Integra Therapeutics secures €4.5-million in funding from Advent France Biotechnology, Invivo Capital and Takeda Ventures

On December 2, 2021 Integra Therapeutics, a biotechnology company that is creating next-generation gene writing tools to boost the efficiency and safety of advanced therapies, reported the company has completed its first round of funding for €4.5 million with Advent France Biotechnology (France), Invivo Capital (Spain) and Takeda Ventures (USA) (Press release, Integra Therapeutics, DEC 2, 2021, View Source [SID1234654526]).

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Integra Tx was founded in late 2020 as a spin-off of Pompeu Fabra University (UPF) based on technology developed in the Translational Synthetic Biology Lab led by Dr Marc Güell (EMBO Young Investigator, National Research Award for Young Talent and co-founder of two biotech firms).

The great potential of this novel gene writing technology lies in the fact that it resolves some of the main technical limitations of gene therapy: it can be used to paste DNA sequences of any size gene with high precision. Advanced therapies are one of the pillars of the medicine of the future and are aimed at both preventing and treating genetic and oncological diseases that, for now, are incurable.

The funds raised in this round will allow Integra Tx to complete the prototype of the new gene writing technology platform, carry out preclinical validation using in vivo and ex vivo models, and manage its patent portfolio in 2022 and 2023. After that, the company plans to open a Series A round to seek regulatory approval and carry out clinical trials with patients.

"We’re very proud to be transferring our scientific knowledge and technological skills in gene editing from the lab to society. We thank all our investors for their commitment to Integra Tx and to making advanced therapies safer and more effective, and getting them to patients that urgently need them," says Dr Avencia Sánchez-Mejías, co-founder and CEO of Integra Tx. Sánchez-Mejías joined the UPF Translational Synthetic Biology Lab in 2018 after doing research at the Institute of Biomedicine of Seville, the National University of Singapore and the University of Miami Miller School of Medicine.

Dr Marc Güell, co-founder and CSO of Integra Tx, explains, "the Integra Tx technology platform is very promising because it is an evolution of the CRISPR-Cas techniques. We’ve found a way to merge them with transposase and integrase proteins that have a great capacity for gene transfer and to not depend on viral vectors for transporting the components into the cell, which is a step forward in making these therapies safer." Plus, it has applications both in vivo (directly in patients) and ex vivo (outside of patients).

Matthieu Coutet, Managing Partner at Advent France Biotechnology, adds: "We decided to invest in Integra Tx because we believe in its seasoned scientific and management team. Its founders have shown a strong passion and ambition to move Integra Tx’s technology forward, combined with a proven expertise in gene editing and advanced therapies."

Dr Luis Pareras, Managing Partner at Invivo Capital, says: "We’re thrilled with the possibilities Integra Tx’s plataform can develop to solve the problem of cargo size in gene therapy. We’re also very pleased with the international syndicate supporting this seed round, in yet another example of technology transfer opportunity and the competitiveness of the biotech ecosystem in Spain."

Miles Gerson, Takeda Ventures Partner and Senior Investment Director, says: "Takeda Ventures is very excited to support Integra Tx and their next generation gene writing platform with many potential applications to benefit patients."

BioRay Announces First-Patient-In for Phase II Clinical study of Zuberitamab in Patients with Primary immunologic thrombocytopenic purpura

On December 2nd, 2021 BioRay Pharmaceutical Co., Ltd. (hereinafter referred to as "BioRay") reported that the first patient with Primary immunologic thrombocytopenic purpura (ITP) had been dosed in the Phase II Clinical trial of self-developed Zuberitamab (development code: HS006) (Press release, Zhejiang Hisun Pharmaceutical, DEC 2, 2021, View Source;a=index&classid=43&id=3 [SID1234634620]). The study aims to evaluate the safety and efficacy of Zuberitamab (HS006) in subjects with primary persistent or chronic ITP who failed from prior therapy(ies). The leading entity of the clinical trial is Tongji Medical College, Union Hospital, Huazhong University of Science and Technology and the principal investigator is Prof.Yu Hu.

