Epigenetic transcriptional memory of thermal stress in the cnidarian model system Aiptasia

Dix, Mascha

05 1900

Ocean warming is leading to increased occurrence of coral mass bleaching events, threatening the persistence of these ecosystems and the communities that rely on them. While reef recovery is possible, conservation approaches based purely on transplantation/coral-gardening will not suffice to maintain these ecosystems over the projected environmental changes. Assisted evolution approaches aim to boost acclimatization and adaptation processes. A potential approach could be to harness the naturally occurring mechanism of environmental memory that has been observed in corals and other organisms, where an organism remembers a priming stress event to allow a faster/stronger response when the stress re-occurs. In this thesis I aimed to investigate whether this mechanism exists and how it is regulated on a molecular level in the sea anemone Aiptasia. Aiptasia were primed to heat stress by exposing them to 32 °C water for several years, or for one week. After a recovery period of one week at 25 °C, a naïve and the primed treatments were exposed to lethal thermal stress at 34 °C for three days. Primed treatments performed better than the naïve treatment in survival, photosynthetic efficiency and symbiont density for two days, after which the priming advantage was lost. The difference between the primed treatments indicated that the priming dose may affect priming success. There were clear indications of an epigenetic transcriptional memory mechanism on a transcriptional level. I observed a pronounced difference between control and heat-stressed treatments, indicating that transcription returned to near baseline expression after cessation of the priming exposure. The functional categories of differentially expressed genes in heat stress relative to control were similar between naïve and primed treatments, with the main difference observed in a stronger up- and downregulation of stress response genes in the long-term primed treatment. I optimized a chromatin immunoprecipitation protocol for use with Aiptasia by adjusting fixation, sonication and immunoprecipitation conditions. The enrichment of H3K4me2/me3 and poised RNA Pol II in the promoters of stress response genes will be investigated next to elucidate the mechanism of the observed epigenetic transcriptional memory in Aiptasia, and to ultimately inform conservation strategies for coral reefs globally.

Epigenetic transcriptional memory

heat stress

coral

environmental memory

cnidaria

Aiptasia

chromatin immunoprecipitation

ChIP

A Calcium-Centered Socio-Ecological Model of Prostate Cancer Disparities: Preliminary Studies and Findings

Kadio, Bernard

29 June 2020

Western studies have established that men from African descent are disproportionally affected by prostate cancer (PCa). Annual incidence rates in this population vary from 1.5 to 2 times when compared to their counterparts from other racial groups. They also record the worse outcomes in terms of prognosis. Additionally, with the rise of PCa in Subsaharan Africa, new cancer control policies and programs are increasingly demanded. Understanding therefore, factors that underpin racial inequality in distribution and especially why the disease preferentially niches in African males can help better address PCa in both Western and Subsaharan countries. There is also the potential to develop new therapeutic options. A genetic susceptibility was first hypothesized, however available data suggest that they only account for less than 20% of the cases. Current findings from epidemiological and molecular investigations suggest an important role of complex and dynamic environmental interactions involving the different levels of calcium regulation. Using a multi-method design, this research aims at developing an integrative mechanistic model of PCa. We argue that given the versatile and ubiquitous role calcium plays in nutrition, physical environment, and in key cellular processes, that mineral cation is central to prostate tumorigenesis and in shaping its populational distribution. Thus a tree-level investigation was conducted: (i) a critical analysis and synthesis of empirical evidence on calcium interactions with cancer mechanisms (ii) a population-wide prospective cohort study of calcium intake patterns in a group of Subsaharan males in Côte d’Ivoire, namely the African Prostate Cancer Study (APCS) (iii) a proteomics research investigating the responses of prostate cancer cell lines when exposed to a high affinity synthetic calcium binding peptide. This monograph describes the research methods, instruments design and validation and the preliminary findings of the ongoing research, portions of which have already been published, presented at two international cancer seminars or under review. Findings at this stage include: mechanistic models of prostate cancer differential distribution and outcomes, a novel calcium questionnaire specific to African diet, synthesis of a high affinity calcium-binding peptide (Peptide#1). New concepts and constructs related to prostatic carcinogenesis have been developed as well.

