Targeted Repair of CYBB in X-CGD iPSCs Requires Retention of Intronic Sequences for Expression and Functional Correction.

2017
https://researcherprofiles.org/profile/383941904
28153086
Sweeney CL, Zou J, Choi U, Merling RK, Liu A, Bodansky A, Burkett S, Kim JW, De Ravin SS, Malech HL
Abstract

X-linked chronic granulomatous disease (X-CGD) is an immune deficiency resulting from defective production of microbicidal reactive oxygen species (ROS) by phagocytes. Causative mutations occur throughout the CYBB gene, resulting in absent or defective gp91 protein expression. To correct CYBB exon 5 mutations while retaining normal gene regulation, we utilized TALEN or Cas9 for exon 5 replacement in induced pluripotent stem cells (iPSCs) from patients, which restored gp91 expression and ROS production in iPSC-derived granulocytes. Alternate approaches for correcting the majority of X-CGD mutations were assessed, involving TALEN- or Cas9-mediated insertion of CYBB minigenes at exon 1 or 2 of the CYBB locus. Targeted insertion of an exon 1-13 minigene into CYBB exon 1 resulted in no detectable gp91 expression or ROS activity in iPSC-derived granulocytes. In contrast, targeted insertion of an exon 2-13 minigene into exon 2 restored both gp91 and ROS activity. This demonstrates the efficacy of two correction strategies: seamless repair of specific CYBB mutations by exon replacement or targeted insertion of an exon 2-13 minigene to CYBB exon 2 while retaining exon/intron 1. Furthermore, it highlights a key issue for targeted insertion strategies for expression from an endogenous promoter: retention of intronic elements can be necessary for expression.

Journal Issue
Volume 25 of Issue 2