On World Lung Cancer Day, Ocean Biomedical, Inc. (NASDAQ: OCEA) is
sharing details of its multi-pronged Lung Cancer Program built on
novel immunotherapy discoveries by Scientific Co-founder Dr. Jack
A. Elias. He and his team have revealed that Chitinase 3-like-1
(CHi3L1) is a master regulator that inhibits antitumor immune
responses. Ocean Biomedical’s lung cancer program is advancing
several approaches to reversing immune system
suppression caused by CHi3L1 alone and in combination with
other immunotherapy pathways. These programs suppress primary and
metastatic tumor growth in multiple animal models and have
potential use in multiple forms of visceral cancers. In recent
studies, Ocean Biomedical’s programs have demonstrated
up
to 95% reduction in primary and metastatic tumor burden in mouse
models of lung cancer.
Anti-CHi3L1 monoclonal
immunotherapy. The first step in this tumor reduction
approach has stemmed from effectively reversing immune system
suppression through binding CHi3L1 polypeptides with Ocean
Biomedical’s proprietary immunoglobulin antibody. This monoclonal
approach has yielded dramatic reduction in mouse lung tumor burden
similar to current, cutting-edge monoclonal therapeutics (imaging
below), creating the possibility of a new cancer immunotherapy
option for patients who have poor response to existing treatments.
Ocean’s monoclonal antibody targeting CHi3L1 was awarded a U.S.
patent in June 2023 not only for application in lung cancer, but
potential application in prostate cancer, colon cancer, rectal
cancer, ovarian cancer, kidney cancer, breast cancer, glioblastoma,
and melanoma as well.
Multiple Bispecific Immunotherapy
Pathways. Building on the monoclonal antibody approach,
Ocean Biomedical is developing groundbreaking bispecific antibodies
that target CHi3L1 in combination with other known suppressors of
tumor growth and development. This approach results
in the simultaneous targeting of
several major cancer pathways. Each bispecific
candidate has been shown to substantially multiply effectiveness
compared to current, established mono-focused immuno-therapeutics.
This novel approach builds on one of the most exciting developments
in cancer research in recent years - the realization that evasion
of the body’s immune system is essential for tumor growth,
progression, and resistance to treatments, especially through the
suppression of T-cell responses and the stimulation of natural
immune checkpoints. These advances have led to some successful lung
cancer therapeutics that target PD1, PDL1, and CTLA-4, which
individually all have roles in suppressing the immune system.
Ocean Biomedical is working to create a new
generation of cancer therapeutics. In separate new approaches
targeting PD1 and CTLA4, each in combination with anti-CHi3L1,
the company’s bispecific therapeutic candidates have created
lung cancer tumor suppression of
85%–95% (images below).
Both bispecific approaches have pending patents in the U.S. and
internationally, with claims extending beyond lung cancer to
potential use in multiple additional cancers, including
glioblastoma multiforme.
Anti-CHi3L1+Anti-PD1 bispecific
immunotherapy. One of the currently effective cancer
immunotherapies targets Programmed Cell Death Receptors, often
designated “PD1” and its ligand “PDL1.” In results of one study
testing the efficacy of the monospecific and bispecific antibodies
by culturing tumor cells and human T lymphocyte cells together in
the presence of varying combinations of our antibodies (results
illustrated below), anti-PD1 caused the T cells to kill
approximately 20% of the tumor cells and Ocean’s monospecific
anti-CHi3L1 was comparably effective. When the two monospecific
antibodies (anti-CHi3L1 and anti-PD1) were administered
individually and at the same time an additive effect was seen with
40% of the tumor cells being killed. Pushing a step further, when
Dr. Elias’ team tested the bispecific antibody that targeted CHi3L1
and PD1 greater than 90% of the tumor cells were
killed. Thus, in multiple in vitro and mouse model lung
cancer tests, the bispecific antibody that simultaneously targets
CHi3L1 and PD1 has a remarkable, synergistic impact leading to
tumor reduction that more than
quadruples the impact of
anti-PD1 alone.
