On April 11, 2022 AnPac Bio-Medical Science Co., Ltd. ("AnPac Bio," the "Company" or "we") (ANPC), a biotechnology company with operations in the United States and China focused on early cancer screening and detection, reported that on April 4, 2022, the Company and Hunan Weitou Technology Co., Ltd. ("new investor") have signed a legally binding equity investment totaling $15 Million which will be invested in five installments over the next 30 months (Press release, Anpac Bio, APR 11, 2022, View Source [SID1234612051]).

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Under the terms of the agreement, the new investor will invest $3 Million at the beginning of every 6 months. The first $3 Million, which is in the form of private equity investment, has a purchase price at $0.414 per share. It is expected that the first investment installment will be completed in April 2022.

Dr. Ai-Dong Chen, Chairman of the board and CEO of the Company, commented: "This long term equity investment is significant and important to the growth of our company. It also shows investors’ confidence in the prospects of our company and its leading-edge technology. We have a very strong innovation track record, significant intellectual property, including over 260 filed patent applications and 150 issued patents, the world’s largest cancer detection data base and sample size (in new generation cancer detection technology space) according to Frost & Sullivan, and a leading edge, novel cancer detection technology which is already saving lives on the weekly basis."

On April 11, 2022 BioNTech SE (Nasdaq: BNTX, "BioNTech") and Matinas BioPharma (NYSE AMER: MTNB, "Matinas"), a clinical-stage biopharmaceutical company focused on redefining the intracellular delivery of nucleic acids and small molecules with its lipid nanocrystal (LNC) platform technology, reported that they have entered into an exclusive research collaboration to evaluate the combination of mRNA formats and Matinas’ proprietary LNC platform technology (Press release, BioNTech, APR 11, 2022, View Source [SID1234612023]). The parties will closely collaborate on formulation, optimization, and in vitro testing.

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"We pioneered the treatment of the first patient in history with nano-sized lipid-encapsulated mRNA back in 2015, after years of extensive research. Accomplishing strong immune responses with low doses are crucial in the development of well-tolerated and highly effective vaccines. This can be achieved with the right technology that enables targeted vaccine delivery," said Ugur Sahin, M.D., Chief Executive Officer and Co-Founder of BioNTech. "Matinas’ LNC platform demonstrates encouraging capabilities for intracellular delivery, including the opportunity for oral delivery. We are excited to collaborate with this extraordinary team of experts."

"This collaboration with BioNTech is an important validation from a leading global biotech company with demonstrated expertise in the design, formulation, and delivery of mRNA," said Jerome D. Jabbour, Chief Executive Officer and Co-Founder of Matinas. "We are thrilled to partner with this world-class organization to further demonstrate the capabilities of our LNC platform, and potentially provide an opportunity for the oral administration of vaccines or other treatments. Intracellular delivery remains a significant challenge for many emerging therapies and the combination of oral bioavailability with non-immunogenic transfection could potentially benefit tens of millions of patients around the world."

Under the terms of the agreement, Matinas will receive an upfront access fee to work exclusively with BioNTech, as well as additional research funding from BioNTech. The parties have also commenced discussions on a license agreement for Matinas’ LNC platform technology.

On April 11, 2022 Nouscom, a clinical stage immuno-oncology company developing off-the-shelf and personalized viral vectored immunotherapies, reported encouraging new translational data obtained from the ongoing Phase 1 trial evaluating NOUS-209 (Press release, NousCom, APR 11, 2022, View Source [SID1234612021]). The data were presented yesterday in a Late Breaking session at the 2022 American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting.

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NOUS-209, Nouscom’s lead product, is an off-the-shelf cancer vaccine targeting 209 shared neoantigens. It is being investigated in a Phase 1 clinical trial, administered in combination with the anti-PD-1 checkpoint inhibitor pembrolizumab, for the treatment of Microsatellite Instable High (MSI-H) gastric, colorectal and gastro-esophageal junction solid tumors.

Previously presented interim clinical data of the combination (presented at the Society for Immunotherapy of Cancer (SITC) (Free SITC Whitepaper)’s (SITC) (Free SITC Whitepaper) Annual Meeting in November 2021) highlighted promising early signs of clinical efficacy in 12 MSI-H patients.