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Zuberitamab (HS006) is a human-mouse chimeric monoclonal antibody that specifically binds to B-lymphocyte antigen CD20 and can kill B cells via ADCC and CDC action. Zuberitamab (HS006) has demonstrated a favorable safety and efficacy profile in B-cell lymphoma in clinical trials. As B cells play an important role in the pathogenesis of autoimmune diseases such as primary immunologic thrombocytopenic purpura (ITP), rheumatoid arthritis (RA), and multiple sclerosis (MS), Zuberitamab (HS006) has the potential to be used in the treatment of autoimmune diseases.

Primary immunologic thrombocytopenic purpura (ITP) is an acquired autoimmune disease characterized by thrombocytopenia. The pathogenesis of ITP is mainly due to the loss of immune tolerance to the patient’s platelet membrane antigens. The patient’s B cells produce antibodies against different platelet antigens, leading to the formation of antigen-antibody complexes, and resulting in excessive destruction of platelets in the spleen or liver. Meanwhile, thrombopoiesis is impaired. Zuberitamab (HS006) specifically clears B-lymphocytes, thereby reducing autoantibody production and platelet destruction. Zuberitamab (HS006) is expected to bring an alternative treatment optionfor ITP patients and improve their quality of life.

"Zuberitamab (HS006) is a self-developed monoclonal antibody that targets the CD20 protein on the surface of B cells. It can rapidly, thoroughly and durably remove CD20+ B cells, and this effect is reversible after drug withdrawal, " said by Dr. Haibin Wang, the Chief Medical Officer (CEO) of BioRay, "The Phase III Clinical trial of Zuberitamab (HS006) for primary treatment of diffuse large B-cell lymphoma has completed the observation of the primary endpoint, and the study results confirmed its good safety, tolerability and efficacy, which provides strong support for the subsequent clinical development of ITP. Based on the existing achievements, BioRay will make every effort to promote its clinical research in ITP and other diseases and promote the early launch of this product in China to benefit more patients."

Tune Therapeutics Launches with Pioneering Epigenomic Control Platform to Master Gene Networks, Treat Broad Range of Diseases

On December 2, 2021 Tune Therapeutics, a biotechnology company pioneering the creation of epi-therapeutic medicines, reported it launched with its powerful and precise genetic tuning platform, TEMPO (Press release, Tune Therapeutics, DEC 2, 2021, View Source [SID1234630692]). This cutting-edge technology dials gene expression up or down to desired levels – with the potential to reverse pathways of cancer, genetic disease, and aging by changing cell fate and function at will.

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"Genetic medicine is at a tipping point," said Matt Kane, CEO of Tune Therapeutics. "We now understand that the driving force of human health and disease is not our genes, but the epigenomic elements that shape and control them. Until now, scientists and bioengineers lacked the combined understanding, clinical expertise, and technology needed to make epigenomic therapies a practical reality. Now, we have all three."

TEMPO Platform

Tune’s proprietary TEMPO platform can rapidly target and adjust the epigenomic machinery of the cell, which shapes DNA and controls gene expression. By varying specific control modules in an iterative process, TEMPO can fine-tune expression toward healthy levels – even in diseases involving multiplex or polygenic interactions.

Unlike genome editing, the tuning process does not generate double- or single-strand breaks in DNA and makes no permanent changes to the DNA sequence. This de-risks the precise targeting of entire gene networks, allowing Tune to simultaneously turn silenced genes on and dial over-expressed genes down, in a practical, therapeutic context.

Tune has already shown that TEMPO can locate epigenomic elements involved in several intractable genetic conditions – revealing targets and networks that would be invisible or inaccessible to gene editing approaches. Moreover, Tune can optimize TEMPO to command expression of individual genes or networks with remarkable specificity and precision. This opens the door to an entirely new class of epi-therapeutics.

"The exciting challenge in front of us is taking these transformative advances in technology and extending their potential for our greater society," said Charlie Gersbach, PhD, Acting Chief Scientific Officer, Tune Therapeutics. "From proof of concept in rare, single-gene disorders to common conditions that aren’t linked to a single gene mutation – but are treatable through epigenomic control and constitute the vast majority of human diseases."

Veteran Genomic Medicine Leadership Team

Tune is launching with a veteran leadership team, endowed with deep expertise in gene and cell therapy, genome editing, and epigenetics.

