Researchers Unlock the Mysteries of Epigenetic Inheritance

April 30, 2024 Natalie Crowley

Understanding trait inheritance is crucial for unraveling the complexities of life’s blueprint and how it shapes the world around us. It provides insights into the transmission of characteristics from one generation to the next, shedding light on the mechanisms that underpin biological diversity and evolution. In a groundbreaking study featured in the journal Nature, researchers have unveiled the hidden secrets of how our DNA replication machinery meticulously safeguards and transfers epigenetic information during cell division. Led by Professor Yuanliang Zhai [more…]

Epigenetic Study Unveils Vital Role of Housekeeping Genetic Elements and Potential for Cancer Therapy

January 9, 2024 Natalie Crowley

Advancements in technology have opened doors for scientists to delve deep into the complex world of genetic control elements, unveiling the intricate mechanisms governing gene activation within our genetic code. Contrary to the simplistic perception of cis-regulatory elements (CREs) as mere genetic on/off switches, emerging evidence underscores their capacity for nuanced behaviors. They’re not just toggles for gene enhancement; they orchestrate complex functions pivotal to sustaining cellular health. New research originating from Japan has uncovered about 11,000