On April 9, 2021 Repertoire Immune Medicines, a clinical-stage biotech company decoding the immune synapse to create novel immune therapies for cancer, immune disorders, infectious disease, and other serious diseases, reported the presentation of translational data obtained from applying its proprietary antigen-specific TCR-MHC DECODE platform in its Phase 1 trial evaluating PRIME IL-15 (RPTR-147) in patients with advanced or metastatic solid tumor cancers (Press release, Repertoire, APR 9, 2021, View Source;-PRIME-IL-15-RPTR-147—-in-Advanced-or-Metastatic-Solid-Tumor-Cancers [SID1234577805]). The data will be presented at the American Association of Cancer Research (AACR) (Free AACR Whitepaper) Virtual Meeting Week 1, taking place April 10-15, 2021. PRIME IL-15, the company’s lead investigational therapy, is a novel non-genetically modified, autologous, multiclonal T cell product derived from the patient’s T cell repertoire in the peripheral blood, activated against a curated set of tumor antigens, and armored with an IL-15Fc nanogel. It is being evaluated for a variety of solid tumors.

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In this study, Repertoire Immune Medicines’ applied its proprietary DNA-barcoded pMHC tetramer technology (CIPHERTM) to determine the specificity of its multiclonal T cell product. In addition, bulk sequencing of TCRVβ was performed on tumors pre- and post-treatment and identified product derived CD8+ T cell clonotypes in the post-, but not pre-treatment biopsies. The presentation also details the use of the company’s platform to de-orphan these tumor infiltrating lymphocytes (TIL) of interest, and clone selected TIL TCRs to determine their exact specificities by epitope and HLA.

These translational data demonstrate that rare T cell clones — derived from the peripheral blood — can be amplified and directed to tumor antigens in humans. Further, these findings highlight the unique capability of the company’s DECODE platform to fully decipher the immune synapse by identifying the T cell clones and their cognate antigens by HLA that matter in patients.

Details:

Abstract title: Tracking and Decoding the Antigen Specificity of Peripherally Derived T Cells that Infiltrate into Solid Tumors in patients treated with PRIME IL-15 (RPTR-147)
Session category: Adoptive Cell Therapy (PO.CL06.01)
Date & time: April 10, 2021 from 8:30 a.m. – 12:00 p.m. EDT

On April 9, 2021 Transgene (Paris:TNG) (Euronext Paris: TNG), a biotech company that designs and develops virus-based immunotherapeutics against cancer, reported initial promising results from a Phase I study combining intravenous (IV) oncolytic virus TG6002 and oral 5-FC in patients with advanced gastrointestinal carcinomas (Press release, Transgene, APR 9, 2021, View Source [SID1234621819]). These data provide a clinical proof of concept for Transgene’s double deleted VVcopTK-RR- patented virus backbone: after IV administration, TG6002 reached the tumor, multiplied within tumor cells, and induced the local expression of its payload (the FCU1 gene).

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These results will be presented at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) virtual meeting taking place from April 10-15, 2021.

DATA CONFIRM THAT THE CHEMOTHERAPY AGENT 5-FU IS PRODUCED IN PATIENTS’ TUMORS AFTER INTRAVENOUS ADMINISTRATION

TG6002 is a novel oncolytic virus that has been engineered to combine multiple mechanisms of action. It has been designed to:

selectively replicate within cancer cells. This is due to the deletion of the viral genes encoding TK and RR, which reduces the virus’s ability to grow in normal cells. This selective viral replication leads to the breakdown of the infected tumor cells in a process called oncolysis,
prime an immune response against the primary tumor and metastases,
and to induce the local expression of a biologically active enzyme able to convert 5-FC into its active cytotoxic metabolite 5-FU, directly in the tumor.
The data demonstrate that high concentration and continuous production of 5-FU chemotherapy can be obtained within the tumors through the local conversion of the pro-drug 5-FC (administered orally). This mechanism of action is based on the in-tumor expression of the proprietary FCU1 gene that has been integrated within the genome of TG6002.

In this study, extensive analyses are being performed including metastasis biopsy with synchronous blood sampling, assessment of virus presence, quantification of 5-FC and 5-FU and assessment of neutralizing antibody titers.

These analyses have allowed Transgene to document TG6002’s pharmacokinetics (PK) and biodistribution, and the functioning of the FCU1 gene when given by IV administration.

Detailed results:

✔ TG6002 infects tumors after intravenous administration, remains active and effectively express FCU1 gene selectively in tumor tissue;
✔ Absence of widespread virus distribution in the body and association of FCU1 activity with high virus concentration in tumor tissue suggest that the replication of TG6002 is concentrated in tumor cells;
✔ None of the patients presented clinical signs of extra-tumoral dissemination of the virus suggesting a high tumor specificity of the viral replication;
✔ The study is continuing with escalating dosing of TG6002.

