On December 13, 2021 Legend Biotech Corporation (NASDAQ: LEGN) (Legend Biotech), a global, clinical-stage biotechnology company developing and manufacturing novel therapies, reported that new and updated results from the CARTITUDE clinical development program studying ciltacabtagene autoleucel (cilta-cel) in the treatment of multiple myeloma, which were presented at the 63rd American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting and Exposition (Press release, Legend Biotech, DEC 13, 2021, View Source [SID1234596969]). Cilta-cel is an investigational B-cell maturation antigen (BCMA)-directed chimeric antigen receptor T cell (CAR-T) therapy being studied as a one-time treatment for multiple myeloma.

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CARTITUDE-1 Data Continues to Support the Potential of Cilta-cel

In an oral presentation (Abstract #549), longer-term results from the Phase 1b/2 CARTITUDE-1 study in 97 patients with relapsed or refractory multiple myeloma (RRMM) continued to show a very high overall response rate (ORR) of 98 percent. After 21.7 months of follow-up, 83 percent of patients treated with cilta-cel achieved a stringent complete response (sCR)—higher than the 67 percent sCR rate reported at a median of ~1 year of follow up.1 Further, 95 percent of patients achieved a very good partial response (VGPR) or better. Median progression-free survival (PFS) and median overall survival (OS) have not been reached, but the 2-year PFS rate was 61 percent (95 percent Confidence Interval [CI], 48.5–70.4) and the 2-year OS rate was 74 percent (95 percent CI, 61.9–82.7). Of the 61 patients evaluable for minimal residual disease (MRD), 92 percent were MRD-negative at the 10-5 cutoff threshold. The two-year PFS rates in patients with sustained MRD negativity for ≥6 and ≥12 months were 91 percent (95 percent CI, 67.1–97.8) and 100 percent, respectively.

The median time to first response was one month (range, 0.9-10.7); the median time to best response was 2.6 months (range, 0.9-17.8); and the median time to complete response or better was 2.9 months (range, 0.9-17.8).1 The longer-term data showed no new safety signals and there were no new events of cilta-cel-related neurotoxicity or movement and neurocognitive treatment emergent adverse events (TEAEs) (MNT) reported since the median ~1 year follow-up. Implementation of MNT mitigation measures has decreased the incidence rate to 0.5 percent in the CARTITUDE clinical development program.

In the 18-month follow-up data previously presented at ASCO (Free ASCO Whitepaper) 2021, the most common hematologic adverse events (AEs) observed were neutropenia (96 percent); anemia (81 percent); thrombocytopenia (79 percent); leukopenia (62 percent); and lymphopenia (53 percent).2 At 18 months, cytokine release syndrome (CRS) of any grade was observed in 95 percent of patients with a median duration of four days (range, 1-97), and median time to onset of seven days (range, 1-12). Of the 92 patients with CRS, 95 percent experienced Grade 1/2 events and CRS resolved in 91 patients (99 percent) within 14 days of onset. Neurotoxicity of any grade was observed in 21 percent (n=20) of patients, with Grade 3 or higher neurotoxicity observed in 10 percent (n=10) of patients.

"Patients with heavily pre-treated multiple myeloma often have exhausted available treatment options and face poor prognoses. The updated results from the CARTITUDE-1 trial continue to suggest that cilta-cel may provide this patient population with lasting deep and durable responses," said Thomas Martin, M.D., director of clinical research, clinical professor of medicine, Adult Leukemia and Bone Marrow Transplantation Program, interim Division Chief, co-director, Myeloma Program and co-leader, Hematopoietic Malignancies Program, at UCSF Helen Diller Family Comprehensive Cancer Center, and principal study investigator. "As a one-time infusion that shows potential to improve long-term survival and offer patients a break in ongoing treatments, cilta-cel may offer hope to patients, caregivers and physicians."

