Leandros Boukas scite author profile

Coding variants in epigenetic regulators are emerging as causes of neurological dysfunction and cancer. However, a comprehensive effort to identify disease candidates within the human epigenetic machinery (EM) has not been performed; it is unclear whether features exist that distinguish between variation-intolerant and variation-tolerant EM genes, and between EM genes associated with neurological dysfunction versus cancer. Here, we rigorously define 295 genes with a direct role in epigenetic regulation (writers, erasers, remodelers, readers). Systematic exploration of these genes reveals that although individual enzymatic functions are always mutually exclusive, readers often also exhibit enzymatic activity (dual-function EM genes). We find that the majority of EM genes are very intolerant to loss-of-function variation, even when compared to the dosage sensitive transcription factors, and we identify 102 novel EM disease candidates. We show that this variation intolerance is driven by the protein domains encoding the epigenetic function, suggesting that disease is caused by a perturbed chromatin state. We then describe a large subset of EM genes that are coexpressed within multiple tissues. This subset is almost exclusively populated by extremely variation-intolerant genes and shows enrichment for dual-function EM genes. It is also highly enriched for genes associated with neurological dysfunction, even when accounting for dosage sensitivity, but not for cancer-associated EM genes. Finally, we show that regulatory regions near epigenetic regulators are genetically important for common neurological traits. These findings prioritize novel disease candidate EM genes and suggest that this coexpression plays a functional role in normal neurological homeostasis.

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Precocious chondrocyte differentiation disrupts skeletal growth in Kabuki syndrome mice

Fahrner¹,

Lin²,

Riddle³

et al. 2019

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At time points where the variance of the random effect was estimated equal to 0, we fit a fixed-effects model using the genotype only. Finally, within each time point, we performed the post hoc pairwise comparisons among the 3 different genotypes using the emmeans R package, and we corrected for multiple testing using Tukey's adjustment method.Study approval. All experiments using laboratory mice were performed in accordance with the NIH Guide for the Care and Use of Laboratory Animals

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Missense variants in the chromatin remodeler CHD1 are associated with neurodevelopmental disability

Pilarowski¹,

Vernon²,

Applegate

et al. 2017

J Med Genet

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The list of Mendelian disorders of the epigenetic machinery has expanded rapidly during the last five years. A few missense variants in the chromatin remodeler CHD1 have been found in several large scale sequencing efforts focused on uncovering the genetic etiology of autism. Here we describe CHD1 heterozygous missense variants in a cohort of patients with autism, speech apraxia, developmental delay and facial dysmorphic features. Importantly three of these variants occurred de novo. We also report on a patient with a de novo deletion covering a large fraction of the CHD1 gene without any obvious neurological phenotype. Our results suggest that variants in CHD1 can lead to diverse phenotypic outcomes; however, the neurodevelopmental phenotype appears to be limited to patients with missense variants, which is compatible with a dominant negative mechanism of disease.

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Precocious neuronal differentiation and disrupted oxygen responses in Kabuki syndrome

Carosso¹,

Boukas²,

Augustin³

et al. 2019

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Leandros Boukas

Coexpression patterns define epigenetic regulators associated with neurological dysfunction

Precocious chondrocyte differentiation disrupts skeletal growth in Kabuki syndrome mice

Missense variants in the chromatin remodeler CHD1 are associated with neurodevelopmental disability

Precocious neuronal differentiation and disrupted oxygen responses in Kabuki syndrome

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