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Genetic Rescue of X-Linked Retinoschisis Mouse ( Rs1 -/y ) Retina Induces Quiescence of the Retinal Microglial Inflammatory State Following AAV8- RS1 Gene Transfer and Identifies Gene Networks Underlying Retinal Recovery
Ist Teil von
Human gene therapy, 2021-07, Vol.32 (13-14), p.667-681
Ort / Verlag
United States
Erscheinungsjahr
2021
Quelle
MEDLINE
Beschreibungen/Notizen
To understand
gene interaction networks in the X-linked retinoschisis (XLRS) mouse retina (
), we analyzed the transcriptome by RNA sequencing before and after
expression of exogenous retinoschisin (
) gene delivered by AAV8. RS1 is a secreted cell adhesion protein that is critical for maintaining structural lamination and synaptic integrity of the neural retina.
loss-of-function mutations cause XLRS disease in young boys and men, with splitting ("schisis") of retinal layers and synaptic dysfunction that cause progressive vision loss with age. Analysis of differential gene expression profiles and pathway enrichment analysis of
-KO (
) retina identified cell surface receptor signaling and positive regulation of cell adhesion as potential
gene interaction networks. Most importantly, it also showed massive dysregulation of immune response genes at early age, with characteristics of a microglia-driven proinflammatory state. Delivery of AAV8-
primed the
-KO retina toward structural and functional recovery. The disease transcriptome transitioned toward a recovery phase with upregulation of genes implicated in wound healing, anatomical structure (camera type eye) development, metabolic pathways, and collagen IV networks that provide mechanical stability to basement membrane. AAV8-
expression also attenuated the microglia gene signatures to low levels toward immune quiescence. This study is among the first to identify
gene interaction networks that underlie retinal structural and functional recovery after
gene therapy. Significantly, it also shows that providing wild-type
gene function caused the retina immune status to transition from a degenerative inflammatory phenotype toward immune quiescence, even though the transgene is not directly linked to microglia function. This study indicates that inhibition of microglial proinflammatory responses is an integral part of therapeutic rescue in XLRS gene therapy, and gene therapy might realize its full potential if delivered before microglia activation and photoreceptor cell death. Clinical Trials. gov Identifier NTC 02317887.