Histone Profiling of Normal B-Precursors and Primary Pre-B Acute Lymphoblastic Leukemia Reveals Distinct Aberrant Histone Codes In MLL-Rearranged Vs. Wild Type MLL Leukemias That Correlate with Differential Expression of Key MLL Target Genes

Abstract 2503 Epigenetic regulation of gene transcription is mediated both by methylation of DNA CpG islands and the local configuration of chromatin, which is dynamically regulated by post-translational modifications, or “marks”, of key lysines (K) of histones (especially H3). Some marks are associated with transcriptional repression [trimethylation (me3) of K9 and K27], and some with activation [me3 of K4, dimethylation (me2) of K79 and acetylation (Ac) of K9 and K14]. The MLL gene encodes a protein that functions as a master regulator of target gene expression by methylating H3K4 via its SET domain, and by interacting with other proteins with histone modifying properties. MLL is frequently rearranged (MLL-r) by translocations in acute leukemias, which exhibit a distinct global gene expression pattern. Many MLL-r partner genes form complexes that can methylate H3K79. Thus, histone modifications may be central to the function of both wild type (MLL-wt) and MLL-r. We hypothesized that aberrant histone coding of target genes contributes to MLL-r leukemogenesis. We characterized the histone code associated with the promoters of selected genes in n=5 MLL-r pre-B ALL samples (MLL-AF4 or MLL-ENL), n=4 MLL-wt pre-B ALL samples (TEL-AML1 or hyperdiploid) and normal control B-precursors (CD19+ cord blood cells). We selected 9 genes differentially overexpressed in MLL-r leukemia (HOXA7, HOXA9, MEIS1, FLT3, CCNA1, ZC3H12C, ATP8B4, C20orf103, and PROM1), and 3 control genes that are not MLL targets (HOXA1, HOXC8, LTF). We performed ChIP with antibodies specific for key H3 modifications (K4me3, K9me3, K9/14Ac, K27me3 and K79me2), followed by qPCR for the selected genes. Expression was measured by RT/qPCR. All 9 MLL target genes were significantly overexpressed in the MLL-r cohort, and this was associated with a specific “activating” histone code at the genes' promoters (fig 1 – MEIS1, e.g.). The opposite “repressive” code was found in the MLL-wt cohort, and in the MLL-r cohort at the promoters of the control genes. Compared to both sets of leukemias, normal B-precursors exhibited a paucity of histone modifications for all genes. For most genes, a specific developmental pattern of alterations in the histone code and corresponding relative change in expression could be traced from the normal B-precursors to the leukemia cells. This pattern was strikingly different in MLL-r leukemias than in MLL-wt leukemias, suggesting that the acquisition of MLL-r by normal B-precursors causes altered gene expression patterns via changes in the histone code. For most genes, normal B-precursors exhibit both the activating K4me3 mark and the repressive K27me3 mark, and express low but detectable levels of RNA. In MLL-r leukemias, upregulation of genes is associated with an increase in K4me3, loss of K27me3, and gain of K9/14Ac and/or K79me2. In MLL-wt leukemias, silencing of genes is associated with loss of K4me3 and gain of K9me3. To study the direct effects of MLL-wt and MLL-r on the histone code, we used 2 rounds of siRNA over 48 hours to knock down MLL-AF4 only, MLL-wt only or both in the RS4;11 cell line (MLL-AF4+ B-precursor ALL), then performed RT/qPCR and ChIP/qPCR. We achieved at least 60% knock down of MLL-AF4 and/or MLL-wt. Knock down of MLL-wt, with or without concomitant knock down of MLL-AF4, did not diminish the K4me3 mark for any genes, suggesting that MLL's SET domain is not required to maintain K4 methylation. While knock down of MLL-AF4 or MLL-wt alone did not diminish K79 methylation, knock down of both completely removed the K79me2 mark from all genes, suggesting that expression of either MLL-wt or MLL-AF4 is absolutely required for H3K79 methyltransferase activity. Two genes (HOXA7 and PROM1) demonstrated evidence of direct transcriptional regulation by MLL-AF4, since their expression decreased markedly after knock down of MLL-AF4 alone or with MLL-wt, but not with MLL-wt alone. In summary, primary MLL-r pre-B ALLs exhibit a distinct activating histone code at key overexpressed target genes when compared to MLL-wt pre-B ALLs and normal B-precursors. A causative role for MLL fusion proteins is suggested by the distinct pattern of histone code progression from normal B-precursors to MLL-r leukemias. Furthermore, knock down experiments provide direct evidence that some of the observed histone modifications in MLL-r leukemia, particularly H3K79 methylation, are directly downstream of wild type and mutant MLL. Disclosures: No relevant conflicts of interest to declare.

