Active Ingredient in HyBryte™ for the
Treatment of Cutaneous T-Cell Lymphoma and SGX302 for the
Treatment of Psoriasis
PRINCETON, N.J., Oct. 22,
2024 /PRNewswire/ -- Soligenix, Inc. (Nasdaq: SNGX)
(Soligenix or the Company), a late-stage biopharmaceutical company
focused on developing and commercializing products to treat rare
diseases where there is an unmet medical need, announced today that
the Hong Kong Patent Office has granted the patent entitled
"Systems and Methods for Producing Synthetic Hypericin". The newly
issued patent's claims are directed to a novel, highly purified
form of synthetic hypericin manufactured through a unique
proprietary process. Synthetic hypericin is the active
pharmaceutical ingredient in HyBryte™, the Company's photodynamic
therapy for the treatment of cutaneous T-cell lymphoma (CTCL), set
to initiate a confirmatory Phase 3 clinical trial before the end of
the year. The same active ingredient is also used in SGX302, a
potential topical treatment for plaque psoriasis. This new granted
patent (HK1260757) is a related patent to US Pat. Nos. 10,053,413
and 10,526,268, previously issued in the
United States (U.S.), and is in the same family as another
patent granted in Europe. These
patents are expected to expire in 2036, and form part of a larger
collection of different patent families, including previously
granted foreign patents covering liquid formulations and methods of
use (EP Pat. No. 2,571,507) and issued U.S. patents for methods of
synthesis (US Pat. No. 8,629,302), as well as other granted patents
throughout the world.
HyBryte™ is a novel, first-in-class, photodynamic therapy that
combines synthetic hypericin, a highly potent photosensitizer that
is applied to the cancerous CTCL skin lesions and activated using a
safe, visible light treatment. This treatment approach avoids the
risk of secondary malignancies (including melanoma) inherent with
the frequently employed DNA-damaging chemotherapeutic drugs and
other photodynamic therapies that are dependent on ultraviolet
exposure.
HyBryte™ has shown statistically significant efficacy in a Phase
3 randomized, placebo-controlled trial (FLASH trial, Fluorescent
Light Activated Synthetic Hypericin) and will be initiating a
second confirmatory Phase 3 placebo-controlled study (FLASH2) in 4Q
2024. Additional supportive studies have demonstrated the utility
of longer treatment times (Study RW-HPN-MF-01), the lack of
significant systemic exposure to hypericin after topical
application (Study HPN-CTCL-02) and its relative efficacy and
tolerability compared to Valchlor® (Study
HPN-CTCL-04).
SGX302 leverages the same mechanism of action as HyBryte™, and
is focused on the treatment of mild to moderate plaque psoriasis.
Previous and ongoing Phase 2 studies have indicated efficacy in
psoriasis, with biological effectiveness demonstrated.
"This recently issued patent continues to expand, strengthen and
protect our synthetic hypericin patent estate," stated Christopher J. Schaber, PhD, President and Chief
Executive Officer of Soligenix. "With this broad worldwide patent
coverage in place, we look forward to completing the confirmatory
Phase 3 CTCL study to potentially address the unmet medical need
that currently exists in this orphan disease, while also completing
our ongoing Phase 2a study in psoriasis that has a much larger
patient population but remains an underserved market."
About HyBryte™
HyBryte™ (research name SGX301) is a novel, first-in-class,
photodynamic therapy utilizing safe, visible light for activation.
The active ingredient in HyBryte™ is synthetic hypericin, a potent
photosensitizer that is topically applied to skin lesions that is
taken up by the malignant T-cells, and then activated by safe,
visible light approximately 24 hours later. The use of visible
light in the red-yellow spectrum has the advantage of penetrating
more deeply into the skin (much more so than ultraviolet light) and
therefore potentially treating deeper skin disease and thicker
plaques and lesions. This treatment approach avoids the risk of
secondary malignancies (including melanoma) inherent with the
frequently employed DNA-damaging drugs and other phototherapy that
are dependent on ultraviolet exposure. Combined with
photoactivation, hypericin has demonstrated significant
anti-proliferative effects on activated normal human lymphoid cells
and inhibited growth of malignant T-cells isolated from CTCL
patients. In a published Phase 2 clinical study in CTCL, patients
experienced a statistically significant (p=0.04) improvement with
topical hypericin treatment whereas the placebo was ineffective.