Calcium

Prostate cancer

Socio-ecological models

Racial inequalities

The Role of Fusobacterium nucleatum in the Tumor Microenvironment

Gummidipoondy Udayasuryan, Barath

21 April 2022

Systematic characterization of microbes in several tumors including colorectal cancer (CRC) and pancreatic ductal adenocarcinoma (PDAC) has revealed the presence of multiple species of intracellular bacteria within tumors. However, there is limited knowledge on how these bacteria colonize tumors, how they survive inside host cells, how they modulate host cell phenotypes, and if their elimination should complement cancer therapy. This is, in part, due to the lack of representative animal models, challenges in co-culture of host epithelial cells and bacteria, and limited resolution of available analytical techniques to study host-microbial interactions. I have addressed these challenges by harnessing multiple technologies from microbiology, genetic engineering, tissue engineering, and microfluidics, in order to investigate the role of an emerging oncomicrobe, Fusobacterium nucleatum, in the tumor microenvironment (TME). F. nucleatum is a Gram-negative, anaerobic bacterium that is normally found within the oral cavity. However, its selective enrichment in CRC and PDAC tumors is correlated with poor clinical outcomes. My work along with collaborators in the Verbridge, Slade, and Lu labs at Virginia Tech has revealed a multifactorial impact of F. nucleatum in influencing cancer progression. First, in CRC, we discovered that F. nucleatum infection of host cancer cells induced robust secretion of select cytokines that increased cancer cell migration, impacted cell seeding, and enhanced immune cell recruitment. In PDAC, we uncovered additional cytokines that were secreted from both normal and cancerous pancreatic cell lines upon infection with F. nucleatum that increased cancer cell proliferation and migration via paracrine and autocrine signaling, notably in the absence of immune cell participation. In order to examine the contribution of a hypoxic TME on infection dynamics, we used a multi-omics approach that combined RNA-seq and ChIP-seq of H3K27ac to determine epigenomic and transcriptomic alterations sustained within hypoxic CRC cells upon infection with F. nucleatum. Our findings revealed that F. nucleatum can subvert host cell recognition in hypoxia and can modulate the expression of multiple cancer-related genes to drive malignant transformation. Insights gained from this research will pave the way for future studies on the impact of the tumor microbiome in cancer and will identify novel targets for therapy and clinical intervention to control bacteria-induced exacerbation of cancer. / Doctor of Philosophy / Colorectal cancer (CRC) and pancreatic ductal adenocarcinoma (PDAC) are the second and third leading causes of cancer death in the United States, respectively. Recent systematic characterization of various tumor types revealed the presence of distinct bacteria within tumors. However, there is limited knowledge on how these bacteria colonize tumors, how they survive inside host cells, how they modulate host cell phenotypes, and if their elimination should complement cancer therapy. This is, in part, due to the lack of representative animal models, challenges in developing host cell-microbe co-culture models, and limited resolution of available analytical techniques to study host-microbial interactions. I have addressed these challenges by harnessing multiple technologies from microbiology, genetic engineering, tissue engineering, and microfluidics, in order to investigate the role of an emerging cancer-associated microbe, Fusobacterium nucleatum, in the tumor microenvironment (TME). F. nucleatum is a microbe commonly found within the oral cavity. However, clinical studies revealed that selective enrichment of F. nucleatum in CRC and PDAC tumors significantly correlated with poor prognosis. My work along with collaborators in the Verbridge, Slade, and Lu labs at Virginia Tech has revealed a multifactorial impact of F. nucleatum in influencing cancer progression. First, in CRC, we discovered that F. nucleatum invasion of host cancer cells induced the secretion of select proteins called cytokines that cells use to signal and communicate with each other. These cytokines directly stimulated the cell migration of host cancer cells which is usually associated with increased cancer aggressiveness. In PDAC, F. nucleatum infection induced the secretion of additional cytokines from both cancer cells and normal cells that, in addition to cell migration, impacted the proliferation of cancer cells, another feature of aggressive cancers. F. nucleatum usually thrives in a low oxygen environment that is prevalent in cancer tissue and hence, we examined how a low oxygen environment can influence infection dynamics using sequencing technologies that probe the genomic constitution within cells. Our findings revealed that F. nucleatum can escape recognition in low oxygen environments and can modulate the expression of multiple cancer-related programs within the cell to drive cancer progression. Insights gained from this research will pave the way for future studies on the impact of the tumor-associated microbes in cancer and will identify novel targets for therapy and clinical intervention to control bacteria-induced exacerbation of cancer.