The new translational data presented at AACR (Free AACR Whitepaper) 2022 further supported these findings and demonstrated NOUS-209 is safe, highly immunogenic with promising signs of clinical efficacy. Key findings were as follows:

Vaccine immunogenicity was demonstrated by ex-vivo IFN-ɣ ELISpot assay in 67% of patients in dose level 1 (n=3), and 100% (n=7) of patients in dose level 2.
In 3 patients with long term PRs whose pre/post treatment tumor biopsies were available, the intratumoral TCR repertoire was expanded and diversified post treatment with NOUS-209. Increased T effector memory post treatment was observed.
In one of these three patients, vaccine-induced neoantigen specific TCR was tracked from periphery in the tumor biopsy post NOUS-209 treatment.
Results indicate that neoantigen specific CD8+ T cells, induced by NOUS-209, expand and diversify only upon treatment with NOUS-209, and successfully infiltrate the tumor microenvironment to exert anti-tumor activity.
Marwan G. Fakih, M.D., Medical Oncology Specialist at City of Hope’s Duarte California, and Study investigator said: "While we have seen progress in the treatment options for MSI-High solid tumors in recent years, there remains a significant unmet need. It is therefore extremely encouraging to see these new translational Phase 1 data illustrating how NOUS-209 induces robust T cell expansion and TCR diversification in patients demonstrating durable clinical responses. I very much look forward to the full analysis of the Phase 1 results and further clinical development."

Dr. Elisa Scarselli, Chief Scientific Officer and Co-Founder of Nouscom, said: "The data, obtained from 12 metastatic MSI-H patients, highlights a common signature observed post vaccination in patients with durable clinical response. The signature is characterized by the TCR repertoire expansion and diversification in tumor infiltrating lymphocytes stimulated by vaccination with NOUS-209, together with a parallel increase of T cells with effector memory phenotype. Moreover, we were able to track vaccine induced T cells among those expanded post-treatment in the tumor of one of these patients.

"We look forward to building upon our compelling proof-of-concept data by leveraging important learnings from the ongoing trial to support the development of NOUS-209 as potentially the first neoantigen off-the shelf cancer vaccine targeting MSI-H tumors."

Poster Presentation Details:

Title: Characterization of immune correlates of clinical activity for NOUS-209, an Off-the-Shelf immunotherapy, with Pembrolizumab for treatment of tumors characterized by Microsatellite Instability (MSI).
The abstract is available here
About NOUS-209

NOUS-209 is an off-the-shelf immunotherapy for Microsatellite Instable High (MSI-H) tumors. MSI-H tumors are characterized by a defective DNA mismatch repair system, which generates highly immunogenic frame shift peptides (frameshift mutations, FSPs) that are not found on healthy tissue.

NOUS-209 is designed to comprise 209 shared FSP neoantigens, selected by Nouscom’s proprietary GENESIS (GE(netic)NE(oantigen)S(election)I(n)S(ilico)) algorithm, on the basis that an average of 50 neoantigens on any patient’s tumor will be shared with those in NOUS-209. Nouscom’s heterologous prime/boost platform clones these FSPs into Great Ape Adenoviral (GAd) and Modified Vaccinia Ankara (MVA) vectors, combined with other immunomodulators to harness the full power of the immune response, to generate the viral-vectored vaccine.

NOUS-209 is in Phase 1 clinical trial (NCT04041310), a multicenter, open label, multiple cohorts, first-in-human clinical study of NOUS-209 in combination with pembrolizumab, designed to evaluate safety, tolerability and immunogenicity and to detect preliminary evidence of anti-tumor activity.

On April 11, 2022 Adcendo ApS ("Adcendo"), a biotech company focused on the development of breakthrough antibody-drug conjugates (ADCs) for the treatment of underserved cancers, reported that a poster presentation will be provided on data of uPARAP targeting Antibody-Drug Conjugates in osteosarcoma preclinical xenograft models at the ongoing American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting, held in New Orleans from April 8-13, 2022 (Press release, ADCendo, APR 11, 2022, View Source [SID1234612020]).