In a subgroup analysis of CARTITUDE-1 (Abstract #3938), responses to cilta-cel were durable up to 2 years in most subgroups of patients with heavily pretreated RRMM.3 An ORR range of 95 to 100 percent was observed in patients across all subgroups, including those with high-risk cytogenetics, International Staging System (ISS) stage III, baseline bone marrow cells ≥60 percent, and presence of baseline plasmacytomas. In patients with ISS stage III, high risk cytogenetics and with baseline plasmacytomas, median duration of response, 2-year PFS and OS appeared lower. The cilta-cel safety profile across the subgroups was consistent with the overall population, with no new safety signals.

Additionally, an adjusted indirect comparison of CARTITUDE-1 patient outcomes relative to standard-of-care therapies in real-world clinical practice (RWCP) was also featured in an oral presentation (Abstract #550).4 The adjusted comparisons versus CARTITUDE-1 demonstrate a significantly improved ORR, complete response or better (≥CR), VGPR or better (≥VGPR), PFS and OS for the patients receiving cilta-cel compared to a diverse set of RWCP. Although patients treated with cilta-cel experienced more adverse events (AEs), including Grade 3/4 events, as compared to RWCP, overall safety profile was manageable.

CARTITUDE-2 Data Explores Use of Cilta-cel in Earlier-Line MM Settings

The Phase 2 multicohort CARTITUDE-2 study is evaluating cilta-cel safety and efficacy in various clinical settings for patients with multiple myeloma. Updated data from Cohort A of the study examined the efficacy and safety of cilta-cel in 20 patients with progressive multiple myeloma after 1-3 prior lines of therapy and who are lenalidomide-refractory (Abstract #3866).5 At a longer median follow-up of 14.3 months, patients experienced early and deep responses with a manageable safety profile consistent with the CARTITUDE-1 study. ORR was 95 percent, which included 85 percent of patients achieving CR or better and 90 percent achieving VGPR or better. The median time to first response was one month (range, 0.7-3.3) and the median time to best response was 2.6 months (range, 0.9-7.9). The 6-month and 12-month PFS rates were 95 percent (95 percent CI, 69.5-99.3) and 84 percent (95 percent CI, 59.1-94.7), respectively. Of the 13 patients with MRD evaluable samples at the 10-5 cutoff threshold, 92 percent (95 percent CI, 64.0-99.8) were MRD negative.

The first data from Cohort B was also presented at ASH (Free ASH Whitepaper) 2021 (Abstract #2910).6 Cohort B included 19 patients who were in early relapse after initial therapy that included a proteasome inhibitor (PI) and immunomodulatory drug (IMiD). Data showed early and deep responses with a manageable safety profile. At a median follow-up of 10.6 months, ORR was 95 percent, which included 79 percent of patients achieving CR or better and 90 percent of patients achieving VGPR or better. The median time to first response was one month (range, 0.9-2.6) and the median time to best response was 2.5 months (range, 0.9-11.8). The 6-month and 12-month PFS rates were 90 percent (95 percent CI, 64.1-97.3) and 84 percent (95 percent CI, 57.9-94.5), respectively. Of the 13 patients with MRD evaluable samples at the 10-5 cutoff threshold, 92 percent (95 percent CI, 64.0-99.8) were MRD-negative.

The safety profile seen in CARTITUDE-2 Cohorts A and B were consistent with data previously reported from CARTITUDE-1. CRS occurred in 95 percent of patients in Cohort A and 84 percent of patients in Cohort B, which were mostly grades 1/2 with median time to onset of 7-8 days and median duration of ~4 days.

"The new and updated longer-term data for CARTITUDE-1 and Cohorts A and B of CARTITUDE-2 shows that responses continue to be deep and durable over time and illustrate the potential of cilta-cel to provide a new treatment option for those patients that need it the most," said Ying Huang, PhD, CEO and CFO of Legend Biotech. "We are excited to continue to present these strong efficacy and safety results as we work toward the first regulatory approval for cilta-cel and from our robust cell therapy pipeline."