HyBryte™ has received orphan drug and fast track designations from
the U.S. Food and Drug Administration (FDA), as well as orphan
designation from the European Medicines Agency (EMA).
The published Phase 3 FLASH trial enrolled a total of 169
patients (166 evaluable) with Stage IA, IB or IIA CTCL. The trial
consisted of three treatment cycles. Treatments were administered
twice weekly for the first 6 weeks and treatment response was
determined at the end of the 8th week of each cycle. In the first
double-blind treatment cycle (Cycle 1), 116 patients received
HyBryte™ treatment (0.25% synthetic hypericin) and 50 received
placebo treatment of their index lesions. A total of 16% of the
patients receiving HyBryte™ achieved at least a 50% reduction in
their lesions (graded using a standard measurement of dermatologic
lesions, the CAILS score) compared to only 4% of patients in the
placebo group at 8 weeks (p=0.04) during the first treatment cycle
(primary endpoint). HyBryte™ treatment in this cycle was safe and
well tolerated.
In the second open-label treatment cycle (Cycle 2), all patients
received HyBryte™ treatment of their index lesions. Evaluation of
155 patients in this cycle (110 receiving 12 weeks of HyBryte™
treatment and 45 receiving 6 weeks of placebo treatment followed by
6 weeks of HyBryte™ treatment), demonstrated that the response rate
among the 12-week treatment group was 40% (p<0.0001 vs the
placebo treatment rate in Cycle 1). Comparison of the 12-week and
6-week treatment responses also revealed a statistically
significant improvement (p<0.0001) between the two timepoints,
indicating that continued treatment results in better outcomes.
HyBryte™ continued to be safe and well tolerated. Additional
analyses also indicated that HyBryte™ is equally effective in
treating both plaque (response 42%, p<0.0001 relative to placebo
treatment in Cycle 1) and patch (response 37%, p=0.0009 relative to
placebo treatment in Cycle 1) lesions of CTCL, a particularly
relevant finding given the historical difficulty in treating plaque
lesions in particular.
The third (optional) treatment cycle (Cycle 3) was focused on
safety and all patients could elect to receive HyBryte™ treatment
of all their lesions. Of note, 66% of patients elected to continue
with this optional compassionate use / safety cycle of the study.
Of the subset of patients that received HyBryte™ throughout all 3
cycles of treatment, 49% of them demonstrated a positive treatment
response (p<0.0001 vs patients receiving placebo in Cycle 1).
Moreover, in a subset of patients evaluated in this cycle, it was
demonstrated that HyBryte™ is not systemically available,
consistent with the general safety of this topical product observed
to date. At the end of Cycle 3, HyBryte™ continued to be well
tolerated despite extended and increased use of the product to
treat multiple lesions.
Overall safety of HyBryte™ is a critical attribute of this
treatment and was monitored throughout the three treatment cycles
(Cycles 1, 2 and 3) and the 6-month follow-up period. HyBryte's™
mechanism of action is not associated with DNA damage, making it a
safer alternative than currently available therapies, all of which
are associated with significant, and sometimes fatal, side effects.
Predominantly these include the risk of melanoma and other
malignancies, as well as the risk of significant skin damage and
premature skin aging. Currently available treatments are only
approved in the context of previous treatment failure with other
modalities and there is no approved front-line therapy available.
Within this landscape, treatment of CTCL is strongly motivated by
the safety risk of each product. HyBryte™ potentially represents
the safest available efficacious treatment for CTCL. With very
limited systemic absorption, a compound that is not mutagenic and a
light source that is not carcinogenic, there is no evidence to date
of any potential safety issues.
