On May 3, 2022 Ipsen (Euronext: IPN; ADR: IPSEY) reported that the European Commission (EC) has approved the use of Cabometyx (cabozantinib) as a monotherapy for the treatment of adult patients with locally advanced or metastatic differentiated thyroid carcinoma (DTC), refractory or not eligible to radioactive iodine who have progressed during or after prior systemic therapy (Press release, Ipsen, MAY 3, 2022, View Source [SID1234613329]). This approval is the first of its kind in Europe for this uncommon condition, with limited treatment options currently available should patients progress after prior use of systemic therapy.

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Jaume Capdevila, M.D. PhD, Medical Oncologist at the Vall d´Hebron University Hospital and Vall d’Hebron Institute of Oncology (VHIO), Barcelona, and a trial investigator, said, "The nature of radioiodine-refractory differentiated thyroid cancer means that this condition does not respond to the most commonly used standard of care for differentiated thyroid cancer. As a result, people living with this form of the disease have had limited treatment options should their disease progress. I am pleased to see the entrance of a new innovative treatment in Cabometyx, following limited progress for patients in this area for such a significant amount of time and I look forward to sharing more positive conversations with my patients on the number of options available to them."

The EC approval was based on results from the pivotal COSMIC-311 Phase III trial, which at a planned interim analysis, confirmed that the trial had met the primary endpoint of progression free survival (PFS), demonstrating a significant reduction in the risk of disease progression or death by 78% versus placebo (hazard ratio [HR]: 0.22; 96% confidence interval [CI]: 0.13-0.36; P<0.0001) at a median follow-up of 6.2 months.1 The other primary endpoint, the objective response rate, also favored Cabometyx with 15% vs. 0% for placebo (p=0.028) at a median follow-up of 8.9 months, but did not meet the criteria for statistical significance.1 Given the efficacy and safety demonstrated within this analysis, the independent data monitoring committee recommended to stop enrolment and unblind sites and patients. The final results, at a median follow-up of 10.1 months, were then presented at the European Society for Medical Oncology (ESMO) (Free ESMO Whitepaper) Virtual Congress 2021, whereby Cabometyx continued to demonstrate superior median PFS of 11.0 months versus 1.9 months with placebo and a maintained reduction in the risk of disease progression or death of 78% versus placebo ([HR]: 0.22, 96% [CI]: 0.15-0.32; p<0.0001). These new analyses also demonstrated that superior efficacy was maintained with Cabometyx irrespective of previous vascular endothelial growth factor receptor (VEGFR)-targeted therapy, supporting flexible sequencing decisions for physicians. The safety profile identified in the COSMIC-311 trial across the two analyses was consistent with that previously observed for Cabometyx and adverse events were managed with dose modifications.1,2

Steven Hildemann, M.D. PhD, Executive Vice President, Chief Medical Officer, Head of Global Medical Affairs and Global Patient Safety at Ipsen, said, "Confirmation of the approval of Cabometyx for this difficult-to-treat cancer is welcome news for patients and treating physicians. We are delighted that the European Commission has recognized the strength of the COSMIC-311 data and the possibilities that Cabometyx can deliver for people living with radioactive-iodine-refractory differentiated thyroid cancer. We are committed to researching areas of oncology with high unmet medical needs and this decision exemplifies our ambition to bring meaningful new treatments that have the potential to make tangible differences to people’s lives."

This EC approval follows the U.S. Food and Drug Administration approval announced by Exelixis in September 2021 of Cabometyx for the treatment of adult and pediatric patients 12 years of age and older with locally advanced or metastatic DTC that has progressed following prior vascular endothelial growth factor receptor targeted therapy and who are radioactive iodine-refractory or ineligible.

Ipsen wishes to thank the patients and investigators involved in the COSMIC-311 clinical trial.

