On April 12, 2021 Oasmia Pharmaceutical AB, an innovation-focused specialty pharmaceutical company, reported final data from the dose-escalation and dose-expansion cohorts of a Phase I trial of the investigational drug candidate Cantrixil (TRX-E-002-1) at the American Association of Cancer Research (AACR) (Free AACR Whitepaper) annual meeting (Press release, Oasmia, APR 12, 2021, View Source [SID1234577892]).

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The full Phase I data was presented in a 15-minute oral presentation by the clinical trial’s Principal Investigator, Jermaine Coward, Associate Professor, ICON Cancer Centre, located in Brisbane, Australia.

A conference call scheduled by Oasmia today at 14:00 CEST has been postponed to enable publication of the data in a peer reviewed journal.

Top-line data previously reported by Kazia Therapeutics Ltd in December 2020 from the Phase I open-label study (NCT02903771) conducted at sites in the USA and Australia confirmed that the Phase I study met its primary endpoints, establishing clinical proof of concept.

Further clinical evaluation of the data has confirmed that Cantrixil may induce ovarian cancer stem cell (OCSC) death and sensitize cancer cells to standard chemotherapy. An encouraging signal was also seen in patients with platinum-refractory ovarian cancer. The full data also confirms the maximum tolerated dose of Cantrixil to be 5.0 mg/kg when administered weekly via intraperitoneal injection.

Principal Investigator for the trial Dr. Jermaine Coward, Associate Professor, ICON Cancer Centre, commented, "Survival outcomes for patient with mid to late-stage ovarian cancer are poor when using standard cytotoxic chemotherapy and around 80% will experience disease recurrence within 2 years. This full data further underscores the potential of Cantrixil for these patients. It is particularly exciting to see a potential impact on ovarian cancer stem cells which have been heavily implicated as a potential driver of disease recurrence."

Dr. Reinhard Koenig, Oasmia’s Chief Scientific Officer added, "Oasmia has a growing pipeline of oncology programmes in clinical development. This is excellent news and supports our belief in the potential therapeutic benefits of the investigational drug candidate Cantrixil for the treatment of ovarian cancer. We look forward to progressing the programme in clinical development next year."

In March Oasmia signed an agreement with Kazia Therapeutics to acquire exclusive global development and commercialization rights for Cantrixil.

Cantrixil consists of the active molecule, a potent and selective third generation benzopyran SMETI inhibitor named TRXE-002-01, encapsulated in a cyclodextrin. It is believed to target a wide spectrum of cancer cells, including chemotherapy-resistant tumor-initiating cells that are thought to be responsible for disease relapse.

On April 12, 2021 Heat Biologics, Inc. (Nasdaq: HTBX), a clinical-stage biopharmaceutical company focused on developing first-in-class therapies to modulate the immune system, including multiple oncology product candidates and a novel COVID-19 vaccine,reported that promising new preclinical data of PTX-35 is presented at the AACR (Free AACR Whitepaper) Annual Meeting 2021 (Press release, Heat Biologics, APR 12, 2021, View Source [SID1234577891]).

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PTX5 is the company’s first antibody-based product, currently in a Phase 1 clinical trial for the treatment of patients with solid tumors. PTX-35 is a novel, potential first-in-class antibody modulating TNFRSF25 (death receptor 3), a receptor that is preferentially expressed by antigen-experienced T-cells. In a B16F10 melanoma mouse model, PTX-35 in the presence of tumor antigen supplied by Heat’s HS-110 immunotherapy, resulted in decreased regulatory T-cell suppression and enhanced T effector responses. These changes were associated with delayed tumor progression.

Jeff Wolf, Chief Executive Officer of Heat, commented, "PTX-35 is designed to harness the body’s natural antigen-specific immune activation. We believe our latest data suggest that PTX-35 can help overcome certain mechanisms of cancer immune evasion. We continue to advance our first-in-human Phase 1 study of PTX-35 in patients with solid tumors and look forward to sharing interim data later this year."