Anti-CHi3L1+Anti-CTLA4 bispecific
immunotherapy. In addition to the PD1 pathway, Ocean
Biomedical is also targeting the immune checkpoint inhibitor CTLA4,
another established immunotherapy pathway. The efficacy of these
monospecific and bispecific antibodies has been tested in mouse
model experiments (results shown below), where malignant melanoma
tumor cells are released into the mouse circulation and their
ability to spread (metastasize) to the lung is evaluated by
quantitating the black pleural tumor colonies that develop in the
presence of varying combinations of Ocean’s antibodies. Shown
below, anti-CTLA4 decreased tumor metastasis by approximately 40%
cells and Ocean’s monospecific anti-CHi3L1 was comparably
effective. When the two monospecific antibodies (anti-CHi3L1 and
anti-CTLA4) were administered individually and at the same time an
additive effect was seen with a 60% decrease in pleural colonies
(column 4). When the bispecific antibody that simultaneously
targeted CHi3L1 and CTLA4 was
employed there was a more than 80%
decrease in metastasis (column
5).
Multiple Pathways, Multiple
Cancers. On several fronts, Ocean Biomedical is advancing
lung cancer treatment candidates that have the ability to
target multiple tumor suppressing
pathways at the same time, and early indications
show potential for multiplying the effectiveness of current
immuno-oncology products, generating surprising, synergistic
outcomes. Because these candidates are building on evolving
understanding of how cancer cells subvert and attenuate natural
immune responses, each candidate has potential application against
a broad range of cancers. In a recently published independent
study, the anti-CHi3L1 monoclonal has shown effectiveness in
controlling some of the most harmful pathways in the universally
lethal brain cancer, glioblastoma. In total, Ocean Biomedical’s
oncology platform has garnered 27 issued or pending patents,
already covering ‘method of use’ in nine unique cancers, including
prostate cancer, colon cancer, rectal cancer, ovarian cancer,
kidney cancer, breast cancer, glioblastoma, melanoma, and lung
cancer.
“We are making discoveries that we believe will
drive cancer research, and eventually treatment and patient
outcomes, forward,” said Dr. Elias. “This pathway discovery is an
unprecedented leap, because if you control CHi3L1, you don’t just
control one anti-cancer pathway, you simultaneously control many
anti-cancer pathways.”
“On World Lung Cancer Day, we are proud to be
part of the global effort to cure this terrible disease,” commented
Ocean Biomedical’s CEO, Elizabeth Ng. We are working on the
systematic steps needed to progress the anti-CHi3L1 antibodies into
the clinic to potentially become impactful new cancer
therapeutics.”
“Non-Small Cell Lung Cancer alone affects nearly
500,000 people in the U.S.,“ commented Dr. Chirinjeev Kathuria,
Ocean Biomedical’s co-founder and Executive Chairman. “These
discoveries have the potential to save thousands of lives of people
affected not just by lung metastasis, and glioblastoma, but also
other forms of cancer such as breast, prostate and melanoma.”
About Jack A. Elias
Dr. Jack A. Elias is the former Chair of Yale’s
Department of Internal Medicine, Dean Emeritus of Medicine and
Biological Sciences at Brown University, and current Professor of
Translational Science, Medicine and Molecular Microbiology and
Immunology at The Warren Alpert Medical School of Brown University.
He is a leading pulmonary care specialist and research pioneer. In
2019, Dr. Elias co-founded Ocean Biomedical with several Brown
University colleagues, alums, and experienced pharma business
leaders to help address major unmet medical needs by accelerating
more discovery science into needed therapeutics.
About Cancer Immunotherapy
Immunotherapy is an evolving approach to cancer
therapeutics that enhances traditional treatments by activating a
person’s own immune system to fight cancer. Immunotherapy can boost
the immune system to find and attack cancer cells. Monoclonal
antibodies are immune system proteins created to bind to specific
targets on cancer cells or cells in the tumor growth environment.
Ocean Biomedical’s monoclonal antibody targets a polypeptide
(CHi3L1) that is associated with accelerated tumor growth in a wide
range of cancers. By suppressing CHi3L1, Ocean Biomedical has been
able to suppress primary and metastatic tumor growth in multiple
animal models. As reflected in the newly issued patent, this unique
immunotherapy approach has potential use in multiple forms of
visceral cancers.
