On April 17, 2018 Torque, an immuno-oncology company developing Deep Primed cellular therapies with pharmacologic control to direct immune power deep within the tumor microenvironment, reported preclinical data for the company’s Deep-Primed IL-15 and Deep-Primed IL-12 programs demonstrating their activity compared to systemically administered IL-15 and IL-12 (Press release, Torque Therapeutics, APR 17, 2018, View Source [SID1234525537]). These data were presented at the 2018 American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting in Chicago.

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Torque is developing a new class of Deep-Primed immune cell therapeutics to dramatically expand cell therapy cures for cancer. Deep-Priming uses advanced material engineering to anchor immune-stimulatory drugs directly to the surface of multi-targeted, antigen-primed T cells to activate both the adaptive and innate immune system with pharmacologic control in the tumor microenvironment. This approach does not require genetic engineering and enables tunable loading of precise doses of cytokines onto the surface of T cells to deliver sustained and controlled immune activation.

"Both Il-15 and IL-12 are potent cytokines capable of inducing strong anti-tumor immune responses, yet their clinical use as systemic therapies is limited by the potential for severe toxicities," said Thomas Andresen, PhD, Chief Scientific Officer of Torque. "Anchoring these powerful immune activators to the surface of T cells that traffic to tumors is a unique approach to direct immune power in the tumor microenvironment. These preclinical studies demonstrate superior efficacy for this approach compared to systemic administration of these same cytokines and are the foundation for the first clinical trials that will begin later this year for Deep IL-15."

Highlights of the three preclinical presentations follow, and copies of the posters are available for download on the Torque website: https://bit.ly/2FZtPOW

Abstract 3575 / Poster 13: "Cell therapy with surface-tethered IL-12 provides immune system priming and strong anti-tumor activity"
Presenter: Jon Nardozzi, PhD, Torque; Session: Adoptive Cell Therapy 3
Key findings from the study:

Deep IL-12 Priming technology enables high loading of IL-12 doses on the surface of tumor-specific T cells.
Deep IL-12 Priming substantially increases tumor killing survival with adoptively transferred tumor-specific T cells in an aggressive solid tumor model and is superior to systemically administered IL-12.
Administration of repeat doses of Deep IL-12 Primed T cells without pre-conditioning (lymphodepletion) further increases tumor killing and survival with adoptively transferred T cells in this aggressive solid tumor model.
Deep IL-12 Primed T cells activate an endogenous immune response but do not induce overt toxicities such as weight loss or sustained systemic cytokine release.
Abstract 3577 / Poster 15: "Deep IL-15 provides autocrine stimulation and expansion of autologous T cells driven by controlled concentrated release of IL-15"
Presenter: Pengpeng Cao, PhD, Torque; Session: Adoptive Cell Therapy 3
Key findings from the study:

Deep IL-15 Priming technology loads IL-15 on T cells with a highly controlled dose per cell and provides slow release of IL-15 for autocrine stimulation and sustained adoptive T cell therapy expansion.
In contrast to systemically delivered IL-15, Deep IL-15 substantially increases target CD8 T cell concentration in the tumor, without significant systemic IFNg levels or endogenous CD8 and NK cell expansion, due to lack of systemic exposure.
Torque’s fully closed manufacturing process that uses a proprietary dendritic cell priming process generates several billion, antigen-primed human T cells with an average of 20% reactivity and >95% T cell purity (demonstrated with autologous cells from healthy human donors).
Clinical trials using this manufacturing process for Deep IL-15 Primed multi-target T cells are expected to initiate in 2018.

Also at AACR (Free AACR Whitepaper), the Irvine Lab of the Koch Institute at MIT presented data on IL-12 and IL-15 formulated in nanogels and anchored to T cells using technology developed in the Irvine Lab. Torque has built upon the Irvine Lab’s work to create the Deep-Priming technology platform. The Irvine Lab is directed by Darrell Irvine, PhD, who is a co-founder of Torque and Chairman of Torque’s Scientific Advisory Board, Professor at the Massachusetts Institute of Technology, and an Investigator of the Howard Hughes Medical Institute.

