Homology Medicines Presents Details of Optimized HMI-103 Nuclease-Free Gene Editing Candidate Featuring Integrated Liver-Specific Promoter to Maximize Long-Term Expression
- Additional Data at ASGCT Annual Meeting Demonstrate Precision of HR-Based Approach with Genome-Wide Integration Assays Confirming On-Target Editing and No Off-Target Events
- New Data from GTx-mAb Platform Support Potential for Targeting Many
- Complement-Related Disorders
- Further Characterization of Homology’s Naturally Derived AAVHSC Capsids Highlight Their Broad Biodistribution and a Novel Discovery Revealed One Capsid with Low Tropism to the Liver, a Key Functional Benefit for Selecting New Disease Indications
- Homology Symposium to be Held Today, May 18, at 7:30 a.m. ET
BEDFORD, Mass., May 18, 2022 (GLOBE NEWSWIRE) -- Homology Medicines, Inc. (Nasdaq: FIXX), a genetic medicines company, unveiled today the mechanism of action (MOA) and optimization of HMI-103, the nuclease-free gene editing candidate currently in a Phase 1 trial for phenylketonuria (PKU). HMI-103 utilizes the body’s natural DNA repair process of homologous recombination (HR) to insert a functional copy of the PAH gene into a specific region of the genome. It is designed to provide a permanent DNA correction for PKU by replacing at least one disease-causing allele with a normal gene sequence in edited cells. HMI-103 was optimized to integrate the PAH gene and a liver-specific promoter into the genome and to maximize enzyme expression in all transduced cells.
“Our dedication to providing new solutions for patients living with PKU led us to develop an AAV-based nuclease-free gene editing vector with a new MOA,” said Albert Seymour, Ph.D., President and Chief Scientific Officer of Homology Medicines. “We believe an innovative approach that combines a permanent correction in the genome while providing expression in all cells that are transduced will be an important advance in the field of gene editing. Preclinical data from our optimized HMI-103 in PKU showed Phe normalization and durability of expression, which is the ultimate goal for treating younger patients whose livers are still growing and dividing.”
Also at the American Society of Gene and Cell Therapy (ASGCT) Annual Meeting, Homology presented data from its long-read, genome-wide integration assays, which confirmed the precision of HR-based integration of HMI-103, including no off-target editing in human hepatocytes in a humanized murine liver model. In addition, Homology shared new data from its GTx-mAb platform showing sustained antibody levels in murine and humanized models. The characterization of AAVHSC16 that has low tropism to the liver was also presented, which is a novel finding that provides opportunities to target additional diseases with a potentially lower immunogenicity profile.
“AAVs are ideal gene delivery vehicles for many disorders; however, the high liver tropism that many exhibit can limit their use in certain diseases,” continued Dr. Seymour. “Our family of 15 AAVHSC capsids have unique properties, and we have been focused on characterizing and leveraging them across our platform. We believe the new discovery that AAVHSC16 was able to target key tissues such as the CNS, muscle and cardiac tissue following a single I.V. administration, while having a very low affinity for the liver, may enable us to expand into new disease areas.”
Highlights from Homology’s 2022 ASGCT Presentations
In Vivo, Nuclease-Free Gene Editing Candidate HMI-103
For the first time, Homology will present data on the optimization of HMI-103 and its MOA in the presentation, “Sustained Correction of a Murine Model of Phenylketonuria and Integration into the Genome Following a Single Administration of an AAVHSC15 Phenylalanine Hydroxylase Gene Editing Vector.” The data show that a single I.V. administration of the optimized gene editing vector led to:
- Dose-responsive phenylalanine (Phe) reduction and integration in Pahenu2 mice;
- On-target integration at the target human PAH locus with no evidence of off-target integration; and
- Supported clearance of the IND for the HMI-103 pheEDIT clinical trial.
Also related to Homology’s HMI-103 program, the Company presented, “Genome-Wide and Directed Integration Assays Identify and Quantify rAAV In Vivo Gene Editing Sites in Mice with Humanized Livers,” which showed:
- The use of long-read sequencing is critical to ensure genomic DNA is analyzed and does not include episomal DNA; and
- When evaluating across the genome using long-read sequencing, the only site of DNA integration detected with HMI-103 was at the desired human PAH location.
Homology presented new data in the poster, “Sustained Expression of C5mAb in Presence of Murine and Human FcRn,” including:
- Sustained expression of C5 mAb observed in the presence of murine and human FcRn; and
- Utility of the GTx-mAb approach for paroxysmal nocturnal hemoglobinuria (PNH) and other complement-mediated disorders.
There were three presentations related to Homology’s family of 15 AAVHSCs, including the poster, “Naturally Occurring Variations at the 501 and 706 Residues on AAVHSC16 Contribute to Reduced Liver Tropism and Slower Serum Clearance.” This poster focused on the characterization and screening of AAVHSCs that led to identifying AAVHSC16’s substantially reduced liver tropism after I.V. administration, which could be meaningful for diseases focused on cardiac tissue, muscle or the CNS.
Related, in “The Structure of the 501 Residue on AAVHSC16 is Imperative to the Functional Binding to Cell Surface Glycans, Which is a Key Step in Successful Transduction,” the data showed:
- The 501 unique residue is key for the lack of galactose binding for AAVHSC16; and
- The amino acid at this location is key for the glycan binding and functional transduction of the vector.
In an oral session, Homology presented, “rAAV Vector Breakpoints Determined Using Single-Molecule, Modified Base Sequencing,” that demonstrated the ability to identify, resolve and redesign rAAV vectors with the assistance of the long-read sequencing technology.
AAVHSC Capsid Selection Strategy
In the presentation titled, “Capsid Selection Strategy for the Development of Gene Therapies Based on Structural and Functional Analyses of a Panel of AAVHSCs,” data supported Homology’s approach to leverage the most advantageous capsid for each specific disease the Company targets.
Homology Symposium and Webcast
Homology will be hosting a symposium today at 7:30 a.m. ET, including guest speaker Jerry Vockley, Ph.D., M.D., FACMG, Division Director, Genetic and Genomic Medicine, Professor of Pediatrics and Human Genetics, and Director, Center for Rare Disease Therapy at the University of Pittsburgh, and Lead Principal Investigator for the pheEDIT clinical trial. A live webcast of the symposium will be accessible on Homology’s website in the Investors section, and the replay will be available on the website for 90 days following the presentation.
About Homology Medicines, Inc.
Homology Medicines, Inc. is a clinical-stage genetic medicines company dedicated to transforming the lives of patients suffering from rare diseases by addressing the underlying cause of the disease. The Company’s clinical programs include HMI-102, an investigational gene therapy for adults with phenylketonuria (PKU); HMI-103, a gene editing candidate for PKU; and HMI-203, an investigational gene therapy for Hunter syndrome. Additional programs focus on metachromatic leukodystrophy (MLD), paroxysmal nocturnal hemoglobinuria (PNH) and other diseases. Homology’s proprietary platform is designed to utilize its family of 15 human hematopoietic stem cell-derived adeno-associated virus (AAVHSCs) vectors to precisely and efficiently deliver genetic medicines in vivo through a gene therapy or nuclease-free gene editing modality, as well as to deliver one-time gene therapy to produce antibodies throughout the body through the GTx-mAb platform. Homology has a management team with a successful track record of discovering, developing and commercializing therapeutics with a focus on rare diseases. Homology believes its initial clinical data and compelling preclinical data, scientific and product development expertise and broad intellectual property position the Company as a leader in genetic medicines. For more information, visit www.homologymedicines.com.
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