Teresa T. Yiu scite author profile

Recognition of modified histone species by distinct structural domains within “reader” proteins plays a critical role in the regulation of gene expression. Readers that simultaneously recognize histones with multiple marks allow transduction of complex chromatin modification patterns into specific biological outcomes. Here, we report that chromatin regulator TRIM24 functions as a reader of dual histone marks via tandem Plant Homeodomain (PHD) and Bromodomain (Bromo). The three-dimensional structure of TRIM24 PHD-Bromo revealed a single functional unit for combinatorial recognition of unmodified H3K4 (H3K4me0) and acetylated H3K23 (H3K23ac) within the same histone tail. TRIM24 binds chromatin and estrogen receptor to activate estrogen-dependent genes associated with cellular proliferation and tumor development. Aberrant expression of TRIM24 negatively correlates with survival of breast cancer patients. The PHD-Bromo of TRIM24 provides a structural rationale for chromatin activation via a noncanonical histone signature, establishing a new paradigm by which chromatin readers may influence cancer pathogenesis.

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Nonpeptidic Propargylamines as Inhibitors of Lysine Specific Demethylase 1 (LSD1) with Cellular Activity

Schmitt

Hauser

Carlino

et al. 2013

J. Med. Chem.

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Lysine demethylases play an important role in epigenetic regulation and thus in the development of diseases like cancer or neurodegenerative disorders. As the lysine specific demethylase 1 (LSD1/KDM1) has been strongly connected to androgen and estrogen dependent gene expression, it serves as a promising target for the therapy of hormone dependent cancer. Here, we report on the discovery of new small molecule inhibitors of LSD1 containing a propargylamine warhead, starting out from lysine containing substrate analogues. Based on these substrate mimicking inhibitors we were able to increase potency by a combination of similarity-based virtual screening and subsequent synthetic optimization resulting in more druglike LSD1 inhibitors that lead to histone hypermethylation in breast cancer cells.

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Pediatric Cancer Epigenome and the Influence of Folate

Yiu

Wei

2015

Epigenomics

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Despite improvement in clinical treatment of childhood cancer, it remains the leading cause of disease-related mortality in children with survivors often suffering from treatment-related toxicity and premature death. Because childhood cancer is vastly different from cancer in adults, a thorough understanding of the underlying molecular mechanisms specific to childhood cancer is essential. Although childhood cancer contains much fewer mutations, a subset of cancer subtypes has a higher frequency of mutations in gene encoding epigenetic regulators. Thus, in this review, we will focus on epigenetic deregulations in childhood cancers, the use of genomewide analysis for cancer subtype classification, prediction of clinical outcomes and the influence of folate on epigenetic mechanisms.

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Maternal folate genes and aberrant DNA hypermethylation in pediatric acute lymphoblastic leukemia

et al. 2018

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BackgroundThere is evidence that maternal genotypes in folate-related genes are associated with pediatric acute lymphoblastic leukemia (ALL) independent of offspring genotype. We evaluated the relationship between maternal genotypes in methionine synthase (MTR) and DNA methylation status in ALL to better characterize the molecular mechanism underlying this association.ProcedureWe obtained bone marrow samples from 51 patients with ALL at diagnosis and from 6 healthy donors. Mothers of patients provided a saliva sample and were genotyped at 11 tagSNPs in MTR. DNA methylation was measured in bone marrow mononuclear cells of patients and six healthy marrow donors. We used hierarchical clustering to identify patients with a hypermethylator phenotype based on 281 differentially methylated promoter CpGs. We used logistic regression to estimate the effects of maternal genotype on the likelihood of DNA hypermethylation in ALL and Ingenuity Pathway Analysis to identify networks enriched for differentially methylated genes.ResultsTwenty-two cases (43%) demonstrated promoter hypermethylation, which was more frequent among those with ETV6-RUNX1 fusion and initial white blood cell count < 50 x 109/L. Maternal rs12759827 was associated with aberrant DNA methylation (odds ratio [OR] 4.67, 95% confidence interval 1.46–16.31); non-significantly elevated ORs were observed for all other SNPs. Aberrantly methylated promoter CpGs aligned to genes with known cancer-related functions.DiscussionMaternal folate metabolic genotype may be associated with DNA methylation patterns in ALL in their offspring. Therefore, the effect of maternal genotypes on ALL susceptibility may act through aberrant promoter methylation, which may contribute to the in utero origins of ALL.

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Teresa T. Yiu

TRIM24 links a non-canonical histone signature to breast cancer

Nonpeptidic Propargylamines as Inhibitors of Lysine Specific Demethylase 1 (LSD1) with Cellular Activity

Pediatric Cancer Epigenome and the Influence of Folate

Maternal folate genes and aberrant DNA hypermethylation in pediatric acute lymphoblastic leukemia

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