Matt Kane, Chief Executive Officer
Akira Matsuno, Co-Founder, President and Chief Financial Officer
Charlie Gersbach, Ph.D., Co-Founder, Acting Chief Scientific Officer
Fyodor Urnov, Ph.D., Co-Founder, Scientific Advisory Board
Heidi Zhang, Ph.D., Executive Vice President, Head of Technical Operations
Blythe Sather, Ph.D., Vice President, Head of Research
In addition, Tune’s Board of Directors includes Mr. Kane, Dr. Gersbach, Ali Behbahani, M.D., (New Enterprise Associates), and co-founder Dan McHugh (Emerson Collective).

Drawing upon deep, local talent pools in Durham and Seattle, Tune has assembled two highly seasoned discovery and development teams, secured foundational intellectual property from Duke University, and raised $40 million from top-tier investors – including co-leads New Enterprise Associates and Emerson Collective, with Hatteras Venture Partners, Mission BioCapital, and others joining the round. This financing will enable Tune to rapidly advance its preclinical research, attract top-tier talent, and further develop its therapeutic platform.

"Tune is effectively pioneering a brand-new therapeutic modality," said Dr. Behbahani. "With the unbound potential of this approach, and their collective successes in the field, Tune is primed to become a transformative presence in modern biomedicine."

Oncology One announces second drug discovery project with Australian research institutions

On 2 December 2021 Oncology One Pty Ltd, reported a partnership with WEHI (Walter and Eliza Hall Institute of Medical Research) to develop new drugs for the treatment of cancer, in collaboration with Curtin University (Press release, Oncology One, DEC 2, 2021, View Source [SID1234629324]).

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The collaboration centres on the development of novel small molecule drugs to treat solid tumours, initially focusing on breast cancer.

The project will seek to identify small molecule compounds that specifically inhibit a novel target in breast cancer that drives tumour growth. If successful, further work will need to be undertaken to refine these compounds towards candidate therapies, which could enter clinical trials in due course.

Chair of Oncology One’s Scientific Advisory Board, Dr Ian Street, said: "This project represents an important next step for Oncology One in building a pipeline of drug discovery programs that are highly differentiated and address unmet clinical needs. We have made great progress in early breast cancer detection, and this has had a dramatic effect on reducing mortality. However, if early disease is missed and the cancer metastasises, then unfortunately prognosis is poor. We are very much looking forward to a productive collaboration with David and Pieter, and the drug discovery and research teams at WEHI and Curtin".

This transcontinental project originated in the research labs of Professor David Komander at WEHI and Associate Professor Pieter Eichhorn at Curtin University. The objective is to develop a new therapeutic for treating metastatic ER+ breast cancers that have escaped current treatments. The new therapeutic also has the potential to address unmet clinical needs in other cancers such as colorectal and brain.

WEHI Ubiquitin Signalling Division Head, Professor David Komander, said: "The ubiquitin system offers many opportunities for innovative cancer treatments. We are delighted to work with Oncology One on this exciting project and to translate our research to benefit cancer patients. The project was initially born in a collaboration with Curtin University, and we are excited to draw upon our strengths and to work with industry to improve treatments for a disease that continues to impact so many lives."

Breast cancer is the most prevalent form of cancer in women and accounts for over 2 million cases and over 600,000 deaths per year worldwide according to the World Health Organisation (WHO). The emergence of resistance to existing therapies is a major challenge in the treatment of many people with breast cancer, and new treatment modalities are urgently required to improve patient outcomes.

Curtin University Associate, Professor Pieter Eichorn, said: "While breast cancer survival rates have improved, there are millions of patients who don’t respond to current treatments. Through this collaboration drawing on the expertise of WEHI in drug discovery and Oncology One in drug development, we can find the best way to bring our cancer treatment discoveries to patients, and make a real difference to them and to their loved ones and families."

EOM PHARMACEUTICALS, INC. AND IMMUNOCELLULAR THERAPEUTICS, LTD. ANNOUNCE ENTRY INTO AND CLOSE OF DEFINITIVE MERGER AGREEMENT

On December 2, 2021 EOM Pharmaceuticals, Inc. ("EOM"), a privately held, clinical-stage pharmaceutical company, and ImmunoCellular Therapeutics, Ltd. (OTC: IMUC) ("ImmunoCellular") reported that the companies have entered into and closed on a merger agreement pursuant to which the shareholders of EOM are now the majority shareholders of the combined company (Press release, EOM Pharmaceuticals, DEC 2, 2021, View Source [SID1234618848]). The merger will create a public company that will continue EOM’s focus on advancing novel immunomodulatory and retinal disease drug agents to address a range of inflammatory, viral, retinal, and other diseases. ImmunoCellular will be renamed EOM Pharmaceuticals Holdings, Inc. Pending the assignment of a new ticker symbol, EOM Pharmaceuticals’ Common Stock will continue to be quoted on the OTC Markets under the ticker symbol "IMUC." EOM may consider in the future changing the principal listing of the Company Common Stock to a national exchange, assuming it will then meet the relevant listing requirements.