Tumor microenvironment

tumor microbiome

Fusobacterium nucleatum

cytokine signaling

colorectal cancer

pancreatic cancer

patho-epigenetics

epigenetic modification

Mechanisms of epigenetic regulation in epidermal keratinocytes during skin development. Role of p63 transcription factor in the establishment of lineage-specific gene expression programs in keratinocytes via regulation of nuclear envelope-associated genes and Polycomb chromatin remodelling factors.

Rapisarda, Valentina

January 2014

During tissues development multipotent progenitor cells establish tissue-specific gene expression programmes, leading to differentiation into specialized cell types. It has been previously shown that the transcription factor p63, a master regulator of skin development, controls the expression of adhesion molecules and essential cytoskeleton components. It has also been shown that p63 plays an important role in establishing distinct three-dimensional conformations in the Epidermal Differentiation Complex (EDC) locus (Fessing et al., 2011). Here we show that in p63-null mice about 32% of keratinocytes showed altered nuclear morphology. Alterations in the nuclear shape were accompanied by decreased expression of nuclear lamins (Lamin A/C and Lamin B1), proteins of the LINC complex (Sun-1, nesprin-2/3) and Plectin. Plectin links components of the nuclear envelope (nesprin-3) with cytoskeleton and ChIP-qPCR assay with adult epidermal keratinocytes showed p63 binding to the consensus binding sequences on Plectin 1c, Sun-1 and Nesprin-3 promoters. As a possible consequence of the altered expression of nuclear lamins and nuclear envelope-associated proteins, changes in heterochromatin distribution as well as decrease of the expression of several polycomb proteins (Ezh2, Ring1B, Cbx4) has been observed in p63-null keratinocytes. Moreover, recent data in our lab have showed that p63 directly regulates Cbx4, a component of the polycomb PRC1 complex. Here we show that mice lacking Cbx4 displayed a skin phenotype, which partially resembles the one observed in p63-null mice with reduced epidermal thickness and keratinocyte proliferation. All together these data demonstrate that p63-regulated gene expression program in epidermal keratinocytes includes not only genes encoding adhesion molecules, cytoskeleton proteins (cytokeratins) and chromatin remodelling factors (Satb1, Brg1), but also polycomb proteins and components of the nuclear envelope, suggesting the existence of a functional link between cytoskeleton, nuclear architecture and three dimensional nuclear organization. Other proteins important for proper epidermal development and stratification, are cytokeratins. Here, we show that keratin genes play an essential role in spatial organization of other lineage-specific genes in keratinocytes during epidermal development. In fact, ablation of keratin type II locus from chromosome 15 in epidermal keratinocytes led to changes in the genomic organization with increased distance between the Loricrin gene located on chromosome 3 as well as between Satb1 gene located on chromosome 17 and keratin type II locus, resulting in a more peripheral localization of these genes in the nucleus. As a possible consequence of their peripheral localization, reduced expression of Loricrin and Satb1 has also been observed in keratins type II-deficient mice. These findings together with recent circularized chromosome conformation capture (4C) data, strongly suggest that keratin 5, Loricrin and Satb1 are part of the same interactome, which is required for the proper expression of these genes and proper epidermal development and epidermal barrier formation. Taken together these data suggest that higher order chromatin remodelling and spatial organization of genes in the nucleus are important for the establishment of lineage-specific differentiation programs in epidermal progenitor cells. These data provide an important background for further analyses of nuclear architecture in the alterations of epidermal differentiation, seen in pathological conditions, such as psoriasis and epithelial skin cancers.