About CARTITUDE-1

CARTITUDE-1 (NCT03548207) is a Phase 1b/2, open-label, multicenter study evaluating the safety and efficacy of cilta-cel in adults with relapsed and/or refractory with multiple myeloma who have received at least 3 prior lines of therapy or are double refractory to a proteasome inhibitor (PI) and immunomodulatory drug (IMiD), received a PI, an IMiD, and anti-CD38 antibody and documented disease progression within 12 months of starting the most recent therapy. The primary objective of the Phase 1b portion of the study was to characterize the safety and confirm the recommended Phase 2 dose of cilta-cel, informed by the first-in-human study with LCAR-B38M CAR-T cells (LEGEND-2). The Phase 2 portion further evaluated the efficacy of cilta-cel with overall response rate as the primary endpoint.

About CARTITUDE-2

CARTITUDE-2 (NCT04133636) is an ongoing Phase 2 multicohort study evaluating the safety and efficacy of cilta-cel in various clinical settings. Cohort A included patients who had progressive multiple myeloma after 1–3 prior lines of therapy, including PI and IMiD, were lenalidomide refractory, and had no prior exposure to BCMA-targeting agents. Cohort B included patients with early relapse after initial therapy that included a PI and IMiD. The primary objective was percentage of patients with negative minimal residual disease (MRD).

About LocoMMotion

LocoMMotion (NCT04035226) is a prospective non-interventional study evaluating the safety and efficacy of real-life standard-of-care treatments under routine clinical practice over a 24-month period in patients with RRMM. This study aims to understand the effectiveness of current standards of care in heavily pretreated patients with RRMM (reflecting real-world practice in the patient population progressing after PIs, IMiDs and anti-CD38 antibodies).

About Multiple Myeloma

Multiple myeloma is an incurable blood cancer that starts in the bone marrow and is characterized by an excessive proliferation of plasma cells.7 Although treatment may result in remission, unfortunately, patients will most likely relapse.8 Relapsed myeloma is when the disease has returned after a period of initial, partial or complete remission and does not meet the definition of being refractory.9 Refractory multiple myeloma is when a patient’s disease is non-responsive or progresses within 60 days of their last therapy.10,11 While some patients with multiple myeloma have no symptoms at all, most patients are diagnosed due to symptoms that can include bone problems, low blood counts, calcium elevation, kidney problems or infections.12 Patients who relapse after treatment with standard therapies, including protease inhibitors and immunomodulatory agents, have poor prognoses and few treatment options available.13

About Cilta-cel

Cilta-cel is an investigational chimeric antigen receptor T cell (CAR-T) therapy, formerly identified as JNJ-4528 in the United States and Europe and LCAR-B38M CAR-T cells in China, that is being studied in a comprehensive clinical development program for the treatment of patients with relapsed or refractory multiple myeloma and in earlier lines of treatment. The design consists of a structurally differentiated CAR-T with two BCMA-targeting single domain antibodies. In December 2017, Legend Biotech, Inc. entered into an exclusive worldwide license and collaboration agreement with Janssen Biotech, Inc. (Janssen) to develop and commercialize cilta-cel. In addition to a Breakthrough Therapy Designation (BTD) granted in the United States in December 2019, cilta-cel received a Priority Medicines (PRiME) designation from the European Commission in April 2019, and a BTD in China in August 2020. In addition, Orphan Drug Designation was granted for cilta-cel by the U.S. Food and Drug Administration (FDA) in February 2019, and by the European Commission in February 2020. A Biologics License Application seeking approval of cilta-cel was submitted to the U.S. FDA and a Marketing Authorization Application was submitted to the European Medicines Agency.

On December 13, 2021 Boston Immune Technologies and Therapeutics, Inc. (BITT), a privately held developer of novel tumor necrosis factor (TNF) Superfamily antagonist antibodies, reported that the company has received a Small Business Innovation Research (SBIR) grant from the National Cancer Institute at the U.S. National Institutes of Health (Press release, BITT, DEC 13, 2021, View Source [SID1234596968]). The award is for a project titled "Preclinical Toxicology and Pharmacology Evaluation of a New TNFR2 Antagonistic Monoclonal Antibody for Cutaneous T Cell Lymphoma (CTCL) Therapy." The company also announced that Bruce Beutel, Ph.D., has joined BITT’s Board of Directors.