CLINICAL PROOF OF CONCEPT OF THE FEASIBILITY OF THE IV ADMINISTRATION OF TRANSGENE’S PROPRIETARY ONCOLYTIC VIRUS

To-date, the only oncolytic virus that has received regulatory approval is only approved for intra-tumoral administration, restricting its use to superficial lesions.

Transgene aims to enlarge the number of solid tumors, such as gastro-intestinal tumors, that could be addressed by an oncolytic virus, by developing oncolytics that can be administered intravenously.

The findings that will be presented at AACR (Free AACR Whitepaper) demonstrate the relevance of intravenous administration of Transgene’s next generation oncolytic viruses including TG6002.

These data also suggest that candidates derived from Transgene’s unique Invir.IO platform could also be given intravenously, extending the use of these therapies to a broad range of solid tumors.

Title of the poster: "Oncolytic virus TG6002 locates to tumors after intravenous infusion and induces tumor-specific expression of a functional pro-drug activating enzyme in patients with advanced gastrointestinal carcinomas"
Authors: Kaidre Bendjama, Philippe Cassier, Victor Moreno, Bernard Doger, Emiliano Calvo, Maria De Miguel, Christiane Jungels, Philippe Erbs, Damien Carpentier, Alain Sadoun.
Abstract/Poster Number: LB179
Session: PO.IM02.11 – Vaccines
The e-poster presentation will be available on the AACR (Free AACR Whitepaper) website beginning at 8:30 am US EDT on Saturday, April 10, until Monday, June 21. The text of this abstract will be posted at 12:01 am US EDT on Friday, April 9 on the AACR (Free AACR Whitepaper) website.

About the trial (NCT03724071)
This trial is a single-arm open-label Phase I/II trial evaluating the safety and tolerability of multiple ascending doses of TG6002 administered intravenously in combination with oral 5-FC, a non-cytotoxic pro-drug that can be converted in 5-FU, its active metabolite. Based on the safety profile of TG6002, several dose levels have been added to the initial Phase I clinical protocol. At the end of this Phase I part, Phase II patients will receive the recommended dose of TG6002. The trial has safety as primary endpoint for the Phase I part and efficacy for the Phase II part. The trial also evaluates pharmacokinetic properties and biodistribution of TG6002, along with immune modulation of the tumor micro-environment. This European study will enroll up to 40 patients suffering from advanced gastrointestinal carcinomas who have failed and/or are intolerant to standard therapeutic options in the Phase I part. Patients with colon cancer and liver metastases will be enrolled in the Phase II part.

Dr. Philippe Cassier, M.D., PhD, head of the early-phase trials unit at Centre Léon Bérard (Lyon, France) is the principal investigator of the trial.

About TG6002
TG6002 has been engineered to directly kill cancer cells (oncolysis), to enable the production of a chemotherapy agent (5-FU) within the tumor, and to elicit an immune response by the body against the tumor cells. In preclinical experiments, TG6002 has been shown to induce the shrinkage of the primary tumor as well as the regression of distant metastases (Foloppe, et al., Molecular Therapy Oncolytics, View Source).

The production of 5-FU directly in the tumor aims to achieve a better anti-tumoral effect with limited chemotherapy-induced side effects.

TG6002 induces the production of 5-FU in the cancer cells it has infected, by enabling the local conversion of the pro-drug 5-FC (administered orally) into 5-FU. 5-FU is a common chemotherapy agent for patients with gastro-intestinal cancers. This mechanism of action is based on the in-tumor expression of the proprietary FCU1 gene that has been encoded in the genome of TG6002, taking advantage of the virus selective replication in the tumor cells.

When administered systemically, 5-FU is associated with side effects that can lead to treatment discontinuation. With TG6002, 5-FU is produced within the tumor where it is expected to be present at a high concentration level in contrast to the very low levels anticipated in the rest of the patient’s body.

On April 9, 2021 Iovance Biotherapeutics, Inc. (NASDAQ: IOVA), a late-stage biotechnology company developing novel T cell-based cancer immunotherapies, reported data from Cohort 2 in the C-144-01 study of lifileucel in advanced melanoma (Press release, Iovance Biotherapeutics, APR 9, 2021, View Source [SID1234577772]). These data will be part of an oral presentation in a Clinical Trials Plenary Session at the upcoming American Association for Cancer Research (AACR) (Free AACR Whitepaper) 2021 Annual Meeting.