About radioactive iodine-refractory differentiated thyroid cancer (RAI-R DTC)
In 2020, over 580,000 new cases of thyroid cancer were diagnosed worldwide.3 Thyroid cancer is the ninth most commonly occurring cancer globally and incidence is three times higher in women than in men, with the disease representing 1 in every 20 cancers diagnosed among women.4 While cancerous thyroid tumors include differentiated, medullary and anaplastic forms, differentiated thyroid cancer (DTC) makes up about 90 to 95% of cases.5,6 These include papillary, follicular and Hürthle cell cancer.3,4 DTC is typically treated with surgery, followed by ablation of the remaining thyroid tissue with radioactive iodine (RAI), but approximately 5 to 15% of cases are resistant to RAI treatment.7 Patients who develop RAI-R DTC have a poor prognosis with an average estimated survival of three to five years.8

About the COSMIC-311 trial
COSMIC-311 is a multicenter, randomized, double-blind, placebo-controlled Phase III trial that enrolled 258 patients at 164 sites globally.1,2 Patients were randomized in a 2:1 ratio to receive either Cabometyx 60 mg or placebo once-daily.1 The primary endpoints were progression-free survival in the intention-to-treat population as well as objective response rate in the first 100 randomly assigned patients (objective response rate intention-to-treat [OITT] population), both evaluated by a blinded independent radiology committee. Additional endpoints include safety, overall survival and quality of life.1 Exelixis is the sponsor of the COSMIC-311 trial, and Ipsen is co-funding the trial. More information about this trial is available at ClinicalTrials.gov.

About Cabometyx (cabozantinib)
Outside the United States and Japan, Cabometyx is currently approved in 60 countries, including in the European Union (E.U.), Great Britain, Norway, Iceland, Australia, New Zealand, Switzerland, South Korea, Canada, Brazil, Taiwan, Hong Kong, Singapore, Macau, Jordan, Lebanon, the Russian Federation, Ukraine, Turkey, the United Arabic Emirates (U.A.E.), Saudi Arabia, Serbia, Israel, Mexico, Chile, Peru, Panama, Guatemala, the Dominican Republic, Ecuador, Thailand, Malaysia, Colombia and Egypt for the treatment of advanced renal cell carcinoma (RCC) in adults who have received prior vascular endothelial growth factor (VEGF)-targeted therapy; in the E.U., Great Britain, Norway, Iceland, Canada, Australia, New Zealand, Brazil, Taiwan, Hong Kong, Singapore, Lebanon, Jordan, the Russian Federation, Ukraine, Turkey, the U.A.E., Saudi Arabia, Israel, Serbia, Mexico, Chile, Peru, Panama, Guatemala, the Dominican Republic, Ecuador, Thailand, Egypt and Malaysia for previously untreated intermediate- or poor-risk advanced RCC; and in the E.U., Great Britain, Norway, Iceland, Canada, Australia, Switzerland, Saudi Arabia, Serbia, Israel, Taiwan, Hong Kong, South Korea, Singapore, Jordan, the Russian Federation, Ukraine, Turkey, Lebanon, the U.A.E., Peru, Panama, Guatemala, Chile, the Dominican Republic, Ecuador, Thailand, Brazil, New Zealand, Egypt and Malaysia for hepatocellular carcinoma (HCC) in adults who have previously been treated with sorafenib. Cabometyx is also approved in combination with nivolumab as first-line treatment for people living with advanced RCC, in the E.U., Great Britain, Norway, Iceland, Switzerland, Canada, Taiwan, Singapore, the U.A.E., Australia, Chile, Israel, Thailand, Malaysia, South Korea, Saudi Arabia, the Russian Federation and Brazil. In the U.S., Cabometyx tablets are approved for the treatment of people living with advanced RCC; for the treatment of people living with HCC who have been previously treated with sorafenib; for people living with radioactive iodine-refractory differentiated thyroid cancer who have been previously treated with VEGFR-targeted therapy; and for people living with advanced RCC as a first-line treatment in combination with nivolumab.

The detailed recommendations for the use of Cabometyx are described in the Summary of Product Characteristics (EU SmPC) and in the U.S. Prescribing Information (USPI).

Ipsen has exclusive rights for the commercialization of Cabometyx outside the U.S. and Japan. Cabometyx is marketed by Exelixis in the U.S. and by Takeda Pharmaceutical Company Limited in Japan. Cabometyx is a registered trademark of Exelixis.

On May 3, 2022 Innate Pharma SA (Euronext Paris: IPH; Nasdaq: IPHA) ("Innate" or the "Company"), reported that the Company will hold a conference call on Tuesday, May 10, 2022 at 2 p.m. CEST / 8 a.m. EDT, to give an update on business progress during the first quarter of 2022 (Press release, Innate Pharma, MAY 3, 2022, View Source [SID1234613328]).

