Atea Pharmaceuticals, Inc. (Nasdaq: AVIR) (“Atea”), a
clinical-stage biopharmaceutical company engaged in the discovery
and development of oral antiviral therapeutics for serious viral
diseases, today announced new data from the lead-in cohort (n=60)
of the Company’s ongoing Phase 2 combination study of
bemnifosbuvir, an oral nucleotide NS5B polymerase inhibitor, and
ruzasvir, an oral NS5A inhibitor, for the treatment of hepatitis C
virus (HCV). With an 8-week treatment duration, the Phase 2 data
from the lead-in cohort of non-cirrhotic patients showed a 97%
sustained virologic response rate at 12 weeks post-treatment
(SVR12), which is the primary efficacy endpoint of the study.
The Company will also present preclinical data further
demonstrating a high barrier to resistance and pharmacokinetics for
bemnifosbuvir and a low risk of drug-drug interactions for
ruzasvir. These data are being presented at the European
Association for the Study of the Liver (EASL) Congress taking place
June 5-8, 2024, in Milan, Italy.
“Today, new challenges are hindering progress towards our goal
of HCV elimination in the U.S. and globally. Patient demographics
have changed, and the pace of new HCV infections is quickly
outpacing the rate of those being treated. It is apparent that
further innovations are required to address the needs of today’s
HCV-infected patients,” said Jean-Pierre Sommadossi, PhD, Chief
Executive Officer and Founder of Atea Pharmaceuticals. “The data
being presented at EASL demonstrate a potential best-in-class
profile that combines the most compelling attributes of current HCV
drug treatments through the innovative combination of bemnifosbuvir
and ruzasvir. We look forward to reporting the full results from
our ongoing Phase 2 study during the second half of this year.”
Results from the lead-in cohort of the Phase 2 study also showed
a 100% SVR12 rate in participants infected with genotype 3 (n=13),
a historically difficult-to-treat genotype of HCV. The combination
regimen was well tolerated, with no drug-related severe adverse
events (SAEs) or treatment discontinuations. Based on these
positive data from the lead-in cohort, the Phase 2 study continues,
with the aim of enrolling up to an additional 220 subjects,
including those with compensated cirrhosis.
“Today, many of my HCV patients present with other conditions
requiring multiple concurrent therapies and complicated lives,”
said Eric Lawitz, MD, The Texas Liver Institute, Clinical Professor
of Medicine, University of Texas Health San Antonio. “I am excited
about the initial bemnifosbuvir and ruzasvir combination data. The
combination of a short 8-week treatment duration, a low risk of
drug-drug interactions, and robust antiviral efficacy across all
genotypes makes this an attractive regimen.”
More than 2 million people in the U.S. are living with chronic
HCV, and approximately 100,000 new chronic cases are diagnosed each
year. HCV diagnoses continually outpace annual treatment rates, as
less than a third of those diagnosed with HCV receive timely
treatment.
Data Presented at EASL Include:
Poster Title: Lead-in Cohort Results From a
Phase 2 Study of a Novel 8-Week Combination Regimen of
Bemnifosbuvir and Ruzasvir in Patients with Chronic Hepatitis C
Virus Infection (THU-382)Conclusion: Data from the
lead-in cohort of 60 patients in the Phase 2 clinical trial of
bemnifosbuvir and ruzasvir in HCV-infected subjects showed a high
SVR12 rate of 97% in the lead-in cohort with a short 8-week
duration of treatment. The primary endpoints of the study are
safety and SVR12. Viral kinetics were similar in genotype 1 and
genotype 3 infected subjects, including a 100% SVR12 rate in
historically difficult-to-treat genotype 3 infected subjects. The
combination was generally safe and well tolerated. There were no
drug-related serious adverse events or treatment discontinuations,
and adverse events were mostly mild.
