Hepatitis B, Chronic Clinical Trial
Official title:
Therapeutic Safety and Efficacy of REP 2139 (REP 9AC') in HBV Infected Patients
REP 9AC (REP 2055) is a nucleic acid polymer (NAP) with entry and post-entry antiviral
activity against duck hepatitis B virus (DHBV) infection. REP 2055 has been shown to have
potent therapeutic effect against established DHBV infection in vivo
REP 2055 was additionally shown to have significant antiviral effects in patients with
chronic HBV infection in the previous REP 101 study. REP 2139 is a version of REP 2055
designed for improved administration tolerability and stability.
The safety and antiviral activity REP 2139, first in monotherapy and then in combination
with immunotherapy in patients with chronic HBV infection will be assessed in the REP 102
protocol.
Chronic hepatitis B is a long term condition caused by infection of the body with the
hepatitis B virus (HBV). This infection often results 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 from the blood and the liver and develops a durable immunological control
of subsequent HBV infection). However, these drugs do significantly decrease the risk of
liver damage and liver cancer arising from the presence of a chronic liver infection by
slowing or stopping the production of infectious virus. Thus the primary problem associated
with currently available drugs is the lack of clearance of the virus from the hepatocytes
which necessitates long term treatment with these drugs. There is clearly a need to identify
new drugs that can benefit patients with chronic hepatitis B infections. Nucleic acid-based
polymers (NAPs) are a new class of broad-spectrum antiviral compounds which act against HBV
infection by blocking the release of the surface antigen protein (HBsAg) from infected
hepatocytes. In the human patients in the REP 101 protocol, the previous NAP clinical
candidate, REP 9AC (REP 2055), rapidly induced pronounced reductions in or clearance of
serum HBsAg in 7 out of 8 patients. HBsAg is the major immunoinhibitory mechanism by which
HBV maintains its chronicity and by reducing or eliminating HBsAg from the blood, REP 9AC
appears able to elicit restoration of durable immunological responses in patients capable of
clearing the HBV infection. The performance of REP 9AC in providing sustained virologic
responses (SVRs) in patients with chronic HBV infection appeared to be far superior than any
compound currently approved for the treatment of HBV infection
REP 9AC' (REP 2139) is a modified version of its predecessor, REP 9AC (REP 2055). Both are
40mer phosphorothioate oligonucleotides comprised of alternating adenosine and cytidine
nucleotides and in the case of REP 9AC, has been shown to have low toxicity and to be highly
effective in treating hepatitis B infection in human patients. The modifications in REP 9AC'
significantly improve the stability and reduce the pro-inflammatory activity of REP 9AC'
compared to that of REP 9AC while retaining all the antiviral activity found in REP 9AC.
Both these modifications (5-methylation of cytosines and 2' O methylation of the ribose
sugar in each nucleotide) are naturally occurring modifications in human nucleic acid and
are known to be well tolerated in clinical trials. It is expected that REP 9AC' will be able
to achieve a more robust antiviral activity in patients with chronic HBV with significantly
lower dosing requirements and fewer side effects than REP 9AC.
Current interim data analysis from the still ongoing REP 101 assessing the activity of REP
9AC in patients with chronic HBV infection indicates the following:
1. REP 9AC exposure in eight patients has been generally well tolerated at doses up to
600mg / week and 400mg / day (for seven continuous days). Administration related side
effects include mild to moderate pro-inflammatory reactions during the drug
administration (itching and fever) which disappear after drug administration is
complete. Chronic side effects include mild elevations in blood anticoagulation
(international normalized ratio ~1.5) and serum hypocalcemia (which is easily mitigated
with a mineral supplement).
2. REP 9AC has achieved serum HBsAg reduction or clearance in all patients compliant with
the proscribed dosing regimen (7 out of 7).
3. In these seven patients, 5 have demonstrated restoration of at least a partial
immunological control of their infection (appearance of serum anti-HBs and the
establishment of a lower serum HBV DNA setpoint).