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Speakers during the call will be:

Mondher Mahjoubi, Chief Executive Officer
Joyson Karakunnel, Executive Vice President, Chief Medical Officer
Yannis Morel, Executive Vice President, Product Portfolio Strategy & Business Development
Frédéric Lombard, Senior Vice President, Chief Financial Officer
Details for the Virtual Event

The live webcast will be available at the following link:
View Source

Participants may also join via telephone using the dial-in details below:

This information can also be found on the Investors section of the Innate Pharma website, www.innate-pharma.com. A replay of the webcast will be available on the Company website for 90 days following the event.

On May 2, 2022 OSE Immunotherapeutics reported the grant of a new patent from the European Patent Office (EPO) strengthening the protection covering its novel myeloid cell immune checkpoint target, CLEC-1 (a C-type lectin receptor), and its use in cancer treatment (Press release, OSE Immunotherapeutics, MAY 2, 2022, View Source [SID1234646965]). This patent provides a protection until 2037.

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CLEC-1 is a C-type lectin receptor with demonstrated potential to inhibit the functions of myeloid cells and to block anti-tumor responsiveness of T-lymphocytes. Myeloid cells have the ability to accumulate in the tumor microenvironment and deregulate the immune activation of T-lymphocytes. CLEC-1 is a new therapeutic target of interest in immuno-oncology.

Dominique Costantini, Chief Executive Officer of OSE Immunotherapeutics, comments: "This European patent is a major step that provides products targeting CLEC-1 a strong intellectual property and a broad scope as it notably covers the use of antagonist antibodies targeting CLEC-1 in cancer treatment. The patent has been extended to other major territories with the notice of allowance already granted in the United States and the patent granted in Japan."

Nicolas Poirier, Chief Scientific Officer of OSE Immunotherapeutics adds: "Based on our fruitful collaboration with the CR2TI research team*, we now have preclinical results identifying CLEC-1 and its antagonists as an innovative immunotherapy that releases the brakes on macrophage phagocytosis and dendritic cells antigen presentation and demonstrates synergistic anti-cancer effects, in particular when combined with chemotherapy. The latest preclinical efficacy data open the pathway for the development of monoclonal antagonist antibodies targeting new myeloid checkpoint inhibitor target CLEC-1, and for future translational clinical development of an innovative cancer immunotherapy."

*Collaborative program between OSE Immunotherapeutics and Dr Elise Chiffoleau’s (View Source) research teams (Center for Research in Transplantation and Translational Immunology (CR2TI), UMR1064, INSERM, Nantes University at Nantes University Hospital).

On May 2, 2022 iBio, Inc. (NYSEA:IBIO) ("iBio" or the "Company"), a developer of next-generation biopharmaceuticals and pioneer of the sustainable FastPharming Manufacturing System, reported that it will present a poster at the 18th Annual Protein & Antibody Engineering Summit (PEGS) Boston Conference & Expo, May 2-5 (Press release, iBioPharma, MAY 2, 2022, View Source [SID1234614060]).

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Rachel Jordan, PhD, a senior product manager at iBio, will present the poster (#P061), titled "Plant-Made Antibodies Show Superior Glycosylation Homogeneity While Retaining Pharmacokinetic Properties," which highlights:

The production of a single uniform G0 glycosylation pattern, lacking fucose and xylose, of NISTmAb and rituximab when compared to Chinese Hamster Ovary (CHO) cell culture produced antibodies, which contain more heterogeneous glycosylation patterns.
Comparability of in vivo rodent pharmacokinetic profiles for NISTmAb and rituximab produced using mammalian cell culture and the FastPharming System.
How rapid, scalable transient expression in plants of high-quality mAbs for in vivo studies can significantly shorten the time to achieve in vivo proof-of-concept.
More information about producing consistent, high-quality antibodies in the FastPharming System may be accessed in a whitepaper here.

On May 2, 2022 Sana Biotechnology, Inc. (NASDAQ: SANA), a company focused on creating and delivering engineered cells as medicines, reported that five abstracts covering preclinical data from its hypoimmune and fusogen platforms were accepted for either oral or poster presentation at the American Society of Gene and Cell Therapy (ASGCT) (Free ASGCT Whitepaper) 25th Annual Meeting taking place May 16-19, 2022 in Washington, D.C (Press release, Sana Biotechnology, MAY 2, 2022, View Source [SID1234613415]).