Abstract 3565 / Poster 3: "T cell receptor signaling-responsive single chain IL-12 and IL-15 superagonist nanogel ‘backpacks’ to enhance adoptive cell therapy in solid tumors"
Presenter: Michael Fichter, PhD, Koch Institute for Integrative Research at MIT; Session: Adoptive Cell Therapy 3
Key findings from the study:

IL-15 nanogels anchored to tumor-targeted T cells induces significant and specific expansion of the adoptively transferred T cells in tumors and lymph nodes that is superior to systemic IL-15.
IL-15 nanogels anchored to T cells substantively improved the efficacy of an adoptive T cell therapy against solid tumors while reducing cytokine-induced side effects triggered by systemically administered IL-15.
In a separate experiment, IL-12 nanogels anchored to CD8 effector cells induced substantial cell activation.
About Deep-Primed Immune Cell Therapeutics
Torque’s Deep-Priming platform is based on 10 years of research and development to combine very potent immunomodulatory drugs with T cells to drive a powerful immune response with pharmacologic control in the tumor microenvironment. We are developing Deep-Primed T cells using a focused set of immunomodulators—initially IL-15, IL-12, and TLR agonists—that activate both innate and adaptive immunity. Administering these immunomodulators systemically to a patient can cause lethal toxicity by activating immune cells throughout the body. Deep-Primed therapeutics are designed to activate T cells and focus the immune response to target the tumor, without systemic exposure. This is achieved by:

Anchoring the immunomodulators to the surface of T cells to activate and direct the immune response in the tumor microenvironment
Modular antigen priming of T cells to target multiple, tumor-associated antigens using a proprietary cell-processing technology
In hematologic cancers, this new class of immune therapeutics has the potential to improve on the initial success of single-target CAR-T therapeutics. For solid tumors, Deep-Primed T-cells have the potential to enable efficacy against tumors with heterogeneous antigens protected by hostile microenvironments, which are not readily addressable with the first generation of immune cell therapies.

On April 17, 2018 Advaxis, Inc. (NASDAQ: ADXS), a late-stage biotechnology company focused on the discovery, development and commercialization of immunotherapy products, reported the presentation of ADXS-HOT preclinical data in a poster discussion entitled "Targeting Shared Hotspot Cancer Mutations with a Listeria monocytogenes Immunotherapy Induce Potent Anti-Tumor Immunity" at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting underway in Chicago (Press release, Advaxis, APR 17, 2018, View Source [SID1234525430]). The discussion, held yesterday, was led by Daniel O. Villarreal, Ph.D., Principal Scientist at Advaxis. The ADXS-HOT franchise leverages the Company’s proprietary Lm Technology to target common mutations in tumor driver genes.

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This study’s objective was to identify and target common (public or shared) mutations (hotspots) and to determine if the ADXS-HOT platform could effectively target those hotspots and control tumor growth. Results indicate that ADXS-HOT could achieve this in preclinical models against single and multi-target constructs. The full abstract is available here: View Source
"The results of this preclinical work with ADXS-HOT represent an exciting opportunity that may allow us to develop disease-specific immunotherapies that have the potential to be effective against multiple targets, capable of generating high-avidity T cells against shared of public mutations, as well as multiple proprietary highly immunogenic cancer-testes and oncofetal antigens for multiple tumor types," said Robert G. Petit, Ph.D., Executive Vice President and Chief Scientific Officer of Advaxis. "Additionally, the results show increased functionality and resiliency in CD8 T cells upon restimulation, indicating the potential not only to increase the number and frequency of CD8 T cells, but to strengthen them."

