Ocular Inflammatory Response to Intravitreal Injection of Adeno-Associated Virus Vector: Relative Contribution of Genome and Capsid.

Both subretinal dosing and intravitreal (IVT) dosing of adeno-associated virus (AAV) in higher species induce mild and transient inflammatory responses that increase with dose. Foreign protein and foreign DNA are known inducers of inflammation, which is also true in the immune-privileged ocular environment. We explored which component(s) of AAV vectors, viral capsid, or viral DNA drive inflammatory responses. Recombinant AAV with three tyrosine to phenylalanine substitutions in the capsid of AAV serotype 2 (rAAV2tYF), and with a generic ubiquitous promoter (cytomegalovirus [CMV]) controlling the expression of humanized green fluorescent protein (hGFP), was processed to enrich for AAV capsids containing genome (full capsids), capsids without genome (empty capsids), and residual material. Nonhuman primate eyes were injected by IVT in both eyes. During in-life, ocular inflammation and development of neutralizing antibodies (NAb) were measured. Following termination, lymph node immunophenotyping was performed, vitreous was processed for cytokine and RNAseq analyses, and ocular sections were assessed for transgene expression (by in situ hybridization) and histopathology. IVT dosing of AAV vectors transiently raised cellular inflammation in the aqueous and induced a more sustained inflammation in the vitreous. Lowering the total capsid dose by removing empty AAV capsids reduced inflammation and improved viral transduction. IVT dosing of AAV induced systemic NAb to AAV irrespective of the vector preparation. Similarly, lymph node immunophenotyping revealed identical profiles irrespective of viral preparation used for dosing. Immune cells in the vitreous were identified based on RNAseq analysis. Three months postdose, cytokine levels were low, indicative of minimal levels of inflammation in agreement with histopathological assessment of the retina.

Safety and Biodistribution Evaluation in Cynomolgus Macaques of rAAV2tYF-PR1.7-hCNGB3, a Recombinant AAV Vector for Treatment of Achromatopsia.

Applied Genetic Technologies Corporation (AGTC) is developing rAAV2tYF-PR1.7-hCNGB3, a recombinant adeno-associated viral (rAAV) vector expressing the human CNGB3 gene, for treatment of achromatopsia, an inherited retinal disorder characterized by markedly reduced visual acuity, extreme light sensitivity, and absence of color discrimination. We report here results of a study evaluating the safety and biodistribution of rAAV2tYF-PR1.7-hCNGB3 in cynomolgus macaques. Three groups of animals (n = 2 males and 2 females per group) received a subretinal injection in one eye of 300 µl containing either vehicle or rAAV2tYF-PR1.7-hCNGB3 at one of two concentrations (4 × 10(11) or 4 × 10(12) vector genomes/ml) and were evaluated over a 3-month period before being euthanized. Administration of rAAV2tYF-PR1.7-hCNGB3 was associated with a dose-related anterior and posterior segment inflammatory response that was greater than that observed in eyes injected with the vehicle control. Most manifestations of inflammation improved over time except that vitreous cells persisted in vector-treated eyes until the end of the study. One animal in the lower vector dose group was euthanized on study day 5, based on a clinical diagnosis of endophthalmitis. There were no test article-related effects on intraocular pressure, visual evoked potential responses, hematology or clinical chemistry parameters, or gross necropsy observations. Histopathological examination demonstrated minimal mononuclear infiltrates in all vector-injected eyes. Serum anti-AAV antibodies developed in all vector-injected animals. No animals developed antibodies to CNGB3. Biodistribution studies demonstrated high levels of vector DNA in the injected eye but minimal or no vector DNA in any other tissue. These results support the use of rAAV2tYF-PR1.7-hCNGB3 in clinical studies in patients with achromatopsia caused by CNGB3 mutations.