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"We will have a strong presence at ASGCT (Free ASGCT Whitepaper), with presentations of data from multiple technology platforms, including two oral presentations on our hypoimmune platform and two posters on our fusogen platform," said Steve Harr, MD, Sana’s President and CEO. "We remain excited with the progress we are making with these platforms that are targeted to address some of the major challenges faced in the field of gene and cell therapy. Our goal is to file two INDs this year from two of these platforms, with the aim of translating our exciting scientific progress into beneficial therapeutics for patients."

The ASGCT (Free ASGCT Whitepaper) abstracts are available to the public at View Source

Oral Presentations:
Title: Hypoimmune mouse primary pancreatic islet cells survive and functionally rescue allogeneic diabetic mice
Summary: Hypoimmune islet cells transplanted intramuscularly may be capable of persisting and functioning in diabetic patients without immune suppression
Abstract Number: 1244
Session: Cell Therapies for Hematological Disorders
Date/Time: Thursday, May 19, 2022 from 10:30 a.m. – 10:45 a.m. ET

Title: Generation of off-the-shelf allogeneic hypoimmune Tregs
Summary: A method to genetically engineer immune evasive "hypoimmune" regulatory T cells (Tregs) ex vivo that, in the assays tested, are immune evasive, functional, and protected from innate immune reactivity
Abstract Number: 1254
Session: Cell Therapy Product Engineering, Development or Manufacturing
Date/Time: Thursday, May 19, 2022 from 11:15 a.m. – 11:30 a.m. ET

Poster Presentations:
Title: Retargeted "fusosomes" for in vivo delivery to T cells
Summary: In vivo delivery of a CD19 CAR transgene payload with either CD8- or CD4-targeting vectors in Nalm-6 tumor bearing mouse models demonstrated robust production and persistence of CAR T cells, leading to tumor eradication
Abstract Number: 1081
Session: Cancer – Immunotherapy, Cancer Vaccines III
Date/Time: Wednesday, May 18, 2022 from 5:30 p.m. – 6:30 p.m.

Title: Fusosome-targeted gene transfer to human hepatocytes
Summary: Proof of principle data showing efficient delivery of a reporter transgene to human hepatocytes in vivo using a humanized liver mouse model
Abstract Number: 875
Session: RNA Virus Vectors
Date/Time: Wednesday, May 18, 2022 from 5:30 p.m. – 6:30 p.m. ET

Title: A novel VCN assay that detects lentiviral vector integrations while overcoming limitations caused by plasmid residuals
Summary: Data from a novel assay that relies on a unique amplicon and droplet digital PCR process that is specific to only reverse-transcribed self-inactivating viral vector nucleic acids
Abstract Number: M-305
Session: Pharmacology / Toxicology Studies or Assay Development
Date/Time: Monday, May 16, 2022 from 5:30 p.m. – 6:30 p.m. ET
About Hypoimmune Platform
Sana’s hypoimmune platform is designed to create cells ex vivo that can "hide" from the patient’s immune system to enable the transplant of allogeneic cells without the need for immunosuppression. We are applying the hypoimmune technology to both pluripotent stem cells, which can then be differentiated into multiple cell types, and to donor-derived allogeneic T cells, with the goal of making potent and persistent CAR T cells at scale. Preclinical data demonstrates across a variety of cell types that these transplanted allogeneic cells are able to evade both the innate and adaptive arms of the immune system while retaining their activity. Our most advanced programs utilizing this platform include an allogeneic CAR T program targeting CD19+ cancers and stem-cell derived pancreatic cells for patients with type 1 diabetes.

About Fusogen Platform
Sana is developing re-targetable fusogens as a platform technology to enable the in vivo delivery of genetic payloads to specific cell types. Fusogens can bind to cell-surface proteins on the target cell type and, when combined with delivery vehicles to form fusosomes, deliver a genetic payload directly to the cell’s cytoplasm. We have shown in preclinical studies that we can engineer fusogens to specifically target diverse cell surface receptors that allow cell-specific delivery across multiple different cell types. Our most advanced programs utilizing this platform include in vivo CAR T cell fusosome product candidates targeting CD19+ cancer cells, including non-Hodgkin lymphoma, chronic lymphocytic leukemia, and acute lymphocytic leukemia.