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Differential chromatin accessibility landscape of gain-of-function mutant p53 tumours

BMC Cancer ◽

10.1186/s12885-021-08362-x ◽

2021 ◽

Vol 21 (1) ◽

Author(s):

Bhavya Dhaka ◽

Radhakrishnan Sabarinathan

Keyword(s):

Gene Expression ◽

Target Genes ◽

Expression Patterns ◽

Chromatin Accessibility ◽

The Cancer Genome Atlas ◽

Mutant P53 ◽

Wild Type ◽

Gain Of Function ◽

Colon Cancers ◽

The Impact

Abstract Background Mutations in TP53 not only affect its tumour suppressor activity but also exerts oncogenic gain-of-function activity. While the genome-wide mutant p53 binding sites have been identified in cancer cell lines, the chromatin accessibility landscape driven by mutant p53 in primary tumours is unknown. Here, we leveraged the chromatin accessibility data of primary tumours from The Cancer Genome Atlas (TCGA) to identify differentially accessible regions in mutant p53 tumours compared to wild-type p53 tumours, especially in breast and colon cancers. Results We identified 1587 lost and 984 gained accessible chromatin regions in breast, and 1143 lost and 640 gained regions in colon cancers. However, only less than half of those regions in both cancer types contain sequence motifs for wild-type or mutant p53 binding. Whereas, the remaining showed enrichment for master transcriptional regulators, such as FOX-Family TFs and NF-kB in lost and SMAD and KLF TFs in gained regions of breast. In colon, ATF3 and FOS/JUN TFs were enriched in lost, and CDX family TFs and HNF4A in gained regions. By integrating the gene expression data, we identified known and novel target genes regulated by the mutant p53. Conclusion This study reveals the direct and indirect mechanisms by which gain-of-function mutant p53 targets the chromatin and subsequent gene expression patterns in a tumour-type specific manner. This furthers our understanding of the impact of mutant p53 in cancer development.

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Histone modifications form a cell-type-specific chromosomal bar code that persists through the cell cycle

Scientific Reports ◽

10.1038/s41598-021-82539-z ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

John A. Halsall ◽

Simon Andrews ◽

Felix Krueger ◽

Charlotte E. Rutledge ◽

Gabriella Ficz ◽

...

Keyword(s):

Gene Expression ◽

Cell Cycle ◽

Histone Modifications ◽

Expression Patterns ◽

Cell Types ◽

Cell Type ◽

Bar Code ◽

Genes Encoding ◽

Cell Type Specific ◽

Rolling Windows

AbstractChromatin configuration influences gene expression in eukaryotes at multiple levels, from individual nucleosomes to chromatin domains several Mb long. Post-translational modifications (PTM) of core histones seem to be involved in chromatin structural transitions, but how remains unclear. To explore this, we used ChIP-seq and two cell types, HeLa and lymphoblastoid (LCL), to define how changes in chromatin packaging through the cell cycle influence the distributions of three transcription-associated histone modifications, H3K9ac, H3K4me3 and H3K27me3. We show that chromosome regions (bands) of 10–50 Mb, detectable by immunofluorescence microscopy of metaphase (M) chromosomes, are also present in G1 and G2. They comprise 1–5 Mb sub-bands that differ between HeLa and LCL but remain consistent through the cell cycle. The same sub-bands are defined by H3K9ac and H3K4me3, while H3K27me3 spreads more widely. We found little change between cell cycle phases, whether compared by 5 Kb rolling windows or when analysis was restricted to functional elements such as transcription start sites and topologically associating domains. Only a small number of genes showed cell-cycle related changes: at genes encoding proteins involved in mitosis, H3K9 became highly acetylated in G2M, possibly because of ongoing transcription. In conclusion, modified histone isoforms H3K9ac, H3K4me3 and H3K27me3 exhibit a characteristic genomic distribution at resolutions of 1 Mb and below that differs between HeLa and lymphoblastoid cells but remains remarkably consistent through the cell cycle. We suggest that this cell-type-specific chromosomal bar-code is part of a homeostatic mechanism by which cells retain their characteristic gene expression patterns, and hence their identity, through multiple mitoses.

