Germline gain-of-function mutations in AFF4 cause a developmental syndrome functionally linking the super elongation complex and cohesin.
Kosuke IzumiRyuichiro NakatoZhe ZhangAndrew C EdmondsonSarah NoonMatthew C DulikRamakrishnan RajagopalanCharles P VendittiKaren W GrippJoy SamanichElaine H ZackaiMatthew A DeardorffDinah ClarkJulian L AllenDale DorsettZiva MisulovinMakiko KomataMasashige BandoManinder KaurYuki KatouKatsuhiko ShirahigeIan D KrantzPublished in: Nature genetics (2015)
Transcriptional elongation is critical for gene expression regulation during embryogenesis. The super elongation complex (SEC) governs this process by mobilizing paused RNA polymerase II (RNAP2). Using exome sequencing, we discovered missense mutations in AFF4, a core component of the SEC, in three unrelated probands with a new syndrome that phenotypically overlaps Cornelia de Lange syndrome (CdLS) that we have named CHOPS syndrome (C for cognitive impairment and coarse facies, H for heart defects, O for obesity, P for pulmonary involvement and S for short stature and skeletal dysplasia). Transcriptome and chromatin immunoprecipitation sequencing (ChIP-seq) analyses demonstrated similar alterations of genome-wide binding of AFF4, cohesin and RNAP2 in CdLS and CHOPS syndrome. Direct molecular interaction of the SEC, cohesin and RNAP2 was demonstrated. These data support a common molecular pathogenesis for CHOPS syndrome and CdLS caused by disturbance of transcriptional elongation due to alterations in genome-wide binding of AFF4 and cohesin.
Keyphrases
- genome wide
- gene expression
- dna methylation
- case report
- single cell
- cognitive impairment
- transcription factor
- metabolic syndrome
- heart failure
- type diabetes
- rna seq
- dna damage
- pulmonary hypertension
- autism spectrum disorder
- deep learning
- cord blood
- heat shock
- intellectual disability
- dna repair
- big data
- molecular dynamics simulations
- dna binding
- growth hormone