location of the macrocycle, able to retain activity against resistant variants. Common wild-type and drug-resistant variants of the NS3 protein include Q80K, R155K, V36M/R155K, A156T, and D168A (ACS Chem. Biol. 2013;8:1469-78). They have also shown increased efficacy against genotype 1, though they still have limited efficacy against other genotypes (Curr. Gastroenterol. Rep. 2013;15:303 [doi: 10.1007/s11894-012-0303-3]).
This report on danoprevir clearly shows it is a potent, pan-genotypic, macrocyclic second-generation PI that meets all of these criteria. However, the grade 4 elevations in alanine aminotransferase (ALT) levels seen in 2% of danoprevir-treated patients (including three in the 900-mg cohort and one in the 600-mg cohort) that were seen in this study became a major roadblock to the phase III development of the compound. Instead, the coadministration of low-dose ritonavir, another protease inhibitor, which significantly inhibits danoprevir reactive metabolite formation, has allowed the compound to move forward into advanced studies without the hepatotoxicity concern [J. Hepatol. 2012;56(Suppl 2):S467; Hepatology 2012;56(Suppl 1):552A; Hepatology 2012;56(Suppl 1):231A; J. Hepatol. 2012;56(Suppl 2):S555].
The role for a ritonavir-boosted PI in all-oral interferon-free regimens remains to be defined over the coming years. This is not the only PI that requires boosting (ABT450); however, the field is quickly becoming crowded with PIs that do not require ritonavir (asunaprevir, faldaprevir, simeprevir, and vaniprevir). The role for danoprevir in the United States is therefore still unclear.
Dr. Paul J. Pockros is director of the Liver Disease Center of the division of gastroenterology/hepatology at the Scripps Clinic, director of the Scripps Clinic Liver Research Consortium, and director of clinical research at the Scripps Translational Science Institute, La Jolla, Calif. He is a researcher, speaker, and advisory board member for Roche/Genentech.
Second-generation protease inhibitors (PIs) currently in development are generally thought to have less drug-drug interactions, improved dosing schedules, as well as less frequent and less severe side effects. Many of the second-generation PIs are macrocyclic molecules, which have been shown to generally be more potent and, depending on the location of the macrocycle, able to retain activity against resistant variants. Common wild-type and drug-resistant variants of the NS3 protein include Q80K, R155K, V36M/R155K, A156T, and D168A (ACS Chem. Biol. 2013;8:1469-78). They have also shown increased efficacy against genotype 1, though they still have limited efficacy against other genotypes (Curr. Gastroenterol. Rep. 2013;15:303 [doi: 10.1007/s11894-012-0303-3]).
This report on danoprevir clearly shows it is a potent, pan-genotypic, macrocyclic second-generation PI that meets all of these criteria. However, the grade 4 elevations in alanine aminotransferase (ALT) levels seen in 2% of danoprevir-treated patients (including three in the 900-mg cohort and one in the 600-mg cohort) that were seen in this study became a major roadblock to the phase III development of the compound. Instead, the coadministration of low-dose ritonavir, another protease inhibitor, which significantly inhibits danoprevir reactive metabolite formation, has allowed the compound to move forward into advanced studies without the hepatotoxicity concern [J. Hepatol. 2012;56(Suppl 2):S467; Hepatology 2012;56(Suppl 1):552A; Hepatology 2012;56(Suppl 1):231A; J. Hepatol. 2012;56(Suppl 2):S555].
The role for a ritonavir-boosted PI in all-oral interferon-free regimens remains to be defined over the coming years. This is not the only PI that requires boosting (ABT450); however, the field is quickly becoming crowded with PIs that do not require ritonavir (asunaprevir, faldaprevir, simeprevir, and vaniprevir). The role for danoprevir in the United States is therefore still unclear.
Dr. Paul J. Pockros is director of the Liver Disease Center of the division of gastroenterology/hepatology at the Scripps Clinic, director of the Scripps Clinic Liver Research Consortium, and director of clinical research at the Scripps Translational Science Institute, La Jolla, Calif. He is a researcher, speaker, and advisory board member for Roche/Genentech.
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