Details of the poster presentation are as follows:

Title: PTX-35, a Potential First-in-class Agonist, Reduced the Suppressive Activity of Regulatory T cells and Enhanced CD4+ T cell Effector Responses in the Presence of Tumor Antigens in a Murine Melanoma Model

Abstract Number: 604

Session: Modifiers of the Tumor Microenvironment

Presenter: Eric Dixon, Director of Discovery Sciences, Heat Biologics

About the AACR (Free AACR Whitepaper) Annual Meeting

The 2021 AACR (Free AACR Whitepaper) Annual Meeting program covers the latest discoveries across the spectrum of cancer research—from population science and prevention to cancer biology, translational, and clinical studies, as well as survivorship and advocacy—and highlights the work of the best minds in research and medicine from institutions all over the world.

On April 12, 2021 Oncolytics Biotech Inc. (NASDAQ: ONCY) (TSX: ONC), together with SOLTI, reported new clinical data from the AWARE-1 window-of-opportunity breast cancer study showing patients receiving pelareorep plus checkpoint blockade therapy met the trial’s primary endpoint (Press release, Oncolytics Biotech, APR 12, 2021, View Source [SID1234577890]). These data are featured in an electronic poster at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2021 during Week 1, which is taking place virtually from April 10-15, 2021.

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In the poster, data from the twenty HR+/HER2- early-stage breast cancer patients included in AWARE-1’s first two cohorts are presented. These patients were treated with pelareorep and letrozole without (cohort 1) or with (cohort 2) the PD-L1 inhibitor atezolizumab (Tecentriq) prior to surgery. Evaluation of cohorts 1 and 2 is the core objective of AWARE-1, as HR+/HER2- is the breast cancer subtype Oncolytics intends to examine in a future registrational study.

Pelareorep treatment in cohort 1 upregulated tumor PD-L1 expression, induced the generation and expansion of T cell clones, promoted tumor infiltration of CD8+ T cells, and increased the CelTIL score, a measure of tumor cellularity and inflammation associated with favorable clinical outcomes. These desired outcomes were further enhanced in cohort 2 patients, demonstrating pelareorep and atezolizumab synergistically combine to generate an anti-cancer immune response in the tumor and peripheral blood. Notably, cohort 2 met the pre-specified success criteria for the study’s primary endpoint (50% of patients with ≥ 30% increase in CelTIL score), with six of ten patients achieving at least a 30% increase in CelTIL score following treatment.

"These exciting AWARE-1 data confirm pelareorep promotes a pro-inflammatory tumor microenvironment, allowing it to synergistically interact with checkpoint inhibitors to train the immune system to fight cancer," said Aleix Prat, M.D., Ph.D., Translational Principal Investigator of AWARE-1, SOLTI President and Head of the Medical Oncology Department at Hospital Clinic in Barcelona. "The data show combining pelareorep with anti-PD-L1 therapy led to increases in CelTIL score and an improvement in the ratio between cytotoxic CD8+ T cells to regulatory T cells. These striking immunological changes are associated with greater therapeutic efficacy and improved clinical outcomes. Collectively, the AWARE-1 results highlight pelareorep’s potential to address the unmet need for techniques to enhance checkpoint inhibitor efficacy and strongly support the continued clinical evaluation of pelareorep-checkpoint inhibitor combinations."

Key data and conclusions from the AACR (Free AACR Whitepaper) poster include:

