On April 18, 2018 OncoMed Pharmaceuticals Inc. (NASDAQ:OMED), a clinical-stage biopharmaceutical company focused on discovering and developing novel anti-cancer therapeutics, presented preclinical data during the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting related to two of its therapeutic candidates, anti-TIGIT (OMP-313M32), currently in the Phase 1a portion of a Phase 1a/b study, and GITRL-Fc trimer (OMP-336B11), currently in a Phase 1a study (Press release, OncoMed, APR 18, 2018, View Source [SID1234525498]). In addition, preclinical data was presented exploring the ability of OncoMed’s Wnt antagonist vantictumab (anti-FZD, OMP-18R5) to potentiate immune responses to checkpoint agents.

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TIGIT (T-cell immunoreceptor with Ig and ITIM domains) is an inhibitory checkpoint receptor that binds to PVR ligand, a protein broadly expressed on tumor cells and tumor-infiltrating cells, and, in doing so, blocks T-cell activation. OncoMed’s presentation (Abstract 5627) showed that anti-TIGIT treatment reduced the abundance of regulatory T-cells (Tregs) within tumors in animal models, and mechanistic studies demonstrated an important contribution of effector function for anti-tumor efficacy. "These investigations highlight the potential of our anti-TIGIT antibody," said Ann Kapoun, Ph.D., OncoMed’s Vice President of Translational Medicine. "These translational research efforts inform our biomarker strategies and may help us identify patients whose tumors are most likely to benefit from our therapeutic candidates."

A series of preclinical studies (Abstract 70, Abstract 2726, Abstract 3826) from OncoMed highlighted the ability of GITRL-Fc, a novel linkerless ligand trimer that binds to the co-stimulatory receptor GITR (glucocorticoid-induced TNF receptor family-related protein), to function as a robust GITR agonist by both stimulating T-cell and NK responses and reducing the abundance of Tregs in tumors. The studies also investigated the impact of aging on anti-tumor immune response, an important and often underappreciated parameter impacting the efficacy of immuno-oncology strategies.

Another preclinical study (Abstract 1733) examined the synergistic impact of OncoMed’s Wnt pathway antagonist vantictumab on the ability of checkpoint agents to promote an effective anti-tumor immune response. These data add to a growing recognition of the importance of the Wnt pathway in shaping immune function.

"The data detailed in these AACR (Free AACR Whitepaper) presentations exemplify the ongoing extensive efforts to deepen our understanding of the mechanisms of action of our agents" said Austin Gurney Ph.D., OncoMed’s Senior Vice President of Research and Chief Scientific Officer. "With both our anti-TIGIT and GITRL-Fc programs advancing in Phase 1 studies, these research efforts will have direct impact on informing our clinical programs."

Below are additional highlights from the OncoMed poster presentations:

Abstract 5627 – Anti-TIGIT biomarker study: Inhibition of TIGIT induces loss of Tregs from tumors and requires effector function for tumor growth inhibition

Using a surrogate anti-TIGIT antibody, potent single-agent dose-dependent anti-tumor efficacy was demonstrated on large established CT26 WT tumors. Anti-TIGIT efficacy was shown to require effector function for tumor growth inhibition and biomarker analysis demonstrated reduction of Treg frequency and activation of T-cells and NK cells as part of the mechanism of action of anti-TIGIT. CD226, a co-receptor for TIGIT’s ligands PVR and PVRL2, was significantly upregulated in T-cells, Tregs and NK cells, reflecting a feedback loop activated by the inhibition of TIGIT activity. Anti-TIGIT gene signatures in tumors and in blood were identified from multiple syngeneic models and may be potential biomarkers for measuring anti-TIGIT activity. Additionally in a human tissue study, TIGIT expression on Tregs was found to be considerably higher than on CD8+ T-cells in multiplexed IHC panels across a panel of multiple solid tumors types.

