{"id":8268,"date":"2018-06-21T11:00:08","date_gmt":"2018-06-21T15:00:08","guid":{"rendered":"https:\/\/www.med.unc.edu\/biochem\/?p=8268"},"modified":"2019-12-11T10:46:37","modified_gmt":"2019-12-11T15:46:37","slug":"scientists-discover-new-gene-expression-mechanism-with-possible-role-in-human-disease","status":"publish","type":"post","link":"https:\/\/www.med.unc.edu\/biochem\/news\/scientists-discover-new-gene-expression-mechanism-with-possible-role-in-human-disease\/","title":{"rendered":"Scientists discover new gene expression mechanism with possible role in human disease"},"content":{"rendered":"<p>When cells grow and divide to ensure a biological function \u2013 such as a properly working organ \u2013 DNA must be unwound from its typical tightly packed form and copied into RNA to create proteins. When this process goes awry \u2013 if too little or too much RNA is produced \u2013 then the result could be diseases such as cancers. UNC School of Medicine researchers have discovered that a protein called Spt6, previously known to have a key role in making RNA and repackaging DNA after RNA copying, also facilitates RNA degradation so that cells have just the right amount of RNA for the creation of proteins.<\/p>\n<p>The discovery, published in <i>Molecular Cell<\/i>, represents a revolutionary new understanding of gene expression control and suggests a potential target for treating cancers and other diseases.<\/p>\n<p>\u201cBy revealing and understanding this mechanism, we can start to think about targeting parts of it therapeutically in diseases in which Spt6 isn\u2019t working properly,\u201d said study senior author Brian D. Strahl, PhD, the Oliver Smithies Investigator, Professor, and Vice Chair in the Department of Biochemistry &amp; Biophysics at UNC-Chapel Hill.<\/p>\n<p><a href=\"http:\/\/news.unchealthcare.org\/images\/portraits\/faculty\/brian-strahl\" rel=\"lightbox\"><img loading=\"lazy\" decoding=\"async\" title=\"Brian Strahl\" src=\"http:\/\/news.unchealthcare.org\/images\/portraits\/faculty\/brian-strahl\/@@images\/9ede1b21-3929-4a80-9e7d-88162f398c97.jpeg\" alt=\"Brian Strahl\" width=\"250\" height=\"250\" \/><\/a><\/p>\n<p>Every human cell carries a large amount of DNA \u2013 called the genome \u2013 composed of roughly 3.5 billion letters that assemble into the genetic code. Researchers have been studying how large genomes fit into the tiny confines of cells. We know that proteins called histones carefully organize and package DNA in cells. Much like wrapping yarn around its spool, the DNA wraps around the histones to be condensed into a smaller space. Although histones help to keep DNA packaged, this packaging creates a barrier to \u201creading\u201d the genetic information housed within DNA. The DNA needs to be \u201copened\u201d much like a book needs to be opened for the pages to be read \u2013 except that \u201copening DNA\u201d is a little complicated.<\/p>\n<p>Accessing DNA information is a highly controlled process that involves temporarily removing the histones so the genetic code can be copied into RNA and the RNA can then be used to create proteins. Normally, cells destroy the copied RNA \u201cmessages\u201d once they are no longer needed. Diseases such as cancer may arise when the ability of cells to either produce or destroy the messages goes awry.<\/p>\n<p>When a gene is copied into a strand of RNA, the DNA in and around the gene must be loosened from its normal tightly wound configuration. Scientists have known that Spt6 has the crucial job of helping DNA become tightly re-wound when the copying process is completed. But that\u2019s not its only function.<\/p>\n<dl class=\"image-left captioned\">\n<dd class=\"image-caption\">Brian Strahl, PhD\u201cSpt6 seems to be a bit like a Swiss Army Knife,\u201d said Strahl, a member of the UNC Lineberger Comprehensive Cancer Center. \u201cSpt6 has many functions, from helping the cell create messenger RNAs, to putting histones back onto the DNA after they were removed. Our study now shows that Spt6 also helps control how much of the messenger RNA remains after it\u2019s copied from DNA.\u201d<\/dd>\n<\/dl>\n<p>The first thing Strahl\u2019s lab investigated was how Spt6 binds to RNA Polymerase II, which is the enzyme machine that copies DNA into RNA. The function of this Spt6-Polymerase II interaction has been unclear. So the Strahl lab wanted to determine whether a non-binding version of Spt6 still performed its DNA-histone rewrapping function.<\/p>\n<p>\u201cTo our surprise, we found that Spt6 was still able to get to genes, although at sub-optimal levels,\u201d Strahl said. \u201cBut Spt6 still did its job of adding back histones.