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Gene expression profiling of epigenetic chromatin modification enzymes and histone marks by cigarette smoke: implications for COPD and lung cancer

AJP Lung Cellular and Molecular Physiology ◽

10.1152/ajplung.00253.2016 ◽

2016 ◽

Vol 311 (6) ◽

pp. L1245-L1258 ◽

Cited By ~ 19

Author(s):

Isaac K. Sundar ◽

Irfan Rahman

Keyword(s):

Gene Expression ◽

Lung Cancer ◽

Dna Methylation ◽

Cigarette Smoke ◽

Histone Modifications ◽

Expression Patterns ◽

Chromatin Modification ◽

Gene Expression Patterns ◽

Validation Data ◽

Histone Marks

Chromatin-modifying enzymes mediate DNA methylation and histone modifications on recruitment to specific target gene loci in response to various stimuli. The key enzymes that regulate chromatin accessibility for maintenance of modifications in DNA and histones, and for modulation of gene expression patterns in response to cigarette smoke (CS), are not known. We hypothesize that CS exposure alters the gene expression patterns of chromatin-modifying enzymes, which then affects multiple downstream pathways involved in the response to CS. We have, therefore, analyzed chromatin-modifying enzyme profiles and validated by quantitative real-time PCR (qPCR). We also performed immunoblot analysis of targeted histone marks in C57BL/6J mice exposed to acute and subchronic CS, and of lungs from nonsmokers, smokers, and patients with chronic obstructive pulmonary disease (COPD). We found a significant increase in expression of several chromatin modification enzymes, including DNA methyltransferases, histone acetyltransferases, histone methyltransferases, and SET domain proteins, histone kinases, and ubiquitinases. Our qPCR validation data revealed a significant downregulation of Dnmt1, Dnmt3a, Dnmt3b, Hdac2, Hdac4, Hat1, Prmt1, and Aurkb. We identified targeted chromatin histone marks (H3K56ac and H4K12ac), which are induced by CS. Thus CS-induced genotoxic stress differentially affects the expression of epigenetic modulators that regulate transcription of target genes via DNA methylation and site-specific histone modifications. This may have implications in devising epigenetic-based therapies for COPD and lung cancer.

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Alterations of Growth and Focal Adhesion Molecules in Human Breast Cancer Cells Exposed to the Random Positioning Machine

Frontiers in Cell and Developmental Biology ◽

10.3389/fcell.2021.672098 ◽

2021 ◽

Vol 9 ◽

Author(s):

Jayashree Sahana ◽

Thomas J. Corydon ◽

Markus Wehland ◽

Marcus Krüger ◽

Sascha Kopp ◽

...

Keyword(s):

Breast Cancer ◽

Gene Expression ◽

Target Genes ◽

Interaction Analysis ◽

Expression Patterns ◽

Focal Adhesions ◽

Multicellular Spheroids ◽

Down Regulation ◽

Random Positioning Machine ◽

Mcf 7

In this study, we evaluated changes in focal adhesions (FAs) in two types of breast cancer cell (BCC) lines (differentiated MCF-7 and the triple-negative MDA-MB-231 cell line) exposed to simulated microgravity (s-μg) created by a random positioning machine (RPM) for 24 h. After exposure, the BCC changed their growth behavior and exhibited two phenotypes in RPM samples: one portion of the cells grew as a normal two-dimensional monolayer [adherent (AD) BCC], while the other portion formed three-dimensional (3D) multicellular spheroids (MCS). After 1 h and 30 min (MDA-MB-231) and 1 h 40 min (MCF-7), the MCS adhered completely to the slide flask bottom. After 2 h, MDA-MB-231 MCS cells started to migrate, and after 6 h, a large number of the cells had left the MCS and continued to grow in a scattered pattern, whereas MCF-7 cells were growing as a confluent monolayer after 6 h and 24 h. We investigated the genes associated with the cytoskeleton, the extracellular matrix and FAs. ACTB, TUBB, FN1, FAK1, and PXN gene expression patterns were not significantly changed in MDA-MB-231 cells, but we observed a down-regulation of LAMA3, ITGB1 mRNAs in AD cells and of ITGB1, TLN1 and VCL mRNAs in MDA-MB-231 MCS. RPM-exposed MCF-7 cells revealed a down-regulation in the gene expression of FAK1, PXN, TLN1, VCL and CDH1 in AD cells and PXN, TLN and CDH1 in MCS. An interaction analysis of the examined genes involved in 3D growth and adhesion indicated a central role of fibronectin, vinculin, and E-cadherin. Live cell imaging of eGFP-vinculin in MCF-7 cells confirmed these findings. β-catenin-transfected MCF-7 cells revealed a nuclear expression in 1g and RPM-AD cells. The target genes BCL9, MYC and JUN of the Wnt/β-catenin signaling pathway were differentially expressed in RPM-exposed MCF-7 cells. These findings suggest that vinculin and β-catenin are key mediators of BCC to form MCS during 24 h of RPM-exposure.

