cDNA microarray assays to evaluate immune responses following intracranial injection of baculoviral vectors in non-human primates

Recombinant insect baculoviral vectors efficiently transduce several types of cells in the brain and can possibly be used in gene therapy for brain disorders. However, together with contaminating insect cell proteins, they trigger immune responses that might damage host brain cells. To substantially reduce unwanted immune responses due to the insect cell impurities, we purified and concentrated baculoviral vectors by combining an ion-exchange membrane chromatography method with high-speed centrifugation and demonstrated reduced immune responses of the vector preparations in the mouse brain. To verify the suitability of using these viral vectors for gene therapy strategies in the brain, we evaluated immune reactions and vector toxicity upon acute administration of baculoviral vectors into the brains of cynomolgus macaques. We demonstrated that the virus inoculation caused no abnormalities to non-human primates but induced host antiviral responses in the brain. With global cellular gene expression profiling, using cDNA microarray technology, we detected that the affected genes were mainly associated with innate immunity, involving the genes of RIG-1-like receptor signaling pathway as the major interferon production pathway. These findings in non-human primates, which share close physiological and genomic similarities with man, may better mimic the responses to baculoviral transduction in the human brain and should be useful in guiding rational therapeutic applications of baculoviral vectors to treat brain disorders.