- Data from two nonclinical studies evaluating protein expression and tolerability support future clinical development of AK-antiVEGF for the treatment of vestibular schwannoma
- AAVAnc80 and a supporting cell selective promoter can drive widespread GJB2 expression in supporting cells, while limiting expression in, and loss of, hair cells in mice
- AAV-mediated RNAi gene silencing and CRISPR/Cas9 gene editing methods demonstrate a promising reduction of gene of interest protein expression, which expands Akouos’s genetic medicine platform capabilities
“We are pleased to present these data, which further demonstrate the potential of our precision genetic medicine platform of proprietary ancestral adeno-associated viral (AAV) vectors, novel delivery approach, and multiple vector-mediated modalities to address a broad range of inner ear conditions, including those that are monogenic and of complex etiology,” said
Demonstration of Secreted Protein Expression Levels Following Intracochlear Delivery of AK-antiVEGF (AAVAnc80-antiVEGF Vector) Across Multiple Doses in Non-human Primates
Presenting Author:
Podium Session: 11
AK-antiVEGF is a gene therapy candidate in preclinical development for the potential treatment of patients with vestibular schwannomas (VS). Data published from previous clinical trials of systemic VEGF inhibitor therapy show reduction of VS tumor volume and improvement in hearing in some participants with VS due to mutations in the NF2 gene. However, associated toxicity can limit long-term systemic administration of VEGF inhibitors as a viable treatment option for VS. Local expression of anti-VEGF protein following intracochlear administration of AK-antiVEGF is robust and well tolerated in non-human primates (NHPs), an anatomically relevant model for evaluating delivery parameters. Data from two nonclinical studies evaluating multiple doses demonstrate that systemic exposure to anti-VEGF protein is limited. Computational modelling supports the potential for diffusion of reported biologically active anti-VEGF protein levels to the typical location of early VS tumors. Together, these data support the future clinical development of AK-antiVEGF for the potential treatment of VS.
The digital presentation is located at https://akouos.com/gene-therapy-resources/.
Tailoring Regulatory Elements in Gene Therapies for Hearing Loss
Presenting Author:
Podium Session: 11
Ubiquitous promoters can drive safe expression of multiple transgenes and are used in commercially approved and development-stage gene therapies. In mice and NHPs, AAVAnc80-hOTOF with a ubiquitous promoter enabled robust and well-tolerated expression of hOTOF.FLAG. However, depending on the gene of interest, a tailored regulation of expression pattern may be preferred. Inclusion of a selective promoter was evaluated in the case of GJB2, where expression in hair cells is not well tolerated.
The digital presentation is located at https://akouos.com/gene-therapy-resources/.
In Vitro Characterization of Gene Silencing Methods with the Potential to Treat Autosomal Dominant Hearing Loss
Presenting Author:
Poster Number: 574
The development of AAV vectors as an intracochlear drug delivery platform presents a unique opportunity to treat genetic forms of hearing loss, including autosomal dominant hearing loss (ADHL), by developing precision medicines that are selectively designed to target affected genes. To address affected genes, one genetic medicine-based approach is to reduce expression levels of both alleles and simultaneously deliver a functional copy of the gene. Both AAV vector-mediated RNAi biallelic gene silencing and CRISPR/Cas9 biallelic gene editing were evaluated, with simultaneous add-back of a functional copy of the gene of interest. Engineered microRNA constructs and CRISPR/Cas9 constructs were evaluated for efficacy in target gene reduction. With both microRNA and CRISPR/Cas9 constructs, a promising reduction of protein expression for the target ADHL gene was observed. The data show no measurable decrease in the protein product of a codon-modified add-back target gene, suggesting that the microRNA and CRISPR/Cas9 constructs are selective for the intended endogenous sequence. The results build foundational platform capabilities which may be used to develop potential AAV vector-mediated therapies for many types of ADHL and other inner ear conditions.
The digital poster is located at https://akouos.com/gene-therapy-resources/.
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