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American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2022

Presentation title: 2016 / 20 – Preclinical Evaluation of uPARAP (MRC2) Antibody-drug Conjugates (ADCE-003,010,011) in Osteosarcoma PDX Models
Session: Clinical Research Excluding Trials
Session Title: Paediatric Oncology: Clinical Investigation
Presenter: Yifei Wang
Authors: Yifei Wang, Wendong Zhang, Zhongting Zhang, Xiangjun Tian, Rossana N Lazcano Segura, Pooja Hingorani, Michael Roth, Jonathan Gill, Douglas Harrison, Zhaohui Xu, Jing Wang, Niels Behrendt, Christoffer F. Nielsen, Lars H. Engelholm, and Richard Gorlick
Date & Time: April 11th at 1:30 – 5.00 pm CDT

uPARAP is a cell-surface receptor, which is involved in collagen degradation and displays a differentiated expression profile between healthy tissue and cancer tissue, with several cancer types significantly overexpressing the receptor, including soft-tissue sarcoma, osteosarcoma, mesothelioma and glioblastoma multiforme (GBM). The preclinical study in Osteosarcoma PDX models presented at the 2022 AACR (Free AACR Whitepaper) meeting was carried out by researchers at the University of Texas MD Anderson Cancer Center.

Principal Investigator Richard Gorlick, M.D., Department Chair of the Department of Pediatrics Patient Care and Director of the Department of Pediatric Sarcoma Research Laboratory of The University of Texas MD Anderson Cancer Center, Houston, TX, said: "ADCs have shown robust clinical activity in several solid tumor cancers but, due to the lack of suitable targets, none are yet available for osteosarcoma. Osteosarcoma are the most common primary malignant bone tumors in children and young adults, where treatment has shown limited progress in the last few decades. We are encouraged by this data and look forward to further support the ongoing development of a uPARAP-targeting ADC in order to improve the outcome of our patients."

Niels Behrendt, Professor of the Finsen Laboratory, University of Copenhagen and Copenhagen University Hospital, and Scientific Co-founder of Adcendo, said: "After 25 years of research on the biology of uPARAP we are very encouraged by the promising activity data, suggesting that targeting uPARAP via ADCs could represent a novel therapeutic option for osteosarcoma patients and other underserved cancer indications."

On April 11, 2022 InventisBio Co., Ltd., a clinical-stage biotech company based in Shanghai, China reported that it has published the clinical data of their oral KRAS G12C inhibitor D-1553, for the first time in cancer patients (Press release, InventisBio, APR 11, 2022, View Source [SID1234612019]). These data are presented in two e-posters at the annual meeting of American Association of Cancer Research held on Apr 8-13 in New Orleans.

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KRAS G12C mutation is an oncogenic driver that occurs in approximately 15% of non-small cell lung cancer (NSCLC), 3% of colorectal cancer (CRC), and ~1% of several other solid tumors. D-1553 is a novel, potent and orally bioavailable KRAS G12C inhibitor developed by InventisBio. In a phase I international multi-center trial in patients with advanced or metastatic solid tumors harboring KRAS G12C mutation, D-1553 was evaluated in 22 patients and well tolerated without any dose limiting toxicity. Among 21 evaluable patients, a confirmed tumor objective response rate (ORR) of 19.0% was observed and a disease control rate (DCR) of 85.7% was achieved. Tumor response was seen at dose levels as low as 300 mg per day. In another study focusing on patients with NSCLC harboring KRAS G12C mutation, a group of 59 patients were included in the analysis and 52 of them were evaluable for tumor response. An ORR of 40.4% and a DCR of 90.4% were achieved, respectively. These are patients with advanced or metastatic cancers most of whom have been treated with two or more lines of systemic anticancer therapy.

"We are very excited to report our clinical data of D-1553 at the 2022 AACR (Free AACR Whitepaper) Annual Meeting. D-1553 is a key component of our clinical pipeline which covers therapeutic areas in cancer and metabolic disease. To our knowledge, this is the largest publicly reported population of patients that are treated with a KRAS G12C inhibitor developed completely in-house in China. We are committed to advancing this drug in more clinical studies to further assess its efficacy both as a single agent and in combination with other therapeutic agents in cancer patients and hope to make it available to them as a new treatment choice in the future," said Yaolin Wang, the CEO of InventisBio.