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"The SBIR funding will be used to complete the IND-enabling steps and initiate clinical trials of our anti-TNFR2 antibody, BIR2101," said Russell LaMontagne, Co-Founder and Chief Executive Officer of BITT. "We appreciate the recognition of our unique approach to TNFR2 antagonism and the importance of TNFR2 as novel target in cancer immunotherapy."

Dr. Beutel has over 25 years of leadership experience in drug discovery and business development. Before joining BITT, he was founding chief operating officer of Dewpoint and entrepreneur in residence at the LS Polaris Innovation Fund. His prior roles have also included chief business officer at SQZ Biotechnologies and executive director at Merck.

On December 13, 2021 Catamaran Bio, Inc., a biotechnology company developing off-the-shelf chimeric antigen receptor (CAR)-NK cell therapies to treat cancer, reported preclinical data that demonstrate key capabilities of its TAILWINDTM platform being applied to develop CAT-248, an allogeneic CD70-targeted CAR-NK cell therapy (Press release, Catamaran Bio, DEC 13, 2021, View Source [SID1234596967]). The data demonstrate successful engineering of a CD70 CAR-NK cell therapy that achieves cytotoxicity in vitro against various tumor cell lines. Using the integrated engineering and manufacturing capabilities of the TAILWIND platform, the data also show highly efficient non-viral delivery of a CAR targeting CD70 and knock out of endogenous CD70 in a single engineering step.

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The data support advancement of CAT-248, Catamaran’s co-lead CAR-NK cell therapy candidate, which is directed against CD70, a tumor antigen that is highly expressed on certain types of cancers including renal cell carcinoma, glioma, pancreatic cancer, and acute myeloid leukemia. The results were presented at the 63rd Annual Meeting of the American Society of Hematology (ASH) (Free ASH Whitepaper) being held in Atlanta from December 11-14, 2021.

"CD70 is a compelling target in several high unmet need solid tumors and hematologic malignancies and we are excited to support the advancement of CAT-248 as an effective therapy for CD70 expressing cancers," said Alvin Shih, MD, MBA, Chief Executive Officer of Catamaran Bio. "These data further establish our TAILWIND platform as an industry-leading, highly versatile and scalable manufacturing platform for CAR-NK cell therapies, including complex products with multiple genome modifications."

"Our ASH (Free ASH Whitepaper) data demonstrate cutting-edge capabilities that are essential for both tumor-targeting design as well as scalable manufacturing of CAR-NK cell therapies," said Vipin Suri, PhD, MBA, Chief Scientific Officer of Catamaran Bio. "Notably, we have now demonstrated a novel single-step engineering approach for simultaneously using a non-viral transposon system for CAR delivery in combination with CRISPR editing for gene knockout. Using our TAILWIND platform, we effectively integrate all the necessary properties to position our CAR-NK cells as allogeneic, off-the-shelf therapies for multiple cancers, especially solid tumors."

Data presented in a poster titled, "Engineering CD70-Directed CAR-NK Cells for the Treatment of Hematological and Solid Malignancies," describe experiments showing key capabilities of the TAILWINDTM platform and characterization of the CD70-targeted CAR-NK cells. Highlights from the poster include:

CD70 was expressed across hematological and solid tumor malignancies but upregulated in activated peripheral blood NK cells.
Single-step, non-viral CAR delivery using the TcBusterTM Transposon System and CRISPR/Cas9 editing of NK cells resulted in more than 70% integration/expression of CD70 CAR and more than 80% knockout of endogenous CD70.
Activation of peripheral blood NK cells strongly upregulated CD70 expression, resulting in fratricide upon expression of CD70 directed CAR in these cells.
Knockout of endogenous CD70 enabled effective expansion of CD70 CAR-NK cells while maintaining innate cytotoxicity.
CAR-NK cells engineered with CD70 CAR and CRISPR/Cas9 knockout of endogenous CD70 were active against multiple CD70‑positive tumor lines.
The studies presented at ASH (Free ASH Whitepaper) are co-authored by Catamaran and its collaborators at the University of Minnesota. The poster presentation is available on Catamaran’s website.

