{"id":13029,"date":"2018-05-28T17:01:41","date_gmt":"2018-05-28T15:01:41","guid":{"rendered":"https:\/\/news.embl.de\/?p=13029"},"modified":"2024-03-22T23:18:58","modified_gmt":"2024-03-22T22:18:58","slug":"scientific-origins-edith-heard","status":"publish","type":"post","link":"https:\/\/www.embl.org\/news\/science\/scientific-origins-edith-heard\/","title":{"rendered":"The scientific origins of Edith Heard"},"content":{"rendered":"\n

By Sarah B. Puschmann and Edward Dadswell<\/h3>\n\n\n\n

When Edith Heard was a child of about seven or eight, her father sat her down at the kitchen table in their London home to teach her some basic arithmetic. It wasn\u2019t long before she began asking questions. Why do we count? How did the numbers we use get chosen? Where did they come from? Neither her father nor anyone else around her knew the answers. Heard recalls lying awake at night, questions about the origins of numbers churning in her mind long after her parents had gone to sleep.<\/p>\n\n\n\n

Looking back, she is careful not to glamorise her inability to let go of a problem. \u201cMy poor father, just trying to teach me how to add \u2013 I think he was at his wits\u2019 end,\u201d she says, smiling. But this quality of obsessiveness \u2013 as Heard describes it \u2013 might now be considered an asset. It was partly an obsession with a particular area of epigenetics that led Heard to her current position as Director of the Genetics and Developmental Biology Department at the Curie Institute in Paris, and to her appointment as Director General of EMBL<\/a> \u2013 a role she will take up in January 2019.<\/p>\n\n\n\n

Interpreting genes<\/h3>\n\n\n\n

The questions that Heard has been unable to let go of in her adult life concern epigenetics: the study of changes in gene expression that are stable, heritable, and reversible \u2013 without affecting the DNA sequence. While genetics can tell us that a certain gene is associated with a certain disease, simply carrying that gene won\u2019t necessarily cause the disease to develop. Rather, changes such as the attachment of groups of chemicals to DNA can change how the body interprets the messages provided by our genes.<\/p>\n\n\n\n

A self-declared late convert to biology \u2013 Heard had her first introduction to the field while studying Natural Sciences at Cambridge, having originally intended to pursue a career in physics \u2013 she left university with a passion for genetics. This led her to study gene amplification in cancer cells at the Imperial Cancer Research Fund in London, before joining the lab of Phil Avner at the Pasteur Institute in Paris.<\/p>\n\n\n\n

\"Edith
Edith Heard will take up her post as EMBL Director General in January 2019. PHOTO: Marietta Schupp\/EMBL<\/figcaption><\/figure><\/div>\n\n\n\n

There, she worked on a key epigenetic mystery that continues to fascinate her: the silencing of a chromosome that occurs in most female mammals. Usually, if a fertilised egg inherits an X chromosome from its mother and a Y chromosome from its father, it develops into a male. If it inherits an X chromosome from each parent, it develops into a female. But there\u2019s a catch: having two functioning X chromosomes in the same cell can be fatal.<\/p>\n\n\n\n

Cells in females solve this problem in a simple-sounding way: they switch one X chromosome off. This process, called X inactivation, leaves females with a mix of cells \u2013 some in which the active X chromosome is the one inherited from the mother, others in which it\u2019s the one inherited from the father.<\/p>\n\n\n\n

Fathoming silence<\/h3>\n\n\n\n

But, as Heard has discovered through her investigations, nothing about the way X inactivation works is simple. During her postdoctoral work at the Pasteur Institute under the guidance of Phil Avner \u2013 currently head of EMBL Rome \u2013 Heard helped to narrow down the region of the X chromosome that acts as the master control centre for X inactivation. This X-inactivation centre produces a key player in the inactivation process: a large RNA molecule called Xist<\/em> (X-inactive specific transcript), which can associate with the X chromosome it is transcribed from, triggering chromosome-wide silencing. However, the extent of the DNA sequences required to express Xist<\/em> properly was not clear.<\/p>\n\n\n\n

Heard added DNA fragments of different sizes that included Xist<\/em> into embryos and embryonic stem cells to see whether they were sufficient to trigger X inactivation at ectopic sites. This led to the unexpected discovery that production of Xist<\/em> requires regulatory DNA sequences \u2013 sequences that control the gene\u2019s expression \u2013 which must be located at large distances away from it on the X chromosome. Later, the hunt for these missing sequences by the Heard Lab<\/a>, in collaboration with Job Dekker at the University of Massachusetts, led to the discovery of large, self-interacting regions of the genome<\/a> that they called topologically associating domains (TADs). This discovery opened up an exciting new area of research, as TADs are regions of DNA that often bring regulatory elements located on different parts of a chromosome into close contact. Disrupting TADs can lead to disease because changing the 3D organisation of the chromosome can disrupt normal gene regulation. The Heard lab discovered that Xist<\/em>\u2019s missing regulatory sequences lie in a regulatory landscape spanning at least two TADs and over 800 kilobases in size.<\/p>\n\n\n\n