Following the first Phase 3 study of HyBryte™ for the treatment of
CTCL, the FDA and the EMA indicated that they would require a
second successful Phase 3 trial to support marketing approval. With
agreement from the EMA on the key design components, the second,
confirmatory study, called FLASH2, is expected to be initiated
before the end of 2024. This study is a randomized, double-blind,
placebo-controlled, multicenter study that will enroll
approximately 80 subjects with early-stage CTCL. The FLASH2 study
replicates the double-blind, placebo-controlled design used in the
first successful Phase 3 FLASH study that consisted of three 6-week
treatment cycles (18 weeks total), with the primary efficacy
assessment occurring at the end of the initial 6-week double-blind,
placebo-controlled treatment cycle (Cycle 1). However, this second
study extends the double-blind, placebo-controlled assessment to 18
weeks of continuous treatment (no "between-Cycle" treatment
breaks) with the primary endpoint assessment occurring at the end
of the 18-week timepoint. In the first Phase 3 study, a treatment
response of 49% (p<0.0001 vs patients receiving placebo in Cycle
1) was observed in patients completing 18 weeks (3 cycles) of
therapy. In this second study, all important clinical study design
components remain the same as in the first FLASH study, including
the primary endpoint and key inclusion-exclusion criteria. The
extended treatment for a continuous 18 weeks in a single cycle is
expected to statistically demonstrate HyBryte's™ increased effect
over a more prolonged, "real world" treatment course. Given the
extensive engagement with the CTCL community, the esteemed Medical
Advisory Board and the previous trial experience with this disease,
accelerated enrollment in support of this study is anticipated,
including the potential to enroll previously identified and treated
HyBryte™ patients from the FLASH study. Discussions with the FDA on
an appropriate study design remain ongoing. While collaborative,
the agency has expressed a preference for a longer duration
comparative study over a placebo-controlled trial. Given the
shorter time to potential commercial revenue and the similar trial
design to the first FLASH study afforded by the EMA accepted
protocol, this study is being initiated. At the same time,
discussions with the FDA will continue on potential modifications
to the development path to adequately address their feedback.
In addition, the FDA awarded an Orphan Products Development
grant to support the evaluation of HyBryte™ for expanded treatment
in patients with early-stage CTCL, including in the home use
setting. The grant, totaling $2.6
million over 4 years, was awarded to the University of Pennsylvania that was a leading
enroller in the Phase 3 FLASH study.
About Cutaneous T-Cell Lymphoma (CTCL)
CTCL is a class of non-Hodgkin's lymphoma (NHL), a type of
cancer of the white blood cells that are an integral part of the
immune system. Unlike most NHLs which generally involve B-cell
lymphocytes (involved in producing antibodies), CTCL is caused by
an expansion of malignant T-cell lymphocytes (involved in
cell-mediated immunity) normally programmed to migrate to the skin.
These malignant cells migrate to the skin where they form various
lesions, typically beginning as patches and may progress to raised
plaques and tumors. Mortality is related to the stage of CTCL, with
median survival generally ranging from about 12 years in the early
stages to only 2.5 years when the disease has advanced. There is
currently no cure for CTCL. Typically, CTCL lesions are treated and
regress but usually return either in the same part of the body or
in new areas.
CTCL constitutes a rare group of NHLs, occurring in about 4% of
the more than 1.7 million individuals living with the disease in
the U.S. and Europe (European
Union and United Kingdom). It is
estimated, based upon review of historic published studies and
reports and an interpolation of data on the incidence of CTCL that
it affects approximately 31,000 individuals in the U.S. (based on
SEER data, with approximately 3,200 new cases seen annually) and
approximately 38,000 individuals in Europe (based on ECIS prevalence estimates,
with approximately 3,800 new cases annually).
About SGX302
Visible light-activated synthetic hypericin is a novel,
first-in-class, photodynamic therapy (PDT) that is expected to
avoid many of the long-term risks associated with other PDT
treatments. Synthetic hypericin is a potent photosensitizer that is
topically applied to skin lesions and absorbed by cutaneous
T-cells. With subsequent activation by safe, visible light, T-cell
apoptosis is induced, addressing the root cause of psoriasis
lesions. Other PDTs have shown efficacy in psoriasis with a similar
apoptotic mechanism, albeit using ultraviolet (UV) light associated
with more severe potential long-term safety concerns. The use of
visible light in the red-yellow spectrum has the advantage of
deeper penetration into the skin (much more than UV light)
potentially treating deeper skin disease and thicker plaques and
lesions, similar to what was observed in the positive Phase 3 FLASH
(Fluorescent Light Activated Synthetic Hypericin) study in
CTCL.
