On October 22, 2024 NanoCell Therapeutics, Inc. ("NanoCell"), a company developing in-vivo cell engineering solutions based on its proprietary non-viral, DNA-based gene therapy platform, reported that the team will present at several upcoming investor and scientific conferences (Press release, NanoCell Therapeutics, OCT 22, 2024, View Source [SID1234647306]).

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Initial data from the company’s ongoing preclinical studies on targeted lipid nanoparticle (tLNP) technology for in vivo CAR-T cell generation will be presented at the ESGCT by Dr. Jacek Lubelski, NanoCell’s Chief Technology Officer. The presentation will highlight preclinical results demonstrating the ability of the company’s novel tLNP technology to generate persistent CAR-T cells in vivo, showing tumor control and extended survival in a human PBMC engrafted mouse model of B-cell leukemia.

At the SITC (Free SITC Whitepaper) 39th Annual Meeting and the SITC (Free SITC Whitepaper) Immune Engineering Workshop in Houston, Texas, Dr. Lubelski will present new data from the company’s non-viral vector platform research program.

NanoCell will participate in two upcoming investor conferences. Dr. Maurits Geerlings, CEO, will join a panel discussion and host investor meetings at the Longwood Healthcare Leaders Boston CEO Forum (October 28-29, 2024), followed by one-on-one investor meetings at BioEurope in Stockholm (November 4-6, 2024).

Presentation Details:

European Society of Gene & Cell Therapy (ESGCT):
Oral Presentation: "tLNPs can effectively deliver DNA to T-cells and generate long-acting CAR-T cells in vivo"
Number: OR050
Session: Parallel Session 6c: Non Viral Vectors / Nanotechnology I
Location: Meeting Room 2
Timing: Wednesday, October 23rd, 2024,
Timing: 17:30-19:30

Presentation Details:

Society for Immunotherapy of Cancer (SITC) (Free SITC Whitepaper) 39th Annual Meeting:
Poster Presentation
Title: "Efficient generation of long-lasting CAR-T cells in vivo using novel non-viral vector"
Abstract Number: 284
Timing: November 8-10, 2024
Location: Houston, TX

Additional Poster Abstract Presentation:

SITC Immune Engineering Workshop:
Titel: "Efficient generation of long-lasting CAR-T cells in vivo using novel non-viral vector"
Timing: November 7, 2024
Location: Houston, TX

Investor Conferences

Event Details:
Longwood Healthcare Leaders Boston CEO Forum
Investor 1:1 Meetings and Panel
Title: Innovation in Cell Therapy
Timing: October 28-29, 2024
Venue: Mandarin Oriental Boston, 776 Boylston Street, Boston, MA, USA

Event Details:
BioEurope
Investor 1:1 Meetings
Company Overview
Timing: November 4–6, 2024
Venue: Stockholmsmässan, Mässvägen 1, 125 30 Älvsjö, Stockholm, Sweden

On October 22, 2024 Monopar Therapeutics Inc. (Nasdaq: MNPR), a clinical-stage radiopharmaceutical company focused on developing innovative treatments for cancer patients, reported data from the clinical and preclinical development of its novel first-in-class lead radiopharma program based on MNPR-101 at the European Association of Nuclear Medicine (EANM) 2024 Annual Congress held in Hamburg, Germany (Press release, Monopar Therapeutics, OCT 22, 2024, View Source [SID1234647304]). MNPR-101-Lu radiation dosimetry analytics using human data from MNPR-101-Zr show a favorable organ safety profile at high Lu-177 therapeutic dose levels. The slides for Monopar’s oral presentation can be found at the following link: View Source

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Monopar’s presentation, accepted as a "Top-Rated Oral Presentation" within the Scientific Program, illustrates the potential of the urokinase plasminogen activator receptor (uPAR) as a promising radiopharma target in solid tumors. Preclinical and clinical data show favorable biodistribution, tumor uptake, and low off-target binding of Monopar’s uPAR-targeted radiopharmaceuticals MNPR-101-Zr and MNPR-101-Lu. "We were able to optimize our uPAR-targeted radiopharmaceuticals in preclinical studies, and the data show these efforts have translated directly into humans with encouraging tumor uptake. Even at the highest Lu-177 therapeutic antibody dose we are aware of in the clinic, we estimate a favorable radiation dosimetry safety profile for off-target effects such as bone marrow exposure," said Andrew Cittadine, Monopar’s Chief Operating Officer.