Poster Title: Bemnifosbuvir is a Potent HCV
NS5B Inhibitor with a Favorable Antiviral Profile and High
Resistance Barrier (SAT-402)Conclusion: Viral
resistance is an important consideration for direct-acting
antiviral (DAA) use as it may impact the efficacy of treatments for
HCV infection. Results demonstrated that bemnifosbuvir is at least
ten-fold more potent than sofosbuvir, a medication to treat HCV
infections, across all genotypes tested and is not resistant to
resistance-associated substitutions (RASs) that have been
found to alter the activity of sofosbuvir. While the C223H mutation
was found to be the primary bemnifosbuvir RAS in genotype 1b,
multiple additional substitutions at other NS5B regions were
required to confer meaningful resistance, suggesting that
bemnifosbuvir provides a high barrier to resistance. Based upon the
data demonstrated to date, it is expected that the bemnifosbuvir
and ruzasvir combination should have a more compelling antiviral
profile against major HCV NS5A RAVs than the current standard of
care.
Poster Title: Absorption, Distribution,
Metabolism, and Excretion of [14C]-Bemnifosbuvir in Rats
(SAT-411)Conclusion: This preclinical study in
rats was conducted to better understand the tissue distribution,
metabolites, and excretion routes following bemnifosbuvir
treatment. Following a single oral dose in rats, bemnifosbuvir has
favorable overall absorption, distribution, metabolism, and
excretion (ADME) properties, including good bioavailability
(>60%) and wide distribution to tissues with low penetration
into the brain. Bemnifosbuvir was highly and rapidly metabolized to
the metabolite AT-273, consistent with the proposed metabolic and
activation pathway.
Poster Title: Low Risk of Drug-Drug
Interactions for Ruzasvir Based Upon In Vitro Metabolism and
Transporter Interaction Studies
(SAT-412)Conclusion: Many patients infected with
HCV are also taking multiple co-medications, which may impact
treatment decisions. This preclinical study aimed to further
understand the risk of drug-drug interactions (DDIs) for ruzasvir
by analyzing its metabolism in human liver microsomes and cells.
Based on these in vitro data and static DDI risk assessment models,
ruzasvir has a low potential to be a perpetrator of DDIs via
inhibition or induction of CYP450. Similarly, it has a low
potential to inhibit OATP1B1 and OATP1B3 transporters. The
relevance of bile salt export pump (BSEP) inhibition to DDIs is
limited.
About Hepatitis C Virus
Hepatitis C virus (HCV) is a blood-borne, positive-sense,
single-stranded (ss)RNA virus that primarily infects liver cells.
HCV is a leading cause of chronic liver disease and liver
transplants, spreading via blood transfusion, hemodialysis, and
needle sticks. An estimated 50 million people globally live with
chronic HCV infection, with approximately 1 million new infections
and 242,000 deaths occurring each year. Most HCV-related deaths are
due to liver scarring (cirrhosis) and liver cancer (hepatocellular
carcinoma). Injection drug use accounts for around 30% of new HCV
cases globally and approximately 60% in the U.S. Annually, HCV
diagnoses in the U.S. outpace treatment rates, as less than a third
of those diagnosed with HCV receive timely treatment.
About Bemnifosbuvir and Ruzasvir for Hepatitis
C Virus (HCV)
Bemnifosbuvir is an oral, purine nucleotide prodrug designed to
inhibit viral replication by impairing viral RNA polymerase, a key
component in the replication machinery of enveloped positive
single-stranded RNA viruses, such as human coronaviruses and HCV.
Atea is developing bemnifosbuvir in combination with ruzasvir, an
oral NS5A inhibitor for the treatment of HCV. As single agents,
both bemnifosbuvir and ruzasvir have demonstrated potent
pan-genotypic antiviral activity against HCV. The combination
of bemnifosbuvir and ruzasvir has exhibited synergistic in vitro
activity against HCV with no pharmacokinetic (PK) drug-drug
interactions in healthy volunteers.
In vitro studies have shown bemnifosbuvir to be
approximately 10-fold more active than sofosbuvir (SOF) against a
panel of laboratory strains and clinical isolates of HCV GT
1–5. In vitro studies have also demonstrated that
bemnifosbuvir remained fully active against SOF
resistance-associated strains (S282T), with up to 58-fold more
potency than SOF. The PK profile of bemnifosbuvir supports
once-daily dosing for the treatment of HCV. Across both HCV and
COVID-19 programs, bemnifosbuvir has been administered to over
2,100 subjects and has been well-tolerated at doses up to 550 mg
for durations up 12 weeks in healthy subjects and patients.
