https://cnas.ucr.edu/ en https://cnas.ucr.edu/news/2020/05/11/new-work-advances-efforts-finding-cure-acute-myeloid-leukemia <span>New work advances efforts in finding a cure for acute myeloid leukemia</span> <span><span>ilseu</span></span> <span><time datetime="2020-05-11T14:24:54-07:00" title="Monday, May 11, 2020 - 14:24">Mon, 05/11/2020 - 14:24</time> </span> <a href="https://cnas.ucr.edu/news">More College News</a> <picture> <source srcset="https://cnas.ucr.edu/sites/default/files/styles/article_header_l/public/aml-leukemia-bm-m4.jpg?h=6eb229a4&amp;itok=2ASs2Ljv 1x" media="all and (min-width: 1401px)" type="image/jpeg" width="1170" height="450"> <source srcset="https://cnas.ucr.edu/sites/default/files/styles/article_header_l/public/aml-leukemia-bm-m4.jpg?h=6eb229a4&amp;itok=2ASs2Ljv 1x" media="all and (min-width: 1025px) and (max-width: 1400px)" type="image/jpeg" width="1170" height="450"> <source srcset="https://cnas.ucr.edu/sites/default/files/styles/article_header_m/public/aml-leukemia-bm-m4.jpg?h=6eb229a4&amp;itok=YL_heMSw 1x" media="all and (min-width: 768px) and (max-width: 1024px)" type="image/jpeg" width="1023" height="450"> <source srcset="https://cnas.ucr.edu/sites/default/files/styles/article_header_s/public/aml-leukemia-bm-m4.jpg?h=6eb229a4&amp;itok=Wp34YS9T 1x" type="image/jpeg" width="767" height="767"> <img loading="eager" width="1170" height="450" src="https://cnas.ucr.edu/sites/default/files/styles/article_header_l/public/aml-leukemia-bm-m4.jpg?h=6eb229a4&amp;itok=2ASs2Ljv" alt="Acute myeloid leukemia"> </picture> IQBAL PITTALWALA | Inside UCR <time datetime="2020-05-11T12:00:00Z">May 11, 2020</time> <p>&nbsp;</p> <p><a href="https://profiles.ucr.edu/app/home/profile/jikuis" target="_blank">Jikui Song</a>, an associate professor of biochemistry at UC Riverside, has published new work in&nbsp;<a href="https://www.nature.com/articles/s41467-020-16213-9" target="_blank">Nature Communications&nbsp;</a>that builds on his lab’s&nbsp;<a href="https://news.ucr.edu/articles/2018/02/07/scientists-crack-structure-enzyme-complex-linked-cancer" target="_blank">recent success in cracking the structure</a>&nbsp;of DNMT3A, an enzyme that plays a key role in DNA methylation.</p> <p>&nbsp;DNA methylation is a process involving the transfer of methyl groups to the DNA molecule, which critically influences gene expression, genomic stability and cell differentiation. Mutations of DNMT3A have been linked to a variety of diseases, such as acute myeloid leukemia, or AML, and overgrowth syndrome.</p> <p>&nbsp;</p> <figure role="group" class="embedded-entity align-center"> <div alt="Dr. Jikui Song" data-embed-button="media_browser" data-entity-embed-display="media_image" data-entity-embed-display-settings="{&quot;image_style&quot;:&quot;scale_550&quot;,&quot;image_link&quot;:&quot;&quot;}" data-entity-type="media" data-entity-uuid="3b3149f5-efad-4745-8315-9b79d047174f" data-langcode="en" title="Dr. Jikui Song"> <img alt="Dr. Jikui Song" loading="lazy" src="https://cnas.ucr.edu/sites/default/files/styles/scale_550/public/Jikui-Song.jpg?itok=oMEEs_xk" title="Dr. Jikui Song"> </div> <figcaption>Jikui Song</figcaption> </figure> <p>&nbsp;</p> <p>&nbsp;“DNMT3A mutations have been identified in about 25% AML patients; among these, the arginine-to-histidine mutation at site 882, or R882H, represents the most frequent one,” Song said. “The R882H mutation is associated with increased cell proliferation and correlates with poor clinical outcome. How this mutation impacts the function of DNMT3A and disease progression, however, has not been well understood.”