Decibel Therapeutics Announces Exclusive Licensing Agreements for Hearing Loss Gene Therapy Technology

Nov. 2, 2020 13:00 UTC



BOSTON--(BUSINESS WIRE)-- Decibel Therapeutics, a clinical-stage biotechnology company developing novel restorative gene therapeutics to treat hearing loss and balance disorders, today announced exclusive license agreements with the University of Florida (UF) and the University of California, San Francisco (UCSF) for an adeno-associated virus (AAV) gene therapy technology designed to restore hearing to individuals with profound, congenital hearing loss caused by mutations in the otoferlin gene.

Otoferlin is a protein present in the inner hair cells of the cochlea that is critical for the communication between sensory cells of the inner ear and the auditory nerve by regulating release of neurotransmitters. People born with biallelic mutations in the otoferlin gene have profound hearing loss because this signal between the ear and the brain is lost. Decibel aims to restore functional otoferlin using gene therapy. A principal challenge is the size of the otoferlin gene, which is too large for the packaging capacity of AAV vectors. To overcome this challenge, Dr. William Hauswirth (UF), Dr. Omar Akil (UCSF), and collaborators employed a dual-vector approach to deliver the gene in two separate AAV vectors. This approach resulted in expression of the complete otoferlin gene, restored the signaling connection between the ear and the brain, and rescued normal hearing in a deaf, otoferlin-deficient mouse model.1

“The dual-AAV gene therapy approach has shown significant promise in preclinical research as a method to deliver a large gene to the ear,” said William Hauswirth, Ph.D., Professor of Ophthalmology at University of Florida. “We were able to cure deafness in a mouse model and look forward to the potential of this technology in the development of a gene therapy to restore hearing in human patients.”

The AAV-mediated gene therapy technology is jointly owned by UF and UCSF, and Decibel has secured exclusive licenses to the rights of the two universities in the intellectual property. The technology has been incorporated as a key component of Decibel’s lead gene therapy program, DB-OTO, for treatment of individuals lacking otoferlin.

Decibel’s precision gene therapeutic, DB-OTO, also incorporates proprietary, cell-specific regulatory control that restricts expression of the human otoferlin sequence to hair cells of the inner ear, thereby avoiding off-target expression. Decibel is developing DB-OTO in collaboration with Regeneron Pharmaceuticals.

“There is a significant unmet need for therapeutics that can restore hearing in individuals with congenital, profound hearing loss. We believe AAV-mediated gene therapy is a modality well-suited to the ear, which could potentially have a major impact for patients,” said Laurence Reid, Ph.D., Chief Executive Officer of Decibel. “These important agreements support our goal to further advance our lead developmental gene therapy program, DB-OTO.”

Terms of the agreement have not been disclosed.

1Akil et al. (2019) Proceedings of the National Academy of Sciences.

About Decibel Therapeutics

Decibel Therapeutics is a clinical-stage biotechnology company focused on developing treatments that restore functional hair cells within the inner ear to treat disorders of hearing and balance. Leveraging industry-leading single-cell genomics capabilities and proprietary gene therapy technologies, Decibel has established the world’s first comprehensive research, discovery and drug development platform aimed at restoring hearing and balance function. Decibel’s pipeline, including its lead gene therapy program (DB-OTO) to treat congenital monogenic deafness and its ototoxicity prevention program, is designed to deliver on our vision of a world in which the privileges of hearing and balance are available to all. For more information about Decibel Therapeutics, please visit or follow @DecibelTx.


Julie Seidel
Stern Investor Relations, Inc.

Media Contact:
Matthew Corcoran
Ten Bridge Communications


Source: Decibel Therapeutics

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