Further information about the MNPR-101-Lu Phase 1a trial is available at www.ClinicalTrials.gov under study identifier NCT06617169. Further information about the MNPR-101-Zr Phase 1 imaging and dosimetry clinical trial is available at www.ClinicalTrials.gov under study identifier NCT06337084.

On October 22, 2024 Cellectis (the "Company") (Euronext Growth: ALCLS – NASDAQ: CLLS), a clinical-stage biotechnology company using its pioneering gene-editing platform to develop life-saving cell and gene therapies, reported that they will be showcasing pre-clinical data that permit the design of an efficient and specific TALE base editors (TALEB) as well as a process to enhance the efficacy of non-viral gene insertion in hematopoietic stem and progenitor cells (HSPCs) at the European Society of Cell and Gene Therapy 31st annual congress, that will take place on October 22-25, 2024, in Roma, Italy (Press release, Cellectis, OCT 22, 2024, View Source [SID1234647303]).

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The data will be presented in two posters:

Controlling C-to-T editing with TALE base editors

Presenter: Alexandre Juillerat, Ph.D., Vice-President Gene Editing & NY Lab Head at Cellectis

Date/Time: Thursday, October 24 from 2:00pm to 3:30pm CET

Poster number: P0666

TALE base editors (TALEB) are fusions of a transcription activator-like effector domain (TALE), split-DddA deaminase halves, and an uracil glycosylase inhibitor (UGI). The C-to-T class of TALEB edits double strand DNA by converting a cytosine (C) to a thymine (T) via the formation of an uracil intermediate.
Cellectis recently developed a strategy that allows the comprehensive characterization of C-to-T conversion efficiencies within the editing window. This method also takes advantage of a highly precise and efficient TALEN-mediated ssODN knock-in in primary T cells to assess how target composition and spacer variations affect TALEB activity/efficiency.
The datasets obtained in this study enhanced our understanding of TALEB and permitted the design of efficient and specific tools that could be compatible with the potential development of therapeutic applications.

Circular Single-Stranded DNA Enables Efficient TALEN-Mediated Gene Insertion in Long Term HSC

Presenter: Julien Valton, Ph.D., Vice-President Gene Therapy at Cellectis

Date/Time: Thursday, October 24 from 2:00pm to 3:30pm CET

Poster number: P0585

Non-viral alternatives such as linear single-stranded DNA (LssDNA) and circular single-stranded DNA (CssDNA) are emerging as promising options to vectorized DNA donor template for nuclease-mediated gene insertion in hematopoietic stem and progenitor cells (HSPCs) used for gene therapy applications.
Capitalizing on its TALEN technology, Cellectis has devised a gene editing process that incorporates non-viral DNA donor template delivery (LssDNA or CssDNA) to enhance gene insertion in HSPCs.
The circularization of ssDNA increases gene insertion rates in long term HSCs and has the potential to enhance their engraftment capacity in preclinical murine model, thereby to facilitate the advancement of next-generation cell therapies. This research marks a crucial step towards enhancing the efficacy of non-viral gene therapy.

On October 22, 2024 BullFrog AI, Inc. (NASDAQ: BFRG; BFRGW) ("BullFrog AI" or the "Company"), a technology-enabled drug development company using artificial intelligence (AI) and machine learning to enable the successful development of pharmaceuticals and biologics, reported its VP Artificial Intelligence, Enrique García-Rivera, Ph.D., will present at Google’s inaugural Cancer AI Symposium on October 30, 2024, at the Boston Center for the Arts (Press release, Bullfrog AI, OCT 22, 2024, View Source [SID1234647302]).

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Dr. García-Rivera’s presentation will showcase BullFrog AI’s groundbreaking use of artificial intelligence in drug discovery and development. Highlighting the Company’s proprietary bfLEAP platform, the presentation will explore how multimodal biological data—including genomics, transcriptomics, and clinical data—are integrated to accelerate the drug development process.