Ruzasvir has demonstrated highly potent and pan-genotypic
antiviral activity in preclinical (picomolar range) and clinical
studies. Ruzasvir has been administered to over 1,200 HCV-infected
patients at daily doses of up to 180 mg for 12 weeks and has
demonstrated a favorable safety profile. Ruzasvir’s PK profile
supports once-daily dosing.
About the Phase 2 Study
Atea is currently conducting a global Phase 2 clinical trial in
treatment-naïve, chronic HCV-infected patients either without
cirrhosis or with compensated cirrhosis. This study is designed to
evaluate the safety and efficacy of eight weeks of treatment with
the combination consisting of once-daily bemnifosbuvir 550 mg and
ruzasvir 180 mg. Up to approximately 280 treatment-naïve patients
across all HCV genotypes, including the lead-in cohort of 60
patients without cirrhosis, are expected to be enrolled in this
Phase 2 clinical trial.
The primary endpoints of the study are safety and sustained
virologic response (SVR) at 12 weeks post-treatment (SVR12). Other
virologic endpoints include virologic failure, SVR at 24 weeks
post-treatment (SVR24) and resistance. Topline results from
all patients enrolled in the Phase 2 study are anticipated in the
second half of 2024.
About Atea Pharmaceuticals
Atea is a clinical-stage biopharmaceutical company focused on
discovering, developing and commercializing oral antiviral
therapies to address the unmet medical needs of patients with
serious viral infections. Leveraging the Company’s deep
understanding of antiviral drug development, nucleos(t)ide
chemistry, biology, biochemistry and virology, Atea has built a
proprietary nucleos(t)ide prodrug platform to develop novel product
candidates to treat single stranded ribonucleic acid, or ssRNA,
viruses, which are a prevalent cause of serious viral diseases.
Atea plans to continue to build its pipeline of antiviral product
candidates by augmenting its nucleos(t)ide platform with other
classes of antivirals that may be used in combination with its
nucleos(t)ide product candidates. Currently, Atea is focused on the
development of orally-available antiviral agents for severe acute
respiratory syndrome coronavirus 2 (SARS-CoV-2), the virus that
causes COVID-19, and hepatitis C virus (HCV). For more information,
please visit www.ateapharma.com.
Forward-Looking Statements
This press release includes “forward-looking statements” within
the meaning of the Private Securities Litigation Reform Act of
1995. Forward-looking statements in this press release include but
are not limited to the Company’s plans relating to the date and
time of the presentations at the conference, the time of
anticipated release of additional clinical data and the potential
of bemnifosbuvir in combination with ruzasvir to treat HCV. When
used herein, words including “expects,” “may,” “will,”
“anticipates,” “plans,” and similar expressions are intended to
identify forward-looking statements. In addition, any statements or
information that refer to expectations, beliefs, plans,
projections, objectives, performance or other characterizations of
future events or circumstances, including any underlying
assumptions, are forward-looking. All forward-looking statements
are based upon the Company’s current expectations and various
assumptions. The Company believes there is a reasonable basis for
its expectations and beliefs, but they are inherently uncertain.
The Company may not realize its expectations, and its beliefs may
not prove correct. Actual results could differ materially from
those described or implied by such forward-looking statements as a
result of various important factors, including, without limitation,
the important factors discussed and updated from time to time under
the caption “Risk Factors” in the reports the Company files with
the SEC, including annual reports on Form10-K, quarterly reports on
Form10-Q, current reports on Form 8-K and other filings each of
which are accessible on the SEC’s website at www.sec.gov. These and
other important factors could cause actual results to differ
materially from those indicated by the forward-looking statements
made in this press release. Any such forward-looking statements
represent management’s estimates as of the date of this press
release. While the Company may elect to update such forward-looking
statements at some point in the future, except as required by law,
it disclaims any obligation to do so, even if subsequent events
cause our views to change. These forward-looking statements should
not be relied upon as representing the Company’s views as of any
date subsequent to the date of this press release.
Contacts
Jonae BarnesSVP, Investor Relations and Corporate
Communications617-818-2985Barnes.jonae@ateapharma.com
Will O’ConnorPrecision
AQ212-362-1200will.oconnor@precisionaq.com
Atea Pharmaceuticals (NASDAQ:AVIR)
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