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Sonic hedgehog is not required for polarising activity in the Doublefoot mutant mouse limb bud

Development ◽

10.1242/dev.125.3.351 ◽

1998 ◽

Vol 125 (3) ◽

pp. 351-357 ◽

Cited By ~ 2

Author(s):

C. Hayes ◽

J.M. Brown ◽

M.F. Lyon ◽

G.M. Morriss-Kay

Keyword(s):

Gene Expression ◽

Limb Development ◽

Target Genes ◽

Anterior Part ◽

Expression Patterns ◽

Ectopic Expression ◽

Mutant Gene ◽

Limb Bud ◽

Active Constituent ◽

Limb Buds

The mouse mutant Doublefoot (Dbf) shows preaxial polydactyly of all four limbs. We have analysed limb development in this mutant with respect to morphogenesis, gene expression patterns and ectopic polarising activity. The results reveal a gain-of-function mutation at a locus that mediates pattern formation in the developing limb. Shh expression is identical with that of wild-type embryos, i.e. there is no ectopic expression. However, mesenchyme from the anterior aspects of Dbf/+ mutant limb buds, when transplanted to the anterior side of chick wing buds, induces duplication of the distal skeletal elements. Mid-distal mesenchymal transplants from early, but not later, Dbf/+ limb buds are also able to induce duplication. This demonstration of polarising activity in the absence of Shh expression identifies the gene at the Dbf locus as a new genetic component of the Shh signalling pathway, which (at least in its mutated form) is able to activate signal transduction independently of Shh. The mutant gene product is sufficient to fulfil the signalling properties of Shh including upregulation of the direct Shh target genes Ptc and Gli, and induction of the downstream target genes Bmp2, Fgf4 and Hoxd13. The expression domains of all these genes extend from their normal posterior domains into the anterior part of the limb bud without being focused on a discrete ectopic site. These observations dissociate polarising activity from Shh gene expression in the Dbf/+ limb bud. We suggest that the product of the normal Dbf gene is a key active constituent of the polarising region, possibly acting in the extracellular compartment.

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Role of the Hypoxia-Inducible Factor Pathway in Normal and Osteoarthritic Meniscus and in Mice after Destabilization of the Medial Meniscus

Cartilage ◽

10.1177/1947603520958143 ◽

2020 ◽

pp. 194760352095814

Author(s):

Austin V. Stone ◽

Richard F. Loeser ◽

Michael F. Callahan ◽

Margaret A. McNulty ◽

David L. Long ◽

...

Keyword(s):

Gene Expression ◽

Target Genes ◽

Medial Meniscus ◽

Transforming Growth Factor ◽

Hypoxia Inducible Factor ◽

Early Time ◽

Wild Type ◽

Inflammatory Stimuli ◽

Hif Pathway

Objective Meniscus injury and the hypoxia-inducible factor (HIF) pathway are independently linked to osteoarthritis pathogenesis, but the role of the meniscus HIF pathway remains unclear. We sought to identify and evaluate HIF pathway response in normal and osteoarthritic meniscus and to examine the effects of Epas1 (HIF-2α) insufficiency in mice on early osteoarthritis development. Methods Normal and osteoarthritic human meniscus specimens were obtained and used for immunohistochemical evaluation and cell culture studies for the HIF pathway. Meniscus cells were treated with pro-inflammatory stimuli, including interleukins (IL)-1β, IL-6, transforming growth factor (TGF)-α, and fibronectin fragments (FnF). Target genes were also evaluated with HIF-1α and HIF-2α (Epas1) overexpression and knockdown. Wild-type ( n = 36) and Epas1+/− ( n = 30) heterozygous mice underwent destabilization of the medial meniscus (DMM) surgery and were evaluated at 2 and 4 weeks postoperatively for osteoarthritis development using histology. Results HIF-1α and HIF-2α immunostaining and gene expression did not differ between normal and osteoarthritic meniscus. While pro-inflammatory stimulation significantly increased both catabolic and anabolic gene expression in the meniscus, HIF-1α and Epas1 expression levels were not significantly altered. Epas1 overexpression significantly increased Col2a1 expression. Both wild-type and Epas1+/− mice developed osteoarthritis following DMM surgery. There were no significant differences between genotypes at either time point. Conclusion The HIF pathway is likely not responsible for osteoarthritic changes in the human meniscus. Additionally, Epas1 insufficiency does not protect against osteoarthritis development in the mouse at early time points after DMM surgery. The HIF pathway may be more important for protection against catabolic stress.