On December 13, 2021 Zetagen Therapeutics, Inc., a private, clinical-stage, biopharmaceutical company dedicated to driving breakthrough innovation in the treatment of metastatic bone cancers and osteologic interventions, reported it has received a two year, $2 million USD grant from the National Cancer Institute of the National Institutes of Health (NIH) (Press release, Zetagen Therapeutics, DEC 13, 2021, View Source [SID1234596966]). The grant will be used for the Phase 2 clinical and commercial development of its ZetaMet technology. ZetaMet is a synthetic, small-molecule, inductive biologic technology being developed to target and resolve metastatic bone lesions while inhibiting future tumor growth and regenerating bone.

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"This support from the NCI marks a key milestone and will facilitate the continued development of ZetaMet for the use in treating metastasis in bone," said Bryan S. Margulies, PhD,chief scientific officer of Zetagen Therapeutics. "Preclinical trials have successfully demonstrated ZetaMet’s ability to resolve existing metastatic bone lesions, inhibit pain and stimulate targeted bone regeneration. If these results hold true in the next phase of study, ZetaMet could offer an entirely new treatment for patients living with certain late-stage cancers where present therapies do not offer desired results."

ZetaMet works through a mechanism of action (MOA) which is a novel and patented molecular pathway. The small molecule, precisely-dosed, delivered to the affected area through a proprietary drug-eluting carrier, stimulates stem cells, activating cells to grow healthy bone known as "osteoblasts", and inhibits cells associated with bone degradation called "osteoclasts".

Bone metastases are common among cancer patients and occur when cells from the primary cancerous tumor relocate to the bone. When these cancers relocate, they can cause changes to the bone, damaging it in a process called osteolysis. Osteolysis can cause small holes within the bone, weakening it and increasing the risk of breakage. These holes are called "lytic lesions." Among cancers which metastasize to bone, Breast and Prostate are most prevalent, amounting to approximately 70-percent of cases.1

"We know there are hundreds of thousands of patients living with late-stage cancers which involve painful, debilitating metastatic bone lesions," said Joe C. Loy, CEO of Zetagen Therapeutics. "This recognition from the NCI further reinforces our commitment to developing breakthrough therapies that will make a tangible difference in quality of life as they battle these devastating diseases."

Earlier this year, ZetaMet received Breakthrough Device designation from the Centers for Devices and Radiological Health (CDRH) of the U.S. Food and Drug Administration (FDA). The first human clinical trial using ZetaMet in Stage 4 breast cancer patients is being targeted for early 2022.

On December 13, 2021 Affimed N.V. (Nasdaq: AFMD), a clinical-stage immuno-oncology company committed to giving patients back their innate ability to fight cancer, reported that preclinical data from two of their Innate Cell Engager (ICE) programs at the 63rd American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting (ASH) (Free ASH Whitepaper) (Press release, Affimed, DEC 13, 2021, View Source [SID1234596964]). The poster presentations included preclinical proof-of-concept data on AFM28, for which Affimed recently revealed the target and indication. The program is in development for the treatment of Acute Myeloid Leukemia and other CD123+ hematologic malignancies. The second poster presentation provided data on the activity of AFM13 pre-complexed to NK cells after cryopreservation, demonstrating the potential to develop AFM13 as an off-the-shelf chimeric antigen receptor (CAR)-like NK cell product.

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Preclinical characterization of the ICE AFM28

The novel ICE AFM28 is designed to target CD16A on innate immune cells and CD123 on tumor cells in relapsed or refractory acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS). CD123 is almost universally expressed on leukemic blasts and leukemic stem cells (LSCs) and thereby represents a promising target in both indications.