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"We are very excited to report our latest Cohort 2 melanoma data in an oral presentation at AACR (Free AACR Whitepaper)," said Maria Fardis, Ph.D., President and Chief Executive Officer of Iovance Biotherapeutics. "The long term follow up data show that median duration of response was not reached at 28.1 months of median study follow up. Furthermore, overall response rate remained at 36.4 percent and we saw a continued deepening of response in 17 percent of the patients. The data continue to demonstrate durability and depth of our lifileucel TIL therapy response after a one-time treatment, in a difficult to treat patient population with advanced melanoma. We are honored that AACR (Free AACR Whitepaper) has chosen our melanoma Cohort 2 data to be featured in a clinical trials plenary session."

Jason Chesney, M.D., Ph.D., Director, James Graham Brown Cancer Center, University of Louisville and C-144-01 study investigator stated, "Melanoma patients who have progressed on immune checkpoint and BRAF/MEK inhibitors are among the most challenging patients for oncologists to treat. The updated results of the C-144-01 study continue to demonstrate that autologous tumor infiltrating lymphocytes (TILs; lifileucel) induce durable clinical responses in 36 percent of patients in the study. This study also creates opportunities for additional trials of TILs in many other cancer types and in combination with immunomodulatory agents."

The Cohort 2 data are available in the abstract titled, "Lifileucel (LN-144), a cryopreserved autologous tumor infiltrating lymphocyte (TIL) therapy in patients with advanced (unresectable or metastatic) melanoma: durable duration of response at 28-month follow up." Data highlights as of the December 14, 2020 data cut extract used for the abstract submitted to AACR (Free AACR Whitepaper) were as follows:

Lifileucel showed a 36.4% overall response rate (4.5% complete responses and 31.8% partial responses) and median duration of response (DOR) was not reached at 28.1 months of median study follow up as assessed by investigators (n=66).
The Cohort 2 patients had heavily pretreated metastatic melanoma with high baseline disease burden. They have progressed on multiple prior therapies (3.3 mean prior therapies), including anti-PD1 and BRAF/MEK inhibitors if BRAFV600 mutation positive.
The adverse event profile was consistent with the underlying advanced disease, lymphodepletion and IL-2 regimens, with no additional adverse events emerging over time.
The abstract is available in the AACR (Free AACR Whitepaper) Online Meeting Planner at www.aacr.org and on the Iovance website at www.iovance.com/our-science/publications. The data from the abstract will be highlighted in additional detail at the AACR (Free AACR Whitepaper) 2021 Annual Meeting. Details of the oral presentation are as follows:

Abstract Title: Lifileucel (LN-144), a cryopreserved autologous tumor infiltrating lymphocyte (TIL) therapy in patients with advanced (unresectable or metastatic) melanoma: durable duration of response at 28-month follow up
Authors: Jason Alan Chesney, MD, PhD, et al.
Abstract Number: 5329
Presentation Number: CT008
Session Title: Immunooncology and Cell Therapy Trials
Session Date and Time: Saturday, April 10, 2021, 4:45 PM – 5:00 PM ET
Location: AACR (Free AACR Whitepaper) Virtual Annual Meeting 2021 at www.aacr.org
In addition to the oral presentation, three Iovance poster presentations at AACR (Free AACR Whitepaper) will highlight the design of clinical trials in progress in solid tumors and chronic lymphocytic leukemia or small lymphocytic lymphoma (CLL/SLL). These posters are intended to educate physicians about study design and will not include clinical data. Posters will be available from 8:30 a.m. ET on Saturday, April 10 through Monday, June 21, 2021 in the Virtual ePoster Hall at www.aacr.org and on the Iovance website at www.iovance.com/our-science/publications.

Abstract Title: A Phase 2, multicenter study of autologous tumor infiltrating lymphocytes (TIL) (LN-144/LN-145/LN-145-S1) in patients with solid tumors (IOV-COM-202)
Authors: Scott Gettinger, MD, et al.
Abstract Number: CT235
Abstract Title: A Phase 1/2 study evaluating the safety and efficacy of IOV-2001 in patients with relapsed or refractory chronic lymphocytic leukemia (CLL) or small lymphocytic lymphoma (SLL) (IOV-CLL-01)
Authors: Meixiao Long, MD, PhD, et al.
Abstract Number: CT244
Abstract Title: A phase 2 multicenter study of autologous tumor infiltrating lymphocytes (TIL; LN-145) cell therapy in patients with metastatic non-small cell lung cancer (IOV-LUN-202)
Authors: Erminia Massarelli, MD, PhD, et al.
Abstract Number: CT246

On April 9, 2021 Mersana Therapeutics, Inc. (NASDAQ:MRSN), a clinical-stage biopharmaceutical company focused on discovering and developing a pipeline of antibody-drug conjugates (ADCs) targeting cancers in areas of high unmet medical need, reported the initiation of patient dosing in UPLIFT, a single-arm registration strategy to evaluate the safety and efficacy of upifitamab rilsodotin (UpRi, XMT-1536) in patients with platinum-resistant ovarian cancer who have received up to four lines of therapy (Press release, Mersana Therapeutics, APR 9, 2021, View Source [SID1234577790]).