Oncogenic enhancer reprogramming in triple negative breast cancer tumour progression

Michelatti, Daniela

27 January 2022

Basal breast cancer is a heterogeneous disease whose unfavourable outcome is determined by a high risk of tumour relapse and metastasis formation. The potential of a cancer cell to adapt to foreign environments is favoured by oncogenic cell plasticity, which is supported by epigenetic reprogramming. It was previously demonstrated that MYC acts as an oncogenic reprogramming factor by inducing epigenetic rewiring at enhancers (Poli et al., 2018). This causes the activation of oncogenic pathways and pro-metastatic transcription factors such as SOX9, but scant pieces of evidence support a causal link between epigenetic alteration of oncogenic enhancers and cell plasticity. In the present work, we investigated the establishment of an alternative epigenetic program during tumorigenesis in a basal breast cancer xenograft derived model. We found that tumorigenic cells, primary tumour derived cells and metastasis derived cells showed intrinsically different phenotypic and epigenetic signatures, and that metastatic derived cells were characterized by the acquisition of pro-metastatic features, such as migration and invasion, that may increase their metastatic potential. Specifically, we provided data supporting the notion that changes of the chromatin landscape during tumour progression increased the responsiveness of cancer cells to environmental cues that they may encounter during dissemination and colonization of distant organs. We focused on investigating the role played by putative regulatory elements localized around the SOX9 locus, whose chromatin accessibility and interaction with the SOX9 promoter were increased in metastatic cells. We observed that SOX9 expression was responsive to the activation of the retinoic acid (ATRA) pathway, and our data suggests that this response may be strengthened by transcriptional memory priming SOX9 regulatory elements after a first exposure, so that the response is faster and more robust after the second one. SOX9 transcription modulation and ATRA response were also shown to be linked to the activation of a quiescence program specific of metastatic cells, which we hypothesise may favour cells during the dissemination steps of the metastatic cascade.

Breast Cancer

Tumour

epigenetic

enhancer

SOX9

Settore BIO/13 - Biologia Applicata

Nucleome programming is required for the foundation of totipotency in mammalian germline development / Nucleomeプログラミング は哺乳類生殖細胞系譜における分化全能性の基盤構築に必須である

Nagano, Masahiro

24 July 2023

京都大学 / 新制・論文博士 / 博士(医学) / 乙第13566号 / 論医博第2293号 / 新制||医||1068(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 柊, 卓志, 教授 篠原, 隆司, 教授 後藤, 慎平 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

germ cells

3D genome organization

nucleome

epigenetic reprogramming

lamina-associated domains

490

Investigation into the role of Polycomb Repressive Complex 2 in the modulation of life span and stress resistance in Drosophila melanogaster

Siebold, Alexander Paul King

07 October 2010

No description available.

Biochemistry

Biology

Genetics

Molecular Biology

Polycomb

Drosophila

aging

E(z)

life span

histone

epigenetic

stress

The Role of Hypoxia in Modulating Glioma Cell Tumorigenic Potential

Heddleston, John Michael

January 2011

No description available.

Cellular Biology

Molecular Biology

glioma stem cell

hypoxia

HIF

epigenetic

MLL1

tumorigenicity

Twin and Family Risk from Environment and Epigenetics (FREE) Studies Reveal Strong Environmental and Weaker Genetic Cues That Explain High Heritability of Eosinophilic Esophagitis

Alexander, Eileen Steinle, M.S.

02 September 2014

No description available.

Environmental Health

eosinophilia

medical genetics

twin and family-based

environment

gastrointestinal diseases

epigenetic methylation

Improving Autophagy in Cystic Fibrosis: The Effects of Epigenetic Regulation

Tazi, Mia Farrah

20 May 2015

No description available.

Biology

Cellular Biology

Health

Immunology