4. Of the five patients achieving having an immunological response, three have achieved a
SVR off treatment with as few as 20 weeks of REP 9AC treatment with complete and
durable immunological control over their infection for 18, 12 and 10.5 months.
5. Suboptimal stability of REP 9AC is a likely factor impairing the performance of the
drug.
This proposed study is designed to demonstrate that REP 9AC' 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 and then in
combination with immunotherapy.
NAPs: Replicor's technology utilizes the novel properties of NAPs 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 first generation clinical candidate, 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.
NAPs (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 be well tolerated in human patients in several clinical
trials.
REPLICor has validated the compatibility of the modifications in REP 9AC' with the antiviral
activity present in NAPs indirectly: the 2'O methyl sugar modification was found to not
affect the antiviral activity of NAPs against duck hepatitis B virus in vivo and further
shown to substantially improve the stability of NAPs to nuclease degradation and
substantially reduce their immunoreactivity in human peripheral blood mononuclear cells .
The 5'methylation of cytosine was shown not to affect target interaction in cell free
interaction assays and is well known to mitigate the immunoreactivity of nucleic acids.
It is now a widely held notion that any successful outcome in the treatment of chronic HBV
must involve immunostimulation in order to catalyze restoration of the appropriate immune
responses (both adaptive and innate) in order to achieve durable control over HBV infection
after therapy. The results from REP 101 protocol suggest that elimination of serum HBsAg
removes the chronic immunosuppression mediated by this protein. However there is a
heterogeneous immunological response to HBsAg reduction / clearance in the patients treated
to date (as measured by serum HBV DNA decline): only about 40% of patients appear to exhibit
a strong immunological response after the reduction / removal of serum HBsAg . This
observation strongly suggests that while HBsAg suppression is essential for establishing
durable immunological control, specific immunostimulation may also be required in many
patients in order for them to achieve durable immunological control .
Thymosin alpha 1 (Zadaxin™) is synthetically prepared thymosin alpha 1 polypeptide (28 amino
acids, molecular weight 3108) which is identical to the naturally occurring thymosin alpha 1
present in humans. Thymosin alpha 1 shares homology with the interferon alpha family of
peptides but unlike interferon alpha, Zadaxin administration in human subjects is not
accompanied by any significant side effects. More importantly, Zadaxin administration with
other proinflammatory compounds (like interferon alpha) does not alter the side effect
profiles of those compounds.
Zadaxin shares many of the immunostimulatory properties of interferon alpha in that it is
able to stimulate the production of several cytokines important in reestablishing an immune
response capable of controlling the HBV infection. Zadaxin is also able to stimulate the
production of natural killer, CD4 and CD8 cells all known to be correlated with the
establishment of a durable immunological control of HBV infection.
In the treatment of chronic HBV in the clinic, Zadaxin monotherapy is able to achieve HBeAg
and HBV DNA seroclearance in 30-50% of patients which is comparable or better than that
achievable with interferon alpha. More important is the consistent observation that the
proportion of patients achieving HBV DNA seroclearance off therapy continually increases (an
effect not observed with interferon alpha).
Based on the very low side effect profile of Zadaxin (both as a monotherapy and in
combination with interferon alpha and HBV polymerase inhibitors) and its clear ability to
stimulate functional and durable immune response and control of HBV in patients with chronic
HBV infections, the investigators strongly suspect that Zadaxin add-on therapy in patients
currently receiving REP 9AC' will be safe and may have a synergistic effect on the ability
of patients to achieve durable immunological control, thus greatly increasing the proportion
of patients achieving durable immunological control with REP 9AC' - Zadaxin therapy compared
to either therapy alone.
It may be possible that the immunostimulation provided by Zadaxin™ may not provide a strong
or broad enough immunostimulatory effect to provide an additive or synergistic antiviral
response from the patient's immune system while on REP 9AC' therapy. Since Pegasys™ is a
much stronger immunostimulatory drug but having significant side effects, dosing with this
compound will be slowly escalated each week to a full dose (180 ug once weekly) providing no
grade 3 adverse events are observed.
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Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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