\u201d<\/p>\n<p>Although Spt6 still functioned, the researchers witnessed a big problem: the RNA amounts were extremely high, and these high RNA amounts did not occur because there was more copying with the defective form of Spt6.<\/p>\n<figure id=\"attachment_4940\" class=\"thumbnail wp-caption aligncenter\" style=\"width: 198px\"><img loading=\"lazy\" decoding=\"async\" class=\"size-full wp-image-4940\" src=\"https:\/\/www.med.unc.edu\/biochem\/wp-content\/uploads\/sites\/795\/2018\/07\/Donamraju_Raghuvar_CROPPED.jpg\" alt=\"photo of Raghuvar Donamraju PhD\" width=\"188\" height=\"250\" \/><figcaption class=\"caption wp-caption-text\">Raghuvar Donamraju PhD<\/figcaption><\/figure>\n<dl class=\"image-left captioned\">\n<dt><\/dt>\n<dd class=\"image-caption\">\u201cIt dawned on us that there is more to Spt6 function than just re-wrapping the DNA around histones and facilitating RNA Polymerase copying of DNA,\u201d said first author Raghuvar Dronamraju, PhD, research assistant professor in Strahl\u2019s lab.<\/dd>\n<\/dl>\n<p>The researchers measured the amounts of all the RNAs in cells that had the mutant form of Spt6 and found abnormal amounts of many RNAs. This suggested there was a loss of the usual control mechanism that maintained just the right amount of each RNA.<\/p>\n<p>It wasn\u2019t clear at first how the disruption of Spt6\u2019s binding to the polymerase caused RNA misregulation, but further experiments revealed a completely unexpected mechanism.<\/p>\n<p>Normally, RNAs in the process of being made are exposed to enzymes that protect or degrade them so that the cumulative actions of these enzymes create a precise amount of RNA that a cell needs for protein synthesis. The UNC scientists found that the form of Spt6 that could not bind to RNA Polymerase II disrupted this balance between RNA protection and RNA degradation, specifically the degradation side. They found that many RNAs survived in cells longer than they normally would have, allowing the RNA levels to rise to abnormal levels.<\/p>\n<p>Strahl\u2019s team went further and connected the dots to show that Spt6 interacted with one of the cell\u2019s major RNA degradation machineries \u2013 a protein complex called Ccr4-Not. Strahl\u2019s team showed that Spt6 used its interaction with RNA Polymerase II to recruit Ccr4-Not during gene expression to ensure the proper balance of enzymes that protect and degrade RNA.<\/p>\n<p>Moreover, the researchers discovered that mutant Spt6 did not affect the levels of all RNAs. A large number of affected RNAs encode proteins that control cell division. Ordinarily, RNAs that contribute to cell division are rapidly degraded as cells pass from one part of the cell division cycle to another. But the abnormal failure to remove these RNAs in the mutant Spt6 cells caused the cells to develop profound growth and cell division defects.<\/p>\n<p>The study by the Strahl lab thus revealed a previously unknown, fundamental mechanism of RNA degradation, and the results suggest that defects in the RNA degradation function of Spt6 may underlie some diseases, particularly cancers, which feature uncontrolled cell division.<\/p>\n<p>\u201cGiven Spt6 in humans is sometimes found mutated or misregulated in cancers, it will be important to examine this RNA control mechanism further to determine whether its failure contributes to cancer,\u201d Strahl said. His team will turn to researching this with the hope that future studies could identify new therapeutic targets to treat human disease.<\/p>\n<p>The researchers still have many questions about Spt6\u2019s involvement in regulating RNAs. But already it\u2019s apparent that Spt6\u2019s influence on RNA stability represents \u201ca new twist in transcription,\u201d as Strahl calls it.<\/p>\n<p>This research was performed with baker\u2019s yeast, a classic basic science organism that researchers use to investigate the intricate details of how cells perform and control many biological functions. Importantly, the yeast studies can be extended to human cells because the same proteins occur in yeast and humans.<\/p>\n<p><i>Other co-authors are Austin Hepperla, Yoichiro Shibata, PhD, Alexander Adams, Terry Magnuson, PhD, and Ian Davis, PhD.<\/i><\/p>\n<p><i>The National Institutes of Health and the Corn-Hammond Fund for Pediatric Oncology funded this research<\/i>.<\/p>\n<p><em>Story courtesy of UNC Healthcare.<\/em><\/p>\n","protected":false},"excerpt":{"rendered":"<p>UNC School of Medicine researchers, led by Brian Strahl, PhD, found surprising role for a protein called Spt6, which is crucial to the maintenance of proper messenger RNA levels in cells, a discovery that opens new research avenues and suggests a target for basic understanding, diagnosis, and treatment of human diseases. 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