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The combined company’s two pipeline assets are EOM613 and EOM147.

• EOM613 is an investigational peptide-nucleic acid solution believed to have both antiinflammatory and pro-inflammatory broad-spectrum cytokine effects. Patients are currently enrolled in R 1 : RESCUE, a Phase 1/2a open-label clinical study in Brazil evaluating EOM613 treatment in severe hospitalized COVID-19 patients with "cytokine storm" immune responses. EOM expects to announce data from this trial in first quarter 2022. Further clinical development of EOM613 includes planning a Phase 2a multi-center trial for cancer cachexia in the U.S. and initiating exploratory trials for rheumatoid arthritis.

• EOM147 is an investigational, reformulated broad-spectrum aminosterol with a unique intracellular mechanism for the treatment of retinal diseases. EOM147 affects multiple angiogenic growth factors such as VEGF, PdGF, and bFGF. This mechanism of action is uniquely differentiated from other retinal therapies that are only anti-VEGF and administered as an intraocular injection. The novel formulation, administered as an eye drop, represents a potential breakthrough that does not require intraocular injection. Planning is underway for Phase 2 ophthalmic trials for macular edema in patients with diabetic retinopathy and wet age-related macular degeneration (wet-AMD).

EOM Founder, Board Chairman, and Chief Operating Officer Eli Goldberger said, "EOM’s merger with ImmunoCellular provides the resources necessary to advance our lead program, EOM613, as a potential treatment for COVID-19, as well as support the development of both EOM613 and EOM147. We look 2 forward to advancing our pipeline assets and delivering value to all our stakeholders, including patients, the scientific and medical community, and our stockholders."

"COVID-19 continues to pose a grave threat to millions of people worldwide and to challenge the medical and scientific community as it seeks to understand and treat the underlying causes and symptoms of this devastating disease," said EOM Chief Executive Officer and Director Irach Taraporewala, Ph.D. "We are grateful to the investigators and patients in Brazil who are currently participating in our EOM613 clinical trial and look forward to reporting initial results in early 2022."

"After an extensive review of strategic options for ImmunoCellular, we are pleased to announce the merger with EOM," said Gary S. Titus, ImmunoCellular’s Chairman of the Board. "We believe EOM’s focus on advancing novel immunomodulatory and retinal disease agents addressing unmet medical needs, as well as its experienced management team and board of directors, represent a potentially meaningful opportunity for stockholders in the newly combined company to realize long-term value."

About the Merger Pursuant to the merger agreement, EOM shareholders have exchanged all of their EOM common stock for newly issued shares of ImmunoCellular common and Series C convertible preferred stock. Postmerger, ImmunoCellular’s then-current equity holders will own approximately 3.5% and the former EOM equity holders will own approximately 96.5% percent of ImmunoCellular’s common stock, calculated on a fully diluted basis. Effective with the merger, all existing officers and directors of EOM have assumed their same positions in the new company and all existing officers and directors of ImmunoCellular have resigned. The transaction has been unanimously approved by the board of directors of both companies. EOM Pharmaceuticals Holdings, Inc. will be headquartered in Montvale, NJ. Bridgeway Capital Partners and its affiliates served as exclusive financial advisor to EOM on the transaction.

Management and Organization

The new senior leadership team at EOM Pharmaceuticals Holdings, Inc. includes Chief Executive Officer Irach Taraporewala, Ph.D.; EOM Founder, Board Chairman, and Chief Operating Officer Eli Goldberger; EOM Co-founder, Chief Scientific Officer and Medical Director Shalom Z. Hirschman, M.D; Wayne I. Danson, Chief Financial Officer and Treasurer; and Scientific Advisor and Chair of the Scientific Advisory Board, Frank L. Douglas, Ph.D., M.D.