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RNAseq Studies Reveal Distinct Transcriptional Response to Vitamin a (VA) Deficiency in Small Intestine (SI) versus Colon, Discovering Novel VA-regulated Genes (P15-002-19)

Current Developments in Nutrition ◽

10.1093/cdn/nzz037.p15-002-19 ◽

2019 ◽

Vol 3 (Supplement_1) ◽

Author(s):

Zhi Chai ◽

Yafei Lyu ◽

Qiuyan Chen ◽

Cheng-Hsin Wei ◽

Lindsay Snyder ◽

...

Keyword(s):

Gene Expression ◽

Small Intestine ◽

Vitamin A ◽

Target Genes ◽

Expression Profiles ◽

Expression Patterns ◽

Differentially Expressed Gene ◽

Gene Expression Profiles ◽

Illumina Hiseq ◽

The Impact

Abstract Objectives To characterize and compare the impact of vitamin A (VA) deficiency on gene expression patterns in the small intestine (SI) and the colon, and to discover novel target genes in VA-related biological pathways. Methods vitamin A deficient (VAD) mice were generated by feeding VAD diet to pregnant C57/BL6 dams and their post-weaning offspring. Total mRNA extracted from SI and colon were sequenced using Illumina HiSeq 2500 platform. Differentially Expressed Gene (DEG), Gene Ontology (GO) enrichment, and Weighted Gene Co-expression Network Analysis (WGCNA) were performed to characterize expression patterns and co-expression patterns. Results The comparison between vitamin A sufficient (VAS) and VAD groups detected 49 and 94 DEGs in SI and colon, respectively. According to GO information, DEGs in the SI demonstrated significant enrichment in categories relevant to retinoid metabolic process, molecule binding, and immune function. Immunity related pathways, such as “humoral immune response” and “complement activation,” were positively associated with VA in SI. On the contrary, in colon, “cell division” was the only enriched category and was negatively associated with VA. WGCNA identified modules significantly correlated with VA status in SI and in colon. One of those modules contained five known retinoic acid targets. Therefore we have prioritized the other module members (e.g., Mbl2, Mmp9, Mmp13, Cxcl14 and Pkd1l2) to be investigated as candidate genes regulated by VA. Comparison of co-expression modules between SI and colon indicated distinct VA effects on these two organs. Conclusions The results show that VA deficiency alters the gene expression profiles in SI and colon quite differently. Some immune-related genes (Mbl2, Mmp9, Mmp13, Cxcl14 and Pkd1l2) may be novel targets under the control of VA in SI. Funding Sources NIH training grant and NIH research grant. Supporting Tables, Images and/or Graphs

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Maximal STAT5-Induced Proliferation and Self-Renewal at Intermediate STAT5 Activity Levels

Molecular and Cellular Biology ◽

10.1128/mcb.01025-08 ◽

2008 ◽

Vol 28 (21) ◽

pp. 6668-6680 ◽

Cited By ~ 61

Author(s):

Albertus T. J. Wierenga ◽

Edo Vellenga ◽

Jan Jacob Schuringa

Keyword(s):

Gene Expression ◽

Cell Fate ◽

Target Genes ◽

Expression Patterns ◽

Activity Levels ◽

Dependent Manner ◽

Self Renewal ◽

Hematopoietic Stem ◽

Cell Fate Decisions

ABSTRACT The level of transcription factor activity critically regulates cell fate decisions, such as hematopoietic stem cell (HSC) self-renewal and differentiation. We introduced STAT5A transcriptional activity into human HSCs/progenitor cells in a dose-dependent manner by overexpression of a tamoxifen-inducible STAT5A(1*6)-estrogen receptor fusion protein. Induction of STAT5A activity in CD34+ cells resulted in impaired myelopoiesis and induction of erythropoiesis, which was most pronounced at the highest STAT5A transactivation levels. In contrast, intermediate STAT5A activity levels resulted in the most pronounced proliferative advantage of CD34+ cells. This coincided with increased cobblestone area-forming cell and long-term-culture-initiating cell frequencies, which were predominantly elevated at intermediate STAT5A activity levels but not at high STAT5A levels. Self-renewal of progenitors was addressed by serial replating of CFU, and only progenitors containing intermediate STAT5A activity levels contained self-renewal capacity. By extensive gene expression profiling we could identify gene expression patterns of STAT5 target genes that predominantly associated with a self-renewal and long-term expansion phenotype versus those that identified a predominant differentiation phenotype.

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