Treatment with pelareorep alone or in combination with atezolizumab increased tumor PD-L1 expression and led to the conversion of PD-L1 negative tumors into PD-L1 positive tumors
Pelareorep profoundly reverses immunosuppressive tumor microenvironments and promotes immune effector cell infiltration into solid tumors, positioning it as an enabling technology for a variety of immunotherapeutic agents
Tumor-cell specific pelareorep replication was observed in all evaluated patients following intravenous pelareorep administration
60% of cohort 2 patients (n=10) saw a CelTIL increase of at least 30% from baseline (pre-pelareorep administration) to surgery (21-days post-administration), exceeding the study’s pre-specified success criteria
70% of all cohort 1 and 2 patients (n=20) saw an increase in CelTIL from baseline to surgery
The addition of atezolizumab enhances pelareorep’s ability to generate and expand new anti-viral and anti-tumor T cell clones in the tumor and periphery
Compared to cohort 1, cohort 2 patients had a higher ratio of CD8+ T cells to regulatory T cells, suggesting pelareorep and checkpoint inhibition enhances inflammation within the tumor microenvironment
Thomas Heineman, M.D., Ph.D., Global Head of Clinical Development and Operations at Oncolytics, commented, "Based on these new results, we have successfully achieved two key objectives of the AWARE-1 study. We’ve demonstrated synergy between pelareorep and checkpoint blockade therapy, and we’ve shown pelareorep triggers an adaptive T cell immune response specifically targeting tumors."

Matt Coffey, Ph.D., M.B.A., President and Chief Executive Officer of Oncolytics Biotech Inc. added, "Achieving the primary endpoint in AWARE-1 is a key milestone validating our clinical development strategy. Data indicating that pelareorep and atezolizumab synergistically interact de-risks both our lead breast cancer program and our additional clinical trials evaluating pelareorep-checkpoint inhibitor combination therapies. The data also highlight pelareorep’s ability to profoundly reverse immunosuppressive tumor microenvironments and promote immune effector cell infiltration into solid tumors, positioning it as an enabling technology for a variety of immunotherapeutic agents. Moving forward, we expect these data to facilitate the advancement of our lead breast cancer program towards a registrational study while simultaneously bolstering our business development efforts across several indications and immunotherapy treatment regimes."

The electronic poster, titled "A window-of-opportunity study with atezolizumab and the oncolytic virus pelareorep in early breast cancer (AWARE-1)" is available for on-demand viewing on the AACR (Free AACR Whitepaper) Annual Meeting 2021 e-poster website and on the Posters & Publications page of Oncolytics’ website (LINK).

Key Opinion Leader Event

Oncolytics will host a Key Opinion Leader (KOL) event today at 2:00 pm ET with Aleix Prat, M.D., Ph.D., Translational Principal Investigator of AWARE-1, SOLTI President and Head of the Medical Oncology Department at Hospital Clinic in Barcelona and Dr. Richard Vile, a Professor of Immunology at the Mayo Clinic, who led the preclinical CAR T study with pelareorep presented earlier this year (link to press release, link to poster). To access the webcast, please click this link.

About AWARE-1

AWARE-1 is an open label window-of-opportunity study in early-stage breast cancer enrolling 38 patients into five cohorts:

Cohort 1 (n=10), HR+ / HER2- (pelareorep + letrozole)
Cohort 2 (n=10), HR+ / HER2- (pelareorep + letrozole + atezolizumab)
Cohort 3 (n=6), TNBC (pelareorep + atezolizumab)
Cohort 4 (n=6), HR+ / HER2+ (pelareorep + trastuzumab + atezolizumab)
Cohort 5 (n=6), HR- / HER2+ (pelareorep + trastuzumab + atezolizumab)
The study combines pelareorep, without or with atezolizumab, and the standard of care therapy according to breast cancer subtype. Tumor tissue is collected from patients as part of their initial breast cancer diagnosis, again on day three following initial treatment, and finally at three weeks following treatment, on the day of their mastectomy. Data generated from this study are intended to confirm that pelareorep is acting as a novel immunotherapy, to evaluate potential synergy between pelareorep and checkpoint blockade, and to provide comprehensive biomarker data by breast cancer subtype. The primary endpoint of the study is overall CelTIL score (a measurement of cellularity and tumor-infiltrating lymphocytes). Secondary endpoints for the study include CelTIL by breast cancer subtype, safety, and tumor and blood-based biomarkers.

For more information about the AWARE-1 study, refer to View Source

Tecentriq (atezolizumab) is a registered trademark of Genentech, a member of the Roche Group.