About ADXS-HOT
ADXS-HOT leverages the Company’s proprietary Lm technology to target common "hotspot" mutations. ADXS-HOT products are designed to target acquired shared or "public" mutations in tumor driver genes along with cancer-testes and oncofetal tumor-associated antigens that are shared by multiple patients. Although ADXS-HOT has not been tested in patients, in theory, products would be designed to treat all patients with a particular type of cancer, without the need for pre-treatment testing, biopsy, DNA sequencing or diagnostic testing.

On April 17, 2018 Alpine Immune Sciences, Inc. (NASDAQ:ALPN), a leading immunotherapy company focused on developing treatments for cancer and autoimmune/inflammatory diseases, reported preclinical study results of its ALPN-202 immuno-oncology program (Press release, Alpine Immune Sciences, 17 17, 2018, View Source [SID1234525447]). ALPN-202 will be the second product candidate to come out of the company’s proprietary scientific platform following ALPN-101, which is projected for an IND filing in the fourth quarter of 2018.

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ALPN-202 is designed to antagonize PD-L1 and CTLA-4 while also providing CD28 costimulation. Recent literature suggests the lack of CD28 costimulatory signaling may be a principal reason why many tumors do not respond to PD-L1 or CTLA-4 blockade. ALPN-202’s ability to agonize the costimulatory receptor CD28 potentially improves the immune system’s response to cancer.

Alpine used its proprietary scientific platform to engineer Variant Ig Domains (vIgDs) based on CD80. Single vIgD proteins were created capable of binding PD-L1, CTLA-4, and CD28. These vIgDs were then fused to an Fc backbone and used in various in vitro and in vivo studies to characterize functional activity and assess anti-tumor activity in mice implanted with human PD-L1 transduced tumors. Results showed:

ALPN-202 eliminated tumors in most mice (73% or 8/11 tumor free) compared to durvalumab, an FDA-approved anti PD-L1 antibody (18% or 2/11 tumor free), and controls (0/11 tumor free).
Importantly, those mice tumor free after receiving ALPN-202 were re-challenged with tumor and 100% of them were resistant to the newly-implanted cells without receiving additional doses of therapy, suggesting the potential for ALPN-202 to induce anti-tumor memory.
ALPN-202 elicited CD28 costimulation only in the presence of PD-L1.
Scientific Support and Rationale for ALPN-202
PD-1/PD-L1 inhibitors likely are most effective only when sufficient T cell activating signals, such as via CD28 costimulation, are present. Indeed, recent research demonstrated CD28 costimulation appears to be required for PD-1 inhibition to rescue exhausted T cells in some settings (Science 355:1423, 2017), yet the CD28 ligands CD80 and/or CD86 are often poorly expressed in tumor microenvironments. Because it provides both checkpoint blockade and CD28 costimulation, the ALPN-202 program is therefore well positioned to potentially be a more potent and broadly applicable therapeutic.

"Previously published data suggest PD-1 blockade requires CD28 costimulation to work, at least in some cancers. The preclinical data we are presenting at AACR (Free AACR Whitepaper) indicate the ALPN-202 program proteins are capable of delivering both with a single molecule," said Stanford Peng, M.D., Ph.D., Executive Vice President of Research and Development and Chief Medical Officer of Alpine. "Additionally, these data demonstrate we can modulate three targets (PD-L1, CTLA-4, and CD28) with a single domain (in contrast to the need for multiple targeting domains for other therapeutic formats like bi- or tri-specific antibodies), demonstrating the potential promise of our versatile scientific platform."

"Our goal in oncology is to develop paradigm-shifting therapeutics that meaningfully improve upon existing therapies like PD-1/PD-L1 inhibitors," said Mitchell H. Gold, M.D., Executive Chairman and Chief Executive Officer of Alpine. "The preclinical data presented at AACR (Free AACR Whitepaper) show ALPN-202 antagonizes PD-1 and CTLA-4, and provides a CD28 costimulatory signal, resulting in a potent anti-tumor response. As we drive the ALPN-202 program towards the clinic in 2019, we believe we can create the next generation of immuno-oncology therapeutics with novel mechanisms of action using our proprietary scientific platform."