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"UpRi has demonstrated clinically meaningful activity, a biomarker-response relationship and a differentiated tolerability profile without severe neutropenia, peripheral neuropathy or ocular toxicity in heavily pretreated ovarian cancer patients who have limited options and poor prognosis. The UPLIFT strategy is critical to bringing this promising agent to patients waiting for new therapies," said Anna Protopapas, President and Chief Executive Officer of Mersana Therapeutics.

UPLIFT will evaluate the safety and efficacy of UpRi in patients with platinum-resistant ovarian cancer who have received up to four lines of therapy. Consistent with the bevacizumab label, patients previously treated with three or four lines of therapy may enroll without regard to prior bevacizumab treatment. There is no exclusion for patients with baseline peripheral neuropathy. Patients may enroll without regard to NaPi2b expression; however, the role of the biomarker will be evaluated. The primary endpoint will be the objective response rate (ORR) in the high NaPi2b population and the secondary endpoints will be the ORR regardless of NaPi2b expression, as well as duration of response and safety.

"We believe this study design, which is an amendment to the ongoing Phase 1 expansion study, allows for significant operational efficiencies and leverages our current momentum in patient enrollment. The study design also allows us the opportunity to fully evaluate the role of the biomarker with endpoints in both the high NaPi2b and overall populations. We are excited to open this cohort to this heavily pretreated patient population with few options," said Arvin Yang, M.D., Ph.D., Senior Vice President and Chief Medical Officer of Mersana Therapeutics.

The single-arm registration strategy is an amendment to the ongoing multinational, multi-center, open label study protocol, and the Company expects to enroll approximately 100 patients with high NaPi2b expression and up to 180 patients overall.

On April 9, 2021 Nammi Therapeutics, Inc. (Nammi), an LA-based immunotherapy company, reported its first two cancer drug candidates, one from each of Nammi’s distinctive drug development platforms, Nammisomes and Masked ImmunoCytokines (MIC) (Press release, Nammi Therapeutics, APR 9, 2021, View Source [SID1234577806]). Nammi is presenting the lead products for each platform in two posters at the 2021 annual American Association for Cancer Research (AACR) (Free AACR Whitepaper) Conference. The posters will be available on the conference website April 10-June 21, 2021. The therapies being presented are selected products initiating GMP manufacturing and IND-enabling studies. Both of Nammi’s platforms embody our 3 core principles:

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The redundancy of immune regulatory pathways requires synergistic combinations for robust and broad efficacy of immuno-therapies in cancer;
Potent immune stimulators must be dampened while in circulation to avoid systemic toxicities; and
Optimal therapies will employ mechanisms to selectively deliver and activate immune cells within tumors to focus on killing the tumor rather than healthy tissue.
Nammi’s Nammisome platform combines immune modulating prodrugs into lipid nanoparticles enabling selective delivery to tumors. A second immunotherapy platform called Masked ImmunoCytokines (MICs) was acquired by a recent merger with Qwixel Therapeutics. MICs employ interferons, that have both direct anti-tumor cytotoxic activity as well as broad immune stimulating activity, and focus the potent effects by fusion to an anti-tumor targeting antibody and masking of the interferon so that it is only activated in the tumor microenvironment

QXL138AM: Poster #1726 highlights preclinical validation of our first in class MIC comprised of a CD138-targeted antibody fused with Interferon alpha (IFNα) that is masked with a tumor-selectively releasable peptide. CD138 is expressed in multiple myeloma as well as many different solid tumor indications including breast, colon, hepatic, ovarian, urothelial, and head and neck cancers.

NTI-55: Poster #1581 highlights preclinical validation of NTI-55, a novel combination of validated immune modulator lipid prodrugs, including a TLR7 agonist and an A2AR inhibitor, that stimulates an immune response and blocks an important tumor-derived immune checkpoint. These are broad based mechanisms that provide potential for NTI-55 in all solid tumor indications. These lipid prodrugs are assembled into lipid nanoparticles called Nammisomes that reduce systemic exposure to the immunotherapies while synchronizing delivery to, and activation at, the tumor sites.

"While strikingly distinct in design, the two approaches elegantly exemplify the vision of Nammi to develop immunotherapies that focus the immune system on anti-tumor activity while sparing patients from toxicities associated with systemic immune activation. We also believe there is a strong potential for synergy in combining the drugs to triangulate their immune activation for even more robust efficacy", said David Stover, Ph.D., President and CEO of Nammi.

Nammi has raised over $10M to date from Founders and Angel investors to drive preclinical development of both platforms. Nammi foresees filing INDs for both lead programs in mid-2022. Additional pipeline products, stemming from both the Nammisome and the MIC platforms, are in lead selection stage.