Abstract #70 – Effect of aging on the antitumor activity of GITRL-Fc

It is now appreciated that the immune system changes in response to aging. In this study, the activity of GITRL-Fc protein was compared in both young and older mice. Compared to young mice, tumors grew faster in older mice. This may be due in part to an observed greater prevalence of myeloid-derived suppressor cells (MDSC) in older mice. GITRL-Fc significantly inhibited tumor growth in both older and younger mice with efficacy more pronounced in young mice. In older mice, GITRL-Fc (mIgG2a) was still able to deplete Tregs in tumor and increase Tregs in the spleen as has been previously shown with GITRL-Fc in young mice. A GITRL-Fc protein deficient in effector function (mIgG2a (N297A)) did not deplete Tregs in the tumor but did retain anti-tumor growth activity. Collectively, these data demonstrate that Treg depletion and activation of GITR signaling contribute to the anti-tumor efficacy of GITRL-Fc in older mice.

Abstract #2726 – In vitro functional activity of OMP-336B11, a GITRL-Fc fusion protein, on primary human immune cells

In this study, functional characterization of OMP-336B11 in various human immune cell assays was presented. OMP-336B11 enhanced activated human T-cell proliferation and augmented IL-2 induced IFNγ from human NK cells. Notably, OMP-336B11 demonstrated superior activity compared to agonist anti-GITR antibodies. OMP-336B11 is designed with an IgG1 Fc domain in order to elicit NK-mediated cytotoxicity of high GITR-expressing cells (i.e., Tregs). Co-incubation of primary human NK cells (effector) and GITR expressing cells (target) resulted in an OMP-336B11 dependent dose-titratable increase in target cytotoxicity.

Abstract #3826 – GITRL-Fc biomarker and mechanism study: GITRL-Fc reduces Treg frequency in tumors and requires effector function for inhibition of tumor growth

Using a surrogate GITRL-Fc molecule, potent single agent dose-dependent anti-tumor efficacy was demonstrated on large established CT26.WT tumors. Biomarker analysis showed that loss of Tregs, activation of T-cells and Fc-mediated effector function are key elements in the mechanism of action of the molecule. Immuno-phenotyping of tumor-associated immune cells revealed a reduction in Treg frequency in the tumor by 24 hours post-dose that was maintained at 7 and 14 days. GITRL-Fc treatment increased proliferation and activation markers on tumor-associated CD4+ and CD8+ T-cells, suggesting an increased cytotoxic environment within the tumor. GITRL-Fc gene signatures were identified in tumors and blood from multiple syngeneic models and may be used as potential biomarkers along with multiplexed IHC panels (e.g. GITR+CD4+ T-cells, GITR+CD8+ T-cells) that were developed. Additional studies comparing intratumoral (IT) vs intraperitoneal GITRL-Fc injection demonstrated both routes of administration produced similar efficacy, suggesting IT administration may be an alternative route of administration.

Abstract #1733 – Wnt antagonists synergize with immune checkpoint inhibitors to enhance anti-tumor responses

While enhanced Wnt signaling has been shown to play a major role in cancer stem cell biology, more recent studies have implicated Wnt in the development of resistance to anti-tumor immune responses. In murine tumor models, targeting Wnt signaling using the Fzd receptor monoclonal antagonist antibody vantictumab in combination with immune checkpoint inhibitors anti-CTLA-4 or anti-PD1 induces enhanced anti-tumor responses leading to decreased tumor volume and increased infiltration of activated CD8+ T-cells into the tumor microenvironment. In addition, the data showed that combined Wnt and immune checkpoint inhibition decreased Tregs and immune suppressive myeloid cell populations, enhanced cytotoxic T-cell activity and increased antigen presentation by APCs. These results suggest that co-targeting Wnt and immune checkpoint proteins may provide valuable opportunities for novel combination strategies for immunotherapeutic clinical development.

These posters are available on the Pipeline section of OncoMed’s website, www.oncomed.com.

Additional information on the meeting can be found on the AACR (Free AACR Whitepaper) website www.aacr.org.