On April 17, 2018 Alligator Bioscience (Nasdaq Stockholm: ATORX), a biotechnology company developing antibody-based pharmaceuticals for tumor-directed immunotherapy, reported preclinical data on the immune activating antibody ATOR-1015 at the American Association of Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2018 taking place in Chicago, Illinois American Association of Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2018 taking place in Chicago, Illinois. ATOR-1015 is a first-in-class bispecific tumor-directed antibody, targeting CTLA-4 and OX40, designed to selectively activate the immune system in the tumor, without increasing systemic toxicity.

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The preclinical data demonstrate that ATOR-1015 physically localizes to the tumor and selectively activates the immune system in the tumor area, confirming the intended ATOR-1015 mechanism of action.

ATOR-1015 is primarily designed for combination therapy with a PD-1 blocking antibody, and the potential of this approach is supported with preclinical data reporting enhanced anti-tumor effect of ATOR-1015 in combination with an anti-PD-1 antibody, as compared to anti-PD-1 monotherapy. In addition, ATOR-1015 demonstrated superior efficacy compared to mono-targeting CTLA-4 and OX40 antibodies.

"The results presented in Chicago confirm that our CTLA-4 bispecific antibody ATOR-1015 selectively activates the immune system in the tumor area. This offers great potential for an improved benefit/risk profile for cancer patients. We are more and more excited about the significant prospects for this unique compound, particularly in combination with PD-1 blockers, and are looking forward to initiate clinical development later in the year", said Per Norlén CEO of Alligator Bioscience.

Alligator is planning to initiate an ATOR-1015 Phase I study during the second half of 2018.

A poster with the title "CTLA-4 x OX40 bispecific antibody ATOR-1015 induces anti-tumor effects through tumor-directed immune activation" is showcased today at 8-12 a.m. EDT and is also available on the company web page View Source

For further information, please contact:
Cecilia Hofvander, Director Investor Relations & Communications
Phone +46 46 286 44 95
E-mail: [email protected]

The information was submitted for publication, through the agency of the contact person set out above, at 3 p.m. CEST on 17 April 2018.

On April 17, 2018 Apexian Pharmaceuticals, a clinical-stage biotechnology company focused on developing safe and effective therapy for patients with high unmet medical needs, reported that it will present two key poster sessions at the upcoming American Association for Cancer Research (AACR) (Free AACR Whitepaper) Meeting, which will be held at McCormick Place in Chicago, Illinois from April 14 – 18, 2018 (Press release, Apexian Pharmaceuticals, APR 17, 2018, View Source [SID1234525431]). Dr. Mark Kelley, Apexian’s Chief Scientific Officer, along with the research team will available at the posters session. The company will present two posters on combination therapy of APX3330 in pancreatic cancer and APE1 signaling pathway.

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The titles and locations for these sessions are:
"Combination Therapy in PDAC Involving Blockade of the APE1/Ref-1 Signaling Pathway: An Investigation into Drug Synthetic Lethality and Anti-Neuropathy Therapeutic Approach"
Session Date and Time: Tuesday, April 17, 2018 from 1:00 – 5:00 PM
Location: McCormick Place South, Exhibit Hall A, Poster Section 37
"APE1/Ref-1 Redox Signaling Regulates HIF1a-mediated CA9 Expression in Hypoxic Pancreatic Cancer Cells: Combination Treatment in Patient-derived Pancreatic Tumor Models"
Session Date and Time: Monday, April 16, 2018 from 1:00 – 5:00 PM
Location: McCormick Place South, Exhibit Hall A, Poster Section 41
The poster sessions will add significant new information gathered on the effectiveness of Apexian’s lead clinical candidate, APX3330, and the ongoing research on the APE1/Ref-1 target.