RT Journal Article
SR Electronic
T1 Partial FMRP Expression is sufficient to normalize neuronal hyperactivity in Fragile X neurons
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 608331
DO 10.1101/608331
A1 John D. Graef
A1 Hao Wu
A1 Carrie Ng
A1 Chicheng Sun
A1 Vivian Villegas
A1 Deena Qadir
A1 Kimberly Jesseman
A1 Stephen T. Warren
A1 Rudolf Jaenisch
A1 Angela Cacace
A1 Owen Wallace
YR 2019
UL http://biorxiv.org/content/early/2019/04/13/608331.abstract
AB Fragile X Syndrome (FXS) is the most common genetic form of intellectual disability caused by a CGG repeat expansion in the 5’-UTR of the Fragile X mental retardation gene FMR1, triggering epigenetic silencing and the subsequent absence of the protein, FMRP. Reactivation of FMR1 represents an attractive therapeutic strategy targeting the genetic root cause of FXS. However, largely missing in the FXS field is an understanding of how much FMR1 reactivation is required to rescue FMRP-dependent mutant phenotypes. Here, we utilize FXS patient derived excitatory neurons to model FXS in vitro and confirm that the absence of FMRP leads to neuronal hyperactivity. We further determined the levels of FMRP and the percentage of FMRP positive cells necessary to correct this phenotype utilizing a mixed and mosaic neuronal culture system and a combination of CRISPR, antisense and expression technologies to titrate FMRP in FXS and WT neurons. Our data demonstrate that restoration of greater than 5% of overall FMRP expression levels or greater than 20% FMRP expressing neurons in a mosaic pattern is sufficient to normalize a FMRP-dependent, hyperactive phenotype in FXS iPSC-derived neurons.HighlightsCRISPR gene editing to generate FMRP KO and CGG-deleted isogenic iPSCsMEA as an approach to identify FMR1 dependent phenotype in NGN2 neurons derived from FXS and FMRP KO iPSCsCell mixing paradigm as mosaicism in a dish to rescue phenotypeMinimal level of FMRP determined by FMR1 mRNA and targeted demethylation of CGG repeats to correct the hyperactive phenotype in FXS neuronsASO titration-validated partial expression of FMRP is sufficient to normalize increased neuronal activity