Abstract
De novo, truncating variants of ASXL1 cause two distinct disorders: Bohring-Opitz Syndrome (BOS, OMIM #605039) a rare pediatric disorder characterized by multiorgan anomalies that disrupt normal brain, heart, and bone development causing severe intellectual disability or are somatic driver mutations causing acute myeloid leukemia(AML). Despite their distinct clinical presentations, we propose that ASXL1 mutations drive common epigenetic and transcriptomic dysregulation in BOS and AML. We analyzed DNA methylation (DNAm) and RNA-seq data from BOS patients (n=13) and controls (n=38) and publicly available DNAm of AML cases with (n=3) and without (n=3) ASXL1 mutations from The Cancer Genome Atlas (TCGA), and RNA-seq data from AML cases (n=27) from the Beat AML cohort. Using a DNA-methylation based episignature that we previously developed for BOS, we clustered AML, BOS and normal controls together. We showed that AML samples with ASXL1 mutations clustered closest to individuals with BOS, whereas individuals with AML without ASXL1 mutations clustered separately. We also observe common dysregulation of the transcriptome between BOS and AML with ASXL1 mutations compared to controls. Our transcriptomic analysis identified 821 significantly differentially expressed genes that were shared between both data sets and 74.9% showed differential expression in the same direction. BOS patients are rare and have some reports of tumors but no clear guidelines on cancer screening protocols. This represents the first direct comparison between distinct diseases that show common epigenetic and transcriptomic effects, and potentially common drug targets for patients harboring ASXL1 mutations on the epigenome and transcriptome.
KEY POINTS
Acute myeloid leukemias harboring somatic ASXL1 driver mutations and Bohring-Opitz syndrome caused by germline ASXL1 mutations share common epigenomic and transcriptomic dysregulation
A gene-centric approach can inform molecular mechanisms across distinct disease types and point towards shared targetable pathways.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Shortened version with additional details on methods and revamped text in results section. Also included supplemental tables that were mistakenly missing in previous version.