About Breast Cancer

Breast cancer is the most common cancer in women worldwide, with over two million new cases diagnosed in 2018, representing about 25 percent of all cancers in women. It is the second leading cause of death from cancer in women in America, with an estimated 42,000 deaths in the US in 2020.1

Breast cancer starts when cells in the breast begin to grow out of control. These cells usually form a tumor that can often be seen on an x-ray or felt as a lump. The malignant tumor (cancer) is getting worse when the cells grow into (invade) surrounding tissues or spread (metastasize) to distant areas of the body.

About Pelareorep

Pelareorep is a non-pathogenic, proprietary isolate of the unmodified reovirus: a first-in-class intravenously delivered immuno-oncolytic virus for the treatment of solid tumors and hematological malignancies. The compound induces selective tumor lysis and promotes an inflamed tumor phenotype through innate and adaptive immune responses to treat a variety of cancers and has been demonstrated to be able to escape neutralizing antibodies found in patients.

On April 12, 2021 C4X Discovery Holdings plc (AIM: C4XD), a pioneering Drug Discovery company, reported that its subsidiary, C4X Discovery Limited ("C4XD", "C4X Discovery" or the "Company"), has signed an exclusive worldwide licensing agreement with Sanofi (NASD: SNY, PAR: SAN – "Sanofi "), worth up to €414 million, for C4XD’s oral pre-clinical IL-17A inhibitor programme (Press release, C4X Discovery, APR 12, 2021, View Source [SID1234577886]). Under the terms of the agreement, C4XD will receive an upfront payment of €7 million and could receive up to a further €407 million in potential development, regulatory and commercialisation milestones, of which €11 million is in pre-clinical milestones, in addition to single digit royalties.

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Under the license, Sanofi will develop and commercialise an oral therapy for the treatment of inflammatory diseases, a multi-billion dollar market. The IL-17 family of cytokines are strong inducers of inflammation and are implicated in a variety of autoimmune diseases including psoriasis, psoriatic arthritis and ankylosing spondylitis. Current treatments targeting IL-17 are monoclonal antibodies administered via an injection. There is an urgent need for safe and efficacious oral small molecule therapies to increase the number of patients able to access IL-17 targeted drugs and expand availability into new inflammatory disease indications. C4XD’s small molecule IL-17A inhibitor programme can selectively block IL-17 activity in vivo whilst maintaining molecular size of the molecule in the traditional "drug-like" range suitable for oral administration. Sanofi will continue to work with the C4XD team to access its unique and proprietary 4D Conformetrix technology, as the programme advances towards clinical studies.

Clive Dix, CEO of C4X Discovery, said: "We are proud to be working with Sanofi to create much needed oral therapies in the underserved inflammatory disease space. While antibody therapies have demonstrated the potential of IL-17 inhibition in the generation of highly effective treatments, the injectable route means many patients currently do not have access to the medicines that can change their lives. We believe that our small molecule programme has the potential to create high value, efficacious and convenient oral IL-17 therapeutics for this large market. The Psoriasis market alone is estimated to be worth c.$24 billion per annum by 20271, and when combined with Sanofi’s development expertise our programme has the potential to address a number of indications.

"This is the second significant agreement for a C4XD programme and marks a major milestone for the Company, not only validating the strength of our Drug Discovery expertise, but also our strategy to drive shareholder value through early-stage revenue generating deals. With Indivior progressing our molecule for opioid addiction through a Phase I clinical trial and now our partnership with Sanofi driving potential next generation oral IL-17 therapies, we look forward with confidence to further develop our portfolio and deliver additional novel small molecule drug candidates tackling significant patient needs."

On April 12, 2021 XNK Therapeutics AB ("XNK" or the "Company"), a Swedish clinical stage immunotherapy company treating cancer by developing novel NK cell-based therapies, reported the completion of a private placement of SEK 64 million (Press release, CellProtect Nordic Pharmaceuticals, APR 12, 2021, View Source [SID1234577885]). The purpose of the issue is primarily to finance the Company’s research and development efforts.

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"XNK has made significant progress with its technology platform and this new funding will be key to continue the clinical development of our leading investigational drug candidate," said Johan Liwing, CEO of XNK.