Efficient and safe therapeutic use of paired Cas9-nickases for primary hyperoxaluria type 1

Torella, Laura; Klermund, Julia; Bilbao-Arribas, Martin; Tamayo, Ibon; Andrieux, Geoffroy; Chmielewski, Kay O; Vales, Africa; Olagüe, Cristina; Moreno-Luqui, Daniel; Raimondi, Ivan; Abad, Amaya; Torrens-Baile, Julen; Salido, Eduardo; Huarte, Maite; Hernaez, Mikel; Boerries, Melanie; Cathomen, Toni; Zabaleta, Nerea; Gonzalez-Aseguinolaza, Gloria

doi:10.1038/s44321-023-00008-8

Article / EssayCC BY 4.0Tue Jan 16 2024Published

Efficient and safe therapeutic use of paired Cas9-nickases for primary hyperoxaluria type 1

Torella, Laura ; Klermund, Julia ; Bilbao-Arribas, Martin ; Tamayo, Ibon ; Andrieux, Geoffroy ; Chmielewski, Kay O ; Vales, Africa ; Olagüe, Cristina ; Moreno-Luqui, Daniel ; Raimondi, Ivan ; Abad, Amaya ; Torrens-Baile, Julen ; Salido, Eduardo ; Huarte, Maite ; Hernaez, Mikel ; Boerries, Melanie ; Cathomen, Toni ; Zabaleta, Nerea ; Gonzalez-Aseguinolaza, Gloria

Abstract The therapeutic use of adeno-associated viral vector (AAV)-mediated gene disruption using CRISPR-Cas9 is limited by potential off-target modifications and the risk of uncontrolled integration of vector genomes into CRISPR-mediated double-strand breaks. To address these concerns, we explored the use of AAV-delivered paired Staphylococcus aureus nickases (D10ASaCas9) to target the Hao1 gene for the treatment of primary hyperoxaluria type 1 (PH1). Our study demonstrated effective Hao1 gene disruption, a significant decrease in glycolate oxidase expression, and a therapeutic effect in PH1 mice. The assessment of undesired genetic modifications through CIRCLE-seq and CAST-Seq analyses revealed neither off-target activity nor chromosomal translocations. Importantly, the use of paired-D10ASaCas9 resulted in a significant reduction in AAV integration at the target site compared to SaCas9 nuclease. In addition, our study highlights the limitations of current analytical tools in characterizing modifications introduced by paired D10ASaCas9, necessitating the development of a custom pipeline for more accurate characterization. These results describe a positive advance towards a safe and effective potential long-term treatment for PH1 patients.

Synopsis In a mouse model of primary hyperoxaluria type 1, a single intravenous injection of AAV8 carrying the paired CRISPR-Cas9 nickases system targeting the Hao1 gene in hepatocytes resulted in efficient and safe gene disruption and a significant therapeutic effect. Paired Cas9 nickases demonstrated high editing efficiency, comparable to its nuclease counterpart. Even at the minimal tested AAV dose, therapeutic effects were achieved using the paired Cas9 nickases. Double-strand breaks (DSBs) induced by paired Cas9 nickases were primarily repaired through the microhomology-mediated end joining (MMEJ) pathway. In comparison to the nuclease variant, the paired Cas9 nickases showed notably fewer AAV integrations into the induced DSBs. Thorough analyses via CIRCLE-seq and CAST-Seq detected no signs of off-target activities or chromosomal translocations.

In a mouse model of primary hyperoxaluria type 1, a single intravenous injection of AAV8 carrying the paired CRISPR-Cas9 nickases system targeting the Hao1 gene in hepatocytes resulted in efficient and safe gene disruption and a significant therapeutic effect.