About Ocean Biomedical
Ocean Biomedical, Inc. (“Ocean Biomedical” or
the “Company”) is a Providence, Rhode Island-based biopharma
company with an innovative business model that accelerates the
development and commercialization of scientifically compelling
assets from research universities and medical centers. Ocean
Biomedical deploys the funding and expertise to move new
therapeutic candidates efficiently from the laboratory to the
clinic, to the world. Ocean Biomedical is currently developing five
promising discoveries that have the potential to achieve
life-changing outcomes in lung cancer, brain cancer, pulmonary
fibrosis, and the prevention and treatment of malaria. The Ocean
Biomedical team is working on solving some of the world’s toughest
problems, for the people who need it most.
To learn more, visit
www.oceanbiomedical.com.
Forward-Looking Statements
The information included herein and in any oral
statements made in connection herewith include “forward-looking
statements” within the meaning of the “safe harbor” provisions of
the United States Private Securities Litigation Reform Act of 1995.
Forward-looking statements may be identified by the use of words
such as “estimate,” “plan,” “project,” “forecast,” “intend,”
“will,” “expect,” “anticipate,” “believe,” “seek,” “target,” or
other similar expressions that predict or indicate future events or
trends or that are not statements of historical matters, although
not all forward-looking statements contain such identifying words.
These forward-looking statements include but are not limited to:
the expected timing and success of investigational new drug (“IND”)
filings for our initial product candidates; statements regarding
the expected timing of our IND-enabling studies; the frequency and
timing of filing additional INDs; expectations regarding the
availability and addition of future assets to our pipeline; the
advantages of any of our pipeline assets and platforms; the
potential benefits of our product candidates; potential commercial
opportunities; the timing of key milestones for our programs; the
future financial condition, results of operations, business
strategy and plans, and objectives of management for future
strategy and operations; and statements about industry trends and
other companies in the industry. These forward-looking statements
are based on various assumptions, whether or not identified herein,
and on the current expectations of the Company’s management, and
they are not predictions of actual performance. These
forward-looking statements are provided for illustrative purposes
only and are not intended to serve as, and must not be relied on by
any investor as, a guarantee, an assurance, a prediction, or a
definitive statement of fact or probability. Actual events and
circumstances are difficult or impossible to predict and will
differ from assumptions.
Any discoveries announced by the Company are
based solely on laboratory and animal studies. The Company has not
conducted any studies that show similar efficacy or safety in
humans. There can be no assurances that any treatment tested by the
Company will prove safe or effective in humans, and any clinical
benefit of any such treatment is subject to clinical trials and
ultimate approval of its use in patients by the FDA. Such approval,
if granted, could be years away.
Forward-looking statements are predictions,
projections, and other statements about future events that are
based on current expectations and assumptions and, as a result, are
subject to risks and uncertainties. These forward-looking
statements are not guarantees of future performance, conditions, or
results, and involve a number of known and unknown risks,
uncertainties, assumptions, and other important factors, many of
which are outside the control of the Company that could cause
actual results or outcomes to differ materially from those
discussed in the forward-looking statements. You should carefully
consider the foregoing factors and the other risks and
uncertainties that are described in the Company’s Annual Report on
Form 10-K for the year ended December 31, 2022, and in other
documents to be filed by the Company from time to time with the SEC
and which are and will be available at www.sec.gov. These filings
identify and address other important risks and uncertainties that
could cause actual events and results to differ materially from
those contained in the forward-looking statements. Forward-looking
statements speak only as of the date they are made. We do not
undertake any obligation to update any forward-looking statements
made by us. These forward-looking statements should not be relied
upon as representing the Company’s assessments as of any date
subsequent to the date of this filing. Accordingly, undue reliance
should not be placed upon the forward-looking statements.
Ocean Biomedical Investor RelationsOCEANIR@westwicke.com
Ocean Biomedical Media RelationsOCEANPR@westwicke.com
Kevin KertscherCommunications Director
Source: Ocean Biomedical, Inc.
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