On April 18, 2018 Trillium Therapeutics Inc. (Nasdaq/TSX: TRIL), a clinical-stage immuno-oncology company developing innovative therapies for the treatment of cancer, reported that preclinical data from its TTI-622 (SIRPa-IgG4 Fc) immune checkpoint inhibitor program were presented at the 109th Annual Meeting of the American Association for Cancer Research (AACR) (Free AACR Whitepaper) (Press release, Trillium Therapeutics, APR 18, 2018, View Source [SID1234525500]).

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TTI-622 (SIRPa-IgG4 Fc) is the second SIRPaFc decoy receptor that Trillium is advancing into the clinic. It consists of the CD47-binding domain of human SIRPa linked to an IgG4 Fc region and is being developed primarily for combination therapy.

The data presented at AACR (Free AACR Whitepaper) demonstrate that TTI-622 induces the phagocytosis of a broad panel of tumor cells derived from patients with both hematological and solid tumors. As a monotherapy, TTI-622 treatment resulted in decreased tumor growth and improved survival in a B cell lymphoma xenograft model, and enhanced the efficacy of cetuximab (anti-EGFR) and daratumumab (anti-CD38) antibodies in solid and hematological xenograft models, respectively. Unlike CD47-blocking antibodies, TTI-622 bound minimally to human erythrocytes and did not induce hemagglutination in vitro.

"The preclinical data presented at AACR (Free AACR Whitepaper) reinforce our confidence in this target and provide a solid foundation for initiating a clinical program with TTI-622," said Dr. Niclas Stiernholm, President and CEO of Trillium Therapeutics. This second SIRPaFc decoy receptor complements TTI-621, and allows us to evaluate the effects of CD47 blockade using different levels of Fc receptor engagement. Importantly, we believe the minimal binding of TTI-622 to human red blood cells distinguishes this agent from other IgG4-based CD47 targeted therapies."

A two-part, multicenter, open-label, phase 1a/1b study of TTI-622 in patients with advanced relapsed or refractory lymphoma or multiple myeloma is being initiated, with the first patient expected to be dosed in Q2 2018. In the phase 1a dose-escalation study, patients will be enrolled in sequential dose cohorts to receive TTI-622 once weekly to characterize safety, tolerability, pharmacokinetics, and to determine the maximum tolerated dose. In the phase 1b study, patients will be treated with TTI-622 in combination with rituximab, a PD-1 inhibitor or a proteasome inhibitor-containing regimen.

On April 18, 2018 Sosei Group Corporation ("Sosei" or the "Company"; TSE Mothers Index: 4565), the world leader in GPCR medicine design and development, reported that new preclinical data for AZD4635 was presented by AstraZeneca in a poster (abstract 3751) yesterday at the American Association of Cancer Research Annual Meeting, 17 April 2018; Chicago, IL, USA (Press release, Sosei, APR 18, 2018, View Source;sid=1573490 [SID1234525518]).

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AZD4635 is a potent and selective, orally available, small molecule adenosine A2A receptor (A2AR) antagonist. It was discovered by Sosei’s wholly-owned subsidiary Heptares Therapeutics and AstraZeneca licensed exclusive global rights to the molecule in 2015.

The poster is entitled "Inhibition of A2AR by AZD4635 induces anti-tumor immunity alone and in combination with anti-PD-L1 in preclinical models," and highlighted the following results:

Adenosine signalling through the A2AR results in a range of immunosuppressive effects which can promote tumour growth
AZD4635 is an oral, specific A2AR antagonist that is demonstrated to reverse adenosine mediated T cell suppression.
Treatment with AZD4635 alone and in combination with an anti-PD-L1 antibody led to a significant reduction in tumour growth in syngeneic tumour models exhibiting both high and low levels of adenosine
These effects were absent in immune-deficient animals confirming the immune-mediated mechanism of action. Further exploration of target engagement by AZD4635 is ongoing.
These data suggest that AZD4635 has the potential to restore immune responsiveness resulting in anti-tumour benefits alone and in combination with other cancer immunotherapies irrespective of the background tumour adenosine levels
AZD4635 is currently in a Phase 1 clinical trial as a single agent and in combination with AstraZeneca’s anti-PD-L1 antibody IMFINZI (durvalumab) in patients with solid malignancies (NCT02740985).