The results revealed that target cell lysis via NK cell-mediated antibody-dependent cell-mediated cytotoxicity (ADCC), even at low CD123 expression, was more pronounced compared to conventional anti-CD123 antibodies. In addition, AFM28 showed a 100-fold more potent NK cell activation in an ex vivo analysis, compared to Fc-enhanced IgG1 antibodies. When compared with a CD123-targeting T cell-engaging bispecific antibody, AFM28 activity was associated with substantially lower levels of inflammatory cytokine release suggesting low risk of cytokine release syndrome. In support of these findings, administration of AFM28 to cynomolgus monkeys induced the effective depletion of CD123+ target cells and was well tolerated.

AFM28 is currently being prepared for clinical evaluation. The properties of the preclinical characterization make it an interesting candidate for combination approaches with allogeneic NK cell products.

"There is an urgent need for relapsed or refractory AML and MDS patients and targeting the innate immune system – either alone or in combination with adoptive NK cells – holds promise for these patients," said Dr. Arndt Schottelius, CSO of Affimed. "Our data suggests that AFM28 engages NK cells to lyse CD123-positive leukemic blasts and leukemic stem cells. This is a critical step in achieving long-lasting remissions."

Cryopreservation of NK cells pre-complexed with innate cell engagers (CAR-like NK cells)

Pre-complexing NK cells with the ICE AFM13 generates chimeric antigen receptor (CAR)-like NK cells. Our preclinical assays demonstrate that anti-tumor efficacy of AFM13 pre-complexed NK cells was comparable to NK cells that were combined, though not pre-complexed with AFM13. Furthermore, the data showed that tumor cell lysis was enhanced compared to a Fc-enhanced antibody approach.

Retaining biological activity and specificity after cryopreservation is a prerequisite to enable the development of pre-complexed off-the-shelf CAR-like NK cell products. Our results confirmed that the efficacy of tumor cell lysis by AFM13-pre-complexed NK cells, was virtually unaffected after one cycle of cryopreservation at -80°C.

"The data are the basis to develop an off-the-shelf precomplexed NK cell product of our ICE molecules and mark an important milestone," said Dr. Arndt Schottelius, CSO of Affimed. "This is especially encouraging as we recently announced very promising data of the Phase 1-2 study at The University of Texas MD Anderson Cancer Center that evaluates AFM13 pre-complexed with NK cells in patients with CD30-positive lymphomas revealing a 100% objective response rate in 13 patients who received the recommended phase 2 dose."

The poster will additionally be featured on December 15 at 5:00 pm ET in the virtual poster walk on Natural Killer Cell-Based Immunotherapy which can be accessed via the following link: View Source

The full posters are available on Affimed’s website under "Publications & Posters". For more details about the ASH (Free ASH Whitepaper) Virtual Annual Meeting please visit: View Source

About AFM28

AFM28, a tetravalent, bispecific CD123- and CD16A-binding ICE developed on Affimed’s ROCK platform, is designed to bring a new immunotherapeutic approach to patients with CD123+ myeloid malignancies, including acute myeloid leukemia and myelodysplastic syndrome (MDS). It engages NK cells to initiate tumor cell killing via antibody-dependent cellular cytotoxicity (ADCC), even at low CD123 expression levels. Clinical development is planned as both monotherapy and in combination with allogeneic NK cells in patients with relapsed/refractory CD123+ leukemias.

About AFM13

AFM13 is a first-in-class ICE that uniquely activates the innate immune system to destroy CD30-positive hematologic tumors. AFM13 induces specific and selective killing of CD30-positive tumor cells, leveraging the power of the innate immune system by engaging and activating NK cells and macrophages. AFM13 is Affimed’s most advanced ICE clinical program and is currently being evaluated as a monotherapy in a registration-directed trial in patients with relapsed/refractory peripheral T-cell lymphoma or transformed mycosis fungoides (REDIRECT). The study is actively recruiting, and additional details can be found at www.clinicaltrials.gov (NCT04101331).

In addition, The University of Texas MD Anderson Cancer Center is studying AFM13 in an investigator-sponsored phase 1 trial in combination with cord blood-derived allogeneic NK cells in patients with relapsed/refractory CD30-positive lymphomas (NCT04074746).