A key aspect of the presentation will be how bfLEAP is applied to cancer research, leveraging AI to identify complex biological patterns that contribute to disease progression and treatment resistance. Dr. García-Rivera will also reference BullFrog AI’s collaboration with the Lieber Institute for Brain Development as a prime example of how bfLEAP is being utilized across various therapeutic areas. The collaboration, which focuses on neurological disorders such as bipolar disorder, underscores the platform’s versatility and potential to drive innovation across multiple domains, including cancer.

Dr. García-Rivera will also introduce BullFrog AI’s novel "AlgoLLM" system for gene prioritization, which revolutionizes the identification of high-priority targets in drug development by harnessing large language models. This innovative AI tool is critical for streamlining the discovery of actionable insights in neuropsychiatric disorders and other diseases, advancing the Company’s mission to develop more effective and personalized treatments.

On October 22, 2024 Be Biopharma, Inc. ("Be Bio" or "the Company"), a leader in the discovery and development of engineered B Cell Medicines (BCMs), reported key milestones alongside a new round of funding as its lead program, BE-101 for Hemophilia B, enters the clinic, and its second development candidate for Hypophosphatasia is unveiled (Press release, Be Biopharma, OCT 22, 2024, View Source [SID1234647301]). Both programs are built on Be Bio’s powerful and efficient BCM platform, which utilizes gene editing to engineer B cells to produce sustained levels of therapeutic proteins, resulting in durable, titratable, and redosable candidates that require no preconditioning and have the potential to become best-in-class genetic medicines.

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Key recent milestones include:

BE-101: Phase 1/2 BeCoMe-9 Trial Open for Patient Enrollment; Granted Fast Track Designation. In May 2024, Be Bio announced that BE-101, a first-in-class BCM, received clearance of its Investigational New Drug application. BE-101 is designed to produce constant levels of Factor IX in a durable, redosable, and titratable manner, without the need for preconditioning. BeCoMe-9 is a multi-center, first-in-human dose escalation study aimed at evaluating the safety and preliminary efficacy of BE-101 in adults with moderately severe to severe Hemophilia B. FDA has recently granted BE-101 Fast Track Designation.
BE-102 Nominated as a Development Candidate for Hypophosphatasia (HPP): BE-102 has been selected as a development candidate for the treatment of Hypophosphatasia (HPP), a severe genetic disease with very high unmet medical need, affecting approximately 50,000 patients. HPP is characterized by loss of function mutations in the ALPL gene which lead to deficient alkaline phosphatase (ALP) activity, resulting in weakened and underdeveloped bones and teeth. The only approved therapy for HPP requires multiple injections per week and is limited to pediatric-onset forms of the disease. Data presented at the 2024 American Society for Bone and Mineral Research (ASBMR) Meeting showed that BE-102 has the potential to generate active and sustained levels of ALP in vivo.
$82 Million Financing to Advance BE-101 to Clinical Proof of Concept and Progress BE-102: The Company has closed an $82 million financing, with backing from top venture capital firms and pharmaceutical companies, including ARCH Venture Partners, Atlas Venture, RA Capital Management, Alta Partners, Longwood Fund, Bristol Myers Squibb, and Takeda Ventures. The funds will be used to achieve clinical proof of concept for BE-101 and to advance the development of BE-102.
Key Hires in Clinical Development and Commercial: The Company is excited to welcome Suha Patel as Senior Vice President of Commercial & Franchise Strategy and Kiran Patki, MD as Senior Vice President of Clinical Development. Ms. Patel joins from Roche/Genentech, where she led the successful launch of Hemlibra and held senior roles across marketing, medical marketing and sales. Dr. Patki joins from Rally Bio, where he served as Senior Vice President and Global Team Leader for asset development projects, with prior leadership experience at Alexion Pharmaceuticals. Concurrent with building out these later-stage functions, the Company will streamline its early research organization and related functions to focus resources on product development.
"Advancing two BCMs that harness the potential of this new modality represents an exciting step in transforming the treatment landscape for their respective indications with potentially best-in-class genetic medicines. With support from a top-tier syndicate of investors and pharmaceutical companies, we are eager to clinically demonstrate BE-101’s potential to provide a highly durable FIX replacement therapy for Hemophilia B patients. Additionally, we are excited to advance BE-102 to address the needs of a large patient population with few to no therapeutic options," said Joanne Smith-Farrell, Ph.D., Chief Executive Officer of Be Bio. "As we build out the team to support product development, we are delighted to welcome Suha and Kiran, experienced leaders who bring deep development and commercial expertise to our team, further strengthening our leadership as we transition into a clinical-stage company."