Notes to Editors

About AZD4635

AZD4635 is a potent and selective, orally available, small molecule adenosine A2A receptor (A2AR) antagonist discovered by Sosei subsidiary Heptares Therapeutics and licensed to AstraZeneca in 2015. High levels of adenosine are found in tumour microenvironments and benefit the progression of cancer. By activating the adenosine A2A receptor increased adenosine levels impair T-cell function and result in suppression of the host immune response. AZD4635 specifically blocks adenosine signalling via the A2A receptor signalling resulting in increased immune responsiveness and potential to destroy cancer cells and decrease tumour burden, A2A receptor antagonism can therefore promote the anti-cancer response of T-cells within the tumour microenvironment, offering a novel mechanism of action as a mono- or combination therapy.

On April 18, 2018 Oncolytics Biotech Inc. (TSX: ONC) (OTCQX: ONCYF), currently developing REOLYSIN (pelareorep), an intravenously delivered immuno-oncolytic virus turning cold tumors hot, reported two posters highlighting data from pelareorep studies presented at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2018. The conference takes place April 14-18, 2018, in Chicago (Press release, Oncolytics Biotech, 18 18, 2018, View Source [SID1234525555]).

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"These posters add additional confirmation of pelareorep’s promotion of an inflammatory signature in different cell lines," said Dr. Matt Coffey, President and CEO of Oncolytics Biotech. "The study by doctor Wilkinson demonstrates that pelareorep can establish an inflamed tumor phenotype and the presentation by doctor Goel highlights the synergistic combination of pelareorep and an anti-PD1 agent. Taken together, these findings highlight that pelareorep is priming the immune system and enhancing the activity of checkpoint blockade. As MSS CRC typically does not respond to checkpoint blockade, viral priming could expand the use of this drug class by making non-susceptible tissue susceptible by turning cold tumors hot. This work will of course lead to additional studies in combination with other immunotherapies."

Presenter: Sanjay Goel, MD, Associate Professor of Medicine, Montefiore Medical Center
Presentation Title: Potentiating effect of reovirus in anti-PD1 therapy in colorectal cancer
Session Title: Receptor Targeting and the Tumor Microenvironment
Location: Poster Section 38
Poster Board #: 17
Poster Number: 3917

Data presented in the poster demonstrated:

pelareorep administration increased PD-L1 expression on MSS CRC cells;

possible evidence of a vaccine effect: immunologically competent mice were re-challenged with the original tumor and the tumor was unable to propagate;

combination therapy made statistically significant improvements in survival compared to controls in both BALB/c (median 42 vs. 16 days, p=0.003) and C57BL/6 (median 24 vs. 17 days, p=0.02) mice; and

pelareorep treated xenografted tumor tissue showed a higher infiltration of T lymphocytes as confirmed by CD8-positive and intensified granzyme staining.

Presenter: Grey Wilkinson, PhD, Translational Scientist, Oncolytics Biotech
Presentation Title:
Pelareorep promotes the expression of a chemokine signature that predicts response to immunotherapy
Session Title: Immunomodulatory Agents and Interventions 2
Location: Poster Section 33
Poster Board #: 10
Poster Number: 4707

Data presented in the poster demonstrated:

the expression of a chemokine signature that predicts response to immunotherapy;

global changes in gene expression are unique and different for each cell line following pelareorep infection and changes in gene expression occur before significant cell lysis;

pelareorep differentially promotes the expression of innate and adaptive immunity related genes in HCC, CRC, NSCLC cell lines; and

pelareorep promotes the expression of gene signatures that predict response to immuno-therapies in HCC cells.

These posters are now available on the Posters & Publications page of the company’s website: www.oncolyticsbiotech.com/technology/posters-publications.

About REOLYSIN/Pelareorep
REOLYSIN, also known as 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.

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