In an ongoing Phase 2a study in mild-to-moderate psoriasis,
patients enrolled in the initial portion of the trial (Part A) have
completed treatment. In Cohort 1, the initial five patients
enrolled received twice weekly treatment for 18 weeks with 0.25%
hypericin ointment, followed by light activation approximately 24
hours later. Light doses were increased by up to 1 J/cm2 on
subsequent visits until mild erythema was observed in the treated
lesions. Light doses for all patients were still being
intermittently increased when the scheduled treatments ended, and
light doses were generally safe and well tolerated. Evaluation of
the initial cohort of five patients demonstrated a clear biological
signal, with the majority of patients recording an improvement in
the PASI score, providing evidence of biological improvement, but
no patient met the definition of treatment success (IGA score of 0
or 1) at the 18-week treatment timepoint. The second cohort of five
patients were enrolled once the Cohort 1 patients had completed all
treatment visits. Given how well-tolerated light treatments were in
the first Cohort, it was determined that the second cohort of
patients could safely receive an accelerated light treatment with
increases in the light dose by up to 2 J/cm2 at each visit and
allowing the maximum light dose (25 J/cm2) to be reached earlier by
approximately week 14, allowing more treatments at the maximum
light dose to be completed in the 18-week treatment schedule. Two
of the four evaluable patients from Cohort 2 achieved a clinical
success score at some point during the 18-week treatment period and
all evaluable patients improved, yielding an average reduction of
approximately 50% in the PASI score. One patient in Cohort 2
dropped out of the study for personal reasons unrelated to the
study.
This treatment approach avoids the risk of secondary
malignancies (including melanoma) inherent with both the frequently
used DNA-damaging drugs and other phototherapies that are dependent
on UV A or B exposure. The use of synthetic hypericin coupled with
safe, visible light also avoids the risk of serious infections and
cancer associated with the systemic immunosuppressive treatments
used in psoriasis.
About Psoriasis
Psoriasis is a chronic, non-communicable, itchy and often
painful inflammatory skin condition for which there is no cure.
Psoriasis has a significantly detrimental impact on patients'
quality of life, and is associated with cardiovascular, arthritic,
and metabolic diseases, as well as psychological conditions such as
anxiety, depression and suicide. Many factors contribute to
development of psoriasis including both genetic and environmental
factors (e.g., skin trauma, infections, and medications). The
lesions develop because of rapidly proliferating skin cells, driven
by autoimmune T-cell mediated inflammation. Of the various types of
psoriasis, plaque psoriasis is the most common and is characterized
by dry, red raised plaques that are covered by silvery-white scales
occurring most commonly on the elbows, knees, scalp, and lower
back. Approximately 80% of patients have mild-to-moderate disease.
Mild psoriasis is generally characterized by the involvement of
less than 3% of the body surface area (BSA), while moderate
psoriasis will typically involve 3-10% BSA and severe psoriasis
greater than 10% BSA. Between 20% and 30% of individuals with
psoriasis will go on to develop chronic, inflammatory arthritis
(psoriatic arthritis) that can lead to joint deformations and
disability. Studies have also associated psoriasis, and
particularly severe psoriasis, with an increased relative risk of
lymphoma, particularly CTCL. Although psoriasis can occur at any
age, most patients present with the condition before age 35.
Treatment of psoriasis is based on its severity at the time of
presentation with the goal of controlling symptoms. It varies from
topical options including PDT to reduce pain and itching, and
potentially reduce the inflammation driving plaque formation, to
systemic treatments for more severe disease. Most common systemic
treatments and even current topical photo/photodynamic therapy such
as UV A and B light, carry a risk of increased skin cancer.
Psoriasis is the most common immune-mediated inflammatory skin
disease. According to the World Health Organization (WHO) Global
Report on Psoriasis 2016, the prevalence of psoriasis is between
1.5% and 5% in most developed countries, with some suggestions of
incidence increasing with time. It is estimated, based upon review
of historic published studies and reports and an interpolation of
data, that psoriasis affects 3% of the U.S. population or more than
7.5 million people. Current estimates have as many as 60-125
million people worldwide living with the condition. The global
psoriasis treatment market was valued at approximately $15 billion in 2020 and is projected to reach as
much as $40 billion by 2027.
About Soligenix
Soligenix is a late-stage biopharmaceutical company focused on
developing and commercializing products to treat rare diseases
where there is an unmet medical need. Our Specialized
BioTherapeutics business segment is developing and moving toward
potential commercialization of HyBryte™ (SGX301 or synthetic
hypericin sodium) as a novel photodynamic therapy utilizing safe
visible light for the treatment of cutaneous T-cell lymphoma
(CTCL). With successful completion of the second Phase 3 study,
regulatory approvals will be sought to support potential
commercialization worldwide. Development programs in this business
segment also include expansion of synthetic hypericin (SGX302) into
psoriasis, our first-in-class innate defense regulator (IDR)
technology, dusquetide (SGX942) for the treatment of inflammatory
diseases, including oral mucositis in head and neck cancer, and
(SGX945) in Behçet's Disease.
