Litcius/Paper detail

FACT-seq: profiling histone modifications in formalin-fixed paraffin-embedded samples with low cell numbers

Linxuan Zhao, Pengwei Xing, Vamsi Krishna Polavarapu, Miao Zhao, Blanca Valero-Martínez, Yonglong Dang, Nagaprathyusha Maturi, Lucy Mathot, Inês Neves, Irem Yildirim, Fredrik J. Swartling, Tobias Sjöblom, Lene Uhrbom, Xingqi Chen

2021Nucleic Acids Research30 citationsDOIOpen Access PDF

Abstract

The majority of biopsies in both basic research and translational cancer studies are preserved in the format of archived formalin-fixed paraffin-embedded (FFPE) samples. Profiling histone modifications in archived FFPE tissues is critically important to understand gene regulation in human disease. The required input for current genome-wide histone modification profiling studies from FFPE samples is either 10-20 tissue sections or whole tissue blocks, which prevents better resolved analyses. But it is desirable to consume a minimal amount of FFPE tissue sections in the analysis as clinical tissues of interest are limited. Here, we present FFPE tissue with antibody-guided chromatin tagmentation with sequencing (FACT-seq), the first highly sensitive method to efficiently profile histone modifications in FFPE tissues by combining a novel fusion protein of hyperactive Tn5 transposase and protein A (T7-pA-Tn5) transposition and T7 in vitro transcription. FACT-seq generates high-quality chromatin profiles from different histone modifications with low number of FFPE nuclei. We proved a very small piece of FFPE tissue section containing ∼4000 nuclei is sufficient to decode H3K27ac modifications with FACT-seq. H3K27ac FACT-seq revealed disease-specific super enhancers in the archived FFPE human colorectal and human glioblastoma cancer tissue. In summary, FACT-seq allows decoding the histone modifications in archival FFPE tissues with high sensitivity and help researchers to better understand epigenetic regulation in cancer and human disease.

Topics & Concepts

BiologyHistoneChromatinEpigeneticsEpigenomicsComputational biologyEnhancerGeneticsMolecular biologyGeneGene expressionDNA methylationGenomics and Chromatin DynamicsRNA modifications and cancerCancer-related molecular mechanisms research
FACT-seq: profiling histone modifications in formalin-fixed paraffin-embedded samples with low cell numbers | Litcius