Hepatitis B, Chronic Clinical Trial
Official title:
Therapeutic Safety and Efficacy of REP 9AC (REP 2055) in HBV or HCV Infected Patients
REP 9AC (REP 2055) is a nucleic acid polymer (NAP) with entry activity against hepatitis C
virus and entry and post-entry antiviral activity against duck hepatitis B virus (DHBV)
infection. REP 2055 has been shown to have potent prophylactic effect against HCV infection
in vivo and potent therapeutic effect against established DHBV infection in vivo
The REP 101 protocol is the first-in-man proof of concept study designed to investigate the
safety and antiviral activity of REP 2055 administration in human patients with chronic HBV
or HCV infection.
Chronic hepatitis B and C are long term conditions caused by infection of the body with the
hepatitis B (HBV) and C (HCV) viruses. These infections often result in inflammation or
scarring of the liver and can eventually lead to liver cirrhosis and liver failure. These
infections are also one of the major causes of the development of hepatocellular carcinoma
(liver cancer).
Although some drugs have been approved to treat chronic hepatitis B infections, they do not
provide a complete cure except in rare cases (a cure generally means that a person loses the
hepatitis B virus and develops protective surface antibodies). However, these drugs
significantly decrease the risk of liver damage from the infection by slowing or stopping
the virus from reproducing. Amongst the problems associated with currently available drugs
are the tendency to develop resistance and the lack of clearance of the virus from the
hepatocytes. There is clearly a need to identify new drugs that can benefit patients with
chronic hepatitis B infections. REP 9AC is a 40mer phosphorothioate oligonucleotide that has
been shown to have low toxicity and to be highly effective to treat hepatitis B infection in
animals. It has been shown to be effective in protecting animal from infection and to treat
animals already infected.
The efficacy of REP 9AC (REP 2055) in duck hepatitis B has been tested in collaboration with
Dr. Allison Jilbert (University of Adelaide, Australia), who is a recognized expert on HBV
infections. These results suggest that REP 2055 can completely eliminate the disease in a
large proportion (50%) of animals following only 4 weeks of treatment. In other words,
following cessation of the treatment, the viral titer does not return. If these results are
replicated in humans, this will result in a paradigm shift in how patients with hepatitis B
are treated. Currently available drugs can only control the disease. Once they are stopped,
the viral titer returns.
This proposed study is designed to demonstrate that REP9AC can be well tolerated when given
to human patients chronically infected with HBV and to evaluate if a reduction of viral
titers can be observed when REP 9AC is administered as a monotherapy. Current interim data
analysis from the REP 101 trial indicates the following:
1. REP 9AC is generally well tolerated at doses up to 600mg / week in all patients
currently enrolled and in HBV patients at 400mg / day (for seven continuous days).
2. REP 9AC has resulted in both HBV patients achieving protective seroconversion
(anti-HBs) and clearance of HBV DNA and HBsAg in their blood by 23 weeks after
initiation of treatment.
3. Increasing frequency and dose of REP 9AC treatment at the start of therapy may provide
more rapid seroconversion of HBV patients.
4. Increasing frequency and dose of REP 9AC treatment at the start of therapy may provide
better efficacy for HCV patients.
Hepatitis C. Recent advances in the treatment of hepatitis C, using interferon and ribavirin
combination therapy, have brought overall response rates to about 50% but these responses
are associated with significant costs and toxicities. In view of the lack of response of
many patients to standard therapy and in view of its associated toxicities, the development
of new therapeutic strategies is critically important. Amphipathic polymers have been shown
to have broad spectrum antiviral activities and to have very favorable pharmacokinetics in
the liver making them ideal candidates for the therapy of viral hepatitis B and C.
In collaboration with Dr. Jake Liang, (Head, Liver Diseases Branch, National Institute of
Health, USA), REP 9AC has been shown to provide complete protection from HCV infection in
naïve animals. REP 9AC is perfectly suited for the treatment of chronic HCV infection as
exposure to this drug will allow the liver to naturally eliminate infected cells by halting
the continual cycle of infection of healthy liver cells. REP 9AC may eventually replace
pegylated interferon and ribavirin as the standard of care owing to its activity against all
genotypes of HCV and its novel mechanism of action, which does not promote the generation of
drug resistance.
An entry inhibitor could be useful when used in combination therapy or could be effective as
a monotherapy. This proposed study is designed to demonstrate that REP 9AC can be well
tolerated when given to patients chronically infected with HCV and to evaluate if a
reduction of viral titers can be observed when REP 9AC is administered as a monotherapy.
REPLICor's technology utilizes the novel properties of modified oligonucleotides
(phosphorothioate oligonucleotides) as amphipathic polymers to inhibit interactions critical
for viral activity. This technology is active in vitro against all known families of
enveloped viruses. REPLICor's proof of concept compounds, REP 9 (REP 2006) and REP 9C (REP
2031) and its lead compound, REP 9AC (REP 2055) have also demonstrated potent antiviral
activity in vivo against the following viral infections: HCV, HBV (DHBV), Cytomegalovirus,
Herpes simplex virus-2, Ebola, influenza and respiratory syncytial virus.
REP 9, REP 9C and REP 9AC have been administered at therapeutically active doses in acute
and chronic regimens by multiple routes of administration (parenteral, oral, topical and
aerosol) in mice, rats, hamsters, guinea pigs, ducks and non human primate species with no
detectable side effects. Moreover, this class of chemical compounds (phosphorothioate
oligonucleotides) are known to have been well tolerated in human patients in several
clinical trials.
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Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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