Our Public Health Solutions business segment includes
development programs for RiVax®, our ricin toxin vaccine
candidate, as well as our vaccine programs targeting filoviruses
(such as Marburg and Ebola) and CiVax™, our vaccine candidate for
the prevention of COVID-19 (caused by SARS-CoV-2). The development
of our vaccine programs incorporates the use of our proprietary
heat stabilization platform technology, known as
ThermoVax®. To date, this business segment has been
supported with government grant and contract funding from the
National Institute of Allergy and Infectious Diseases (NIAID), the
Defense Threat Reduction Agency (DTRA) and the Biomedical Advanced
Research and Development Authority (BARDA).
For further information regarding Soligenix, Inc., please visit
the Company's website at https://www.soligenix.com and
follow us on LinkedIn and Twitter at @Soligenix_Inc.
This press release may contain forward-looking statements that
reflect Soligenix's current expectations about its future results,
performance, prospects and opportunities, including but not limited
to, potential market sizes, patient populations, clinical trial
enrollment, the expected timing for closing the offering described
herein and the intended use of proceeds therefrom. Statements that
are not historical facts, such as "anticipates," "estimates,"
"believes," "hopes," "intends," "plans," "expects," "goal," "may,"
"suggest," "will," "potential," or similar expressions, are
forward-looking statements. These statements are subject to a
number of risks, uncertainties and other factors that could cause
actual events or results in future periods to differ materially
from what is expressed in, or implied by, these statements, and
include the expected amount and use of proceeds from the offering
and the expected closing date of the offering. Soligenix cannot
assure you that it will be able to successfully develop, achieve
regulatory approval for or commercialize products based on its
technologies, particularly in light of the significant uncertainty
inherent in developing therapeutics and vaccines against bioterror
threats, conducting preclinical and clinical trials of therapeutics
and vaccines, obtaining regulatory approvals and manufacturing
therapeutics and vaccines, that product development and
commercialization efforts will not be reduced or discontinued due
to difficulties or delays in clinical trials or due to lack of
progress or positive results from research and development efforts,
that it will be able to successfully obtain any further funding to
support product development and commercialization efforts,
including grants and awards, maintain its existing grants which are
subject to performance requirements, enter into any biodefense
procurement contracts with the U.S. Government or other countries,
that it will be able to compete with larger and better financed
competitors in the biotechnology industry, that changes in health
care practice, third party reimbursement limitations and Federal
and/or state health care reform initiatives will not negatively
affect its business, or that the U.S. Congress may not pass any
legislation that would provide additional funding for the Project
BioShield program. In addition, there can be no assurance as to the
timing or success of any of its clinical/preclinical trials.
Despite the statistically significant result achieved in the first
HyBryte™ (SGX301) Phase 3 clinical trial for the treatment of
cutaneous T-cell lymphoma, there can be no assurance that the
second HyBryte™ (SGX301) Phase 3 clinical trial will be successful
or that a marketing authorization from the FDA or EMA will be
granted. Additionally, although the EMA has agreed to the key
design components of the second HyBryte™ (SGX301) Phase 3 clinical
trial, no assurance can be given that the Company will be able to
modify the development path to adequately address the FDA's
concerns or that the FDA will not require a longer duration
comparative study. Notwithstanding the result in the first HyBryte™
(SGX301) Phase 3 clinical trial for the treatment of cutaneous
T-cell lymphoma and the Phase 2a clinical trial of SGX302 for the
treatment of psoriasis, there can be no assurance as to the timing
or success of the clinical trials of SGX302 for the treatment of
psoriasis. Further, there can be no assurance that
RiVax® will qualify for a biodefense Priority Review
Voucher (PRV) or that the prior sales of PRVs will be indicative of
any potential sales price for a PRV for RiVax®. Also, no
assurance can be provided that the Company will receive or continue
to receive non-dilutive government funding from grants and
contracts that have been or may be awarded or for which the Company
will apply in the future. These and other risk factors are
described from time to time in filings with the Securities and
Exchange Commission (the "SEC"), including, but not limited to,
Soligenix's reports on Forms 10-Q and 10-K. Unless required by law,
Soligenix assumes no obligation to update or revise any
forward-looking statements as a result of new information or future
events.
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