</p> <p>In the study, Song’s team solved the structures of DNMT3A that carried the R882H mutation to identify the structural defects caused by this mutation. In addition, the team performed biochemical assays to understand how the R882H mutation affects the way DNMT3A works.</p> <p>&nbsp;“Our study shows that this mutation affects the substrate recognition of DNMT3A in multiple ways,” Song said. “On the one hand, it reduces the activity of DNMT3A toward its native DNA substrates. On the other hand, this mutation also drives DNMT3A to act on non-native substrates. Our work, therefore, explains how this mutation impairs the function of DNMT3A in AML and other related diseases.”</p> <p>Song, the study’s corresponding author, was joined by graduate student Hiwot Anteneh, the first author of the research paper, and postdoctoral researcher Jian Fang.</p> <p>This study was funded by grants from the National Institutes of Health.</p> <p>The research paper is titled, “Structural basis for impairment of DNA methylation by the DNMT3A R882H mutation.”</p> <p>&nbsp;</p> <p>Read the original article:</p> <p><a class="btn-ucr-gold" href="https://insideucr.ucr.edu/stories/2020/05/11/new-work-advances-efforts-finding-cure-acute-myeloid-leukemia" target="_blank">View article</a></p> <p>&nbsp;</p> <p>&nbsp;</p> <p>&nbsp;</p> <div class="tags-title">Tags</div> <div class="tags-list"> <div><a href="https://cnas.ucr.edu/tags/department-biochemistry" hreflang="en">Department of Biochemistry</a></div> <div><a href="https://cnas.ucr.edu/tags/jikui-song" hreflang="en">Jikui Song</a></div> </div> <div class="sharing-title">Share This</div><span class="a2a_kit a2a_kit_size_32 addtoany_list" data-a2a-url="https://cnas.ucr.edu/news/2020/05/11/new-work-advances-efforts-finding-cure-acute-myeloid-leukemia" data-a2a-title="New work advances efforts in finding a cure for acute myeloid leukemia"><a class="a2a_button_facebook"></a><a class="a2a_button_x"></a><a class="a2a_button_linkedin"></a><a class="a2a_button_google_plus"></a><a class="a2a_button_email"></a><a class="a2a_button_printfriendly"></a><a class="a2a_dd addtoany_share" aria-label="more options to share" href="https://www.addtoany.com/share#url=https%3A%2F%2Fcnas.ucr.edu%2Fnews%2F2020%2F05%2F11%2Fnew-work-advances-efforts-finding-cure-acute-myeloid-leukemia&amp;title=New%20work%20advances%20efforts%20in%20finding%20a%20cure%20for%20acute%20myeloid%20leukemia"></a></span><script> (function () { const customClassName = 'show-for-sr'; const targetContainer = document.querySelector('.a2a_kit.addtoany_list'); if (!targetContainer) return; const addClassToLabels = () => { const labels = targetContainer.querySelectorAll('.a2a_label'); if (labels.length > 0) { labels.forEach(label => { if (!label.classList.contains(customClassName)) { label.classList.add(customClassName); } }); console.log('Successfully applied show-for-sr class to AddToAny labels.'); return true; } return false; }; const observerConfig = { childList: true, subtree: true }; const observer = new MutationObserver((mutationsList, observer) => { if (addClassToLabels()) { observer.disconnect(); } }); if (!addClassToLabels()) { observer.observe(targetContainer, observerConfig); } })(); </script> Mon, 11 May 2020 21:24:54 +0000 ilseu 1616 at https://cnas.ucr.edu