Dr. Smith-Farrell added: "Our innovative and highly effective research team is the driving force behind the creation of BE-101 and BE-102. They quickly brought the BCM platform to life, achieving IND clearance for BE-101 in just 2.5 years from the program’s inception, and advancing BE-102 to DC in only 15 months, showcasing the platform’s versatility and modularity. As we shift resources toward product development, some valued colleagues will be moving on. We are incredibly proud of their achievements and deeply grateful for their tireless and impactful work on behalf of Be Bio and the patients whose lives we hope these therapies will one day transform."

About BE-101

BE-101 is a first-in-class BCM that is engineered to insert the human Factor IX (FIX) gene into primary human B cells, allowing for continuous expression of active FIX for the treatment of hemophilia B. BE-101 has the potential to express sustained therapeutic FIX activity levels with a single infusion while having the flexibility to be titrated and/or re-dosed, and without the need for preconditioning. The potential to maintain therapeutic FIX activity levels while the reducing dosing frequency associated with current FIX replacement regimens could address the considerable infusion burden associated with current therapies and potentially drive reductions in the annualized bleeding rates and FIX usage. The US FDA cleared the BE-101 IND in May of 2024, and granted Fast Track designation in September of 2024. The Phase 1/2 BeCoMe-9 Trial has been initiated and further details of the trial can be found at www.clinicaltrials.gov under NCT identifier: NCT06611436.

About Hemophilia B

Hemophilia B is an X-linked recessive bleeding disorder that affects approximately 40,000 people globally. It is caused by mutations in the gene that encodes for the FIX protein, an essential enzyme in the coagulation cascade. This can lead to spontaneous bleeding as well as bleeding following injuries or surgery. People with hemophilia B bleed longer than other people. Bleeds can occur internally, into joints and muscles, or externally, from minor cuts, dental procedures or trauma. The current standard of care remains prophylactic administration FIX replacement therapy with a dosing frequency that ranges from every week to every 2 weeks. The short biological half-life of FIX requires lifelong frequent infusions to maintain therapeutic levels.

About BE-102

BE-102 is a first-in-class BCM that has been engineered using artificial intelligence-guided protein design to modify primary human B cells to produce ALP, an enzyme deficient in people living with HPP. A single infusion of BE-102 has the potential to express sustained therapeutic ALP with the flexibility to be titrated and/or re-dosed, if needed, and without the need for pre-conditioning. BE-102 has been selected as a Development Candidate and has the potential to transform the standard of care for people living with HPP.

About Hypophosphatasia

HPP is a genetic disease caused by loss of function mutations in the ALPL gene, leading to a deficiency in ALP activity that is required for healthy mineralization of bones and teeth. Insufficient levels of ALP result in the inability of calcium and phosphate to mobilize from the blood, resulting in weakened and underdeveloped bones and teeth. HPP is estimated to affect up to 50,000 people. There is only one approved therapy which requires three to six times a week administration.

About Engineered B Cell Medicines – A New Class of Cellular Medicines

The B cell is a powerful cell that produces thousands of proteins per cell per second at constant levels, and over decades. Precision genome editing can now be used to engineer B Cells that produce therapeutic proteins of interest, driving a new class of cellular medicines – Engineered B Cell Medicines (BCMs) – with the potential to be durable, allogeneic, redosable, and administered without pre-conditioning. The promise of BCMs could transform therapeutic biologics across protein classes, patient populations and therapeutic areas.