Dynamic process<\/h3>\n\n\n\n

In her quest to understand how the X-inactivation centre is folded and expressed, Heard spent a year as a visiting scientist working in David Spector\u2019s lab at Cold Spring Harbor Laboratory, where she developed combinatorial imaging approaches to investigate chromatin and gene expression in individual cells \u2013 important for understanding how the same cell switches one X chromosome off while leaving the other one functioning.<\/p>\n\n\n\n

\u201cShe\u2019s encyclopaedic in terms of the scientific literature, which is refreshing, given that some scientists are so focused on what they\u2019re doing that they don\u2019t see the big picture,\u201d says Spector.<\/p>\n\n\n\n

Basic research, when nurtured over time, leads to profound applications<\/p><\/blockquote>\n\n\n\n

When she set up her own group at the Curie Institute in Paris in 2002, Heard and her team discovered how dynamic the X-inactivation process is during embryonic development, and that the silencing of the X chromosome in some tissues might not be as complete as previously thought. \u201cWhat we\u2019re discovering more and more is that some genes on the silenced X chromosome can become re-expressed in certain cell types in an individual,\u201d she explains. The re-expression of genes on the silent X chromosome \u2013 as well as the active one \u2013 could result in a double dose of certain genes in the cell. \u201cThat could be useful under certain conditions,\u201d says Heard, \u201cfor example in helping cells differentiate into particular cell types. On the other hand, a double dose of some X-linked genes can be problematic in other conditions, leading for example to neurological or autoimmune disorders. It\u2019s an emerging field that\u2019s very exciting.\u201d<\/p>\n\n\n\n

Hope and reality<\/h3>\n\n\n\n

Amid this excitement about epigenetics, Heard is keen to dispel myths about the subject. \u201cThe sequencing of the human genome led us to consider that maybe now we can really understand everything in our genes, including the genetic information that could predispose us to certain conditions,\u201d she explains. \u201cEpigenetics was increasingly evoked in the hope that maybe not everything is hardwired into our genome \u2013 in other words, you could inherit a gene that predisposes you to a certain condition, but then an epigenetic change might silence it, so maybe it\u2019s not so bad after all.\u201d This can give people hope that it might be possible to trigger modifications in parts of the genome by doing things like eating certain foods or taking more exercise. \u201cThat\u2019s where we get more into the fantasy realm,\u201d says Heard. \u201cI think scientists have to ask just how far we can go in saying that an environmental trigger can lead to epigenetic changes, and whether those epigenetic changes then lead to changes in gene expression, and how much of that can really be carried across cells and across generations.\u201d<\/p>\n\n\n\n

Heard will go on tackling these and other questions about epigenetics and gene regulation, since she plans to continue running her lab while working as EMBL Director General. Looking ahead to that role, she emphasises the importance of supporting both applied research \u2013 having clear applications in fields such as medicine and industry \u2013 and research that is more fundamental. \u201cIt\u2019s important to make space for curiosity-driven research, even when a tangible purpose isn\u2019t immediately apparent,\u201d says Heard. \u201cWe have learned again and again that basic research, when nurtured over time, leads to profound applications.\u201d<\/p>\n\n\n\n

Edith Heard will be a keynote speaker at the EMBO | EMBL Symposium, \u2018Principles of Chromosome Structure and Function<\/a>\u2019 at EMBL Heidelberg, 5-8 September 2018.<\/em><\/p>\n\n\n

\n

\"\"<\/p>\n

Some of the most fascinating questions in science are about origins. As part of our latest editorial theme, we\u2019re exploring the idea of origins at EMBL. We want to talk about the origins of biological systems, about our people and the paths that brought them here, and the discoveries and ideas that have their origins here.<\/p>\n

Read more articles in the Origins theme.<\/a><\/p>\n

<\/p><\/div>\n","protected":false},"excerpt":{"rendered":"

EMBL\u2019s next Director General reflects on the questions that drive her research<\/p>\n","protected":false},"author":16,"featured_media":13569,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[17593,2],"tags":[536,535,511,563,39,183,40,41,512,559],"embl_taxonomy":[],"class_list":["post-13029","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-people-perspectives","category-science","tag-chromatin","tag-chromosome","tag-director-general","tag-embryonic-development","tag-epigenetics","tag-gene-expression","tag-gene-regulation","tag-genetics","tag-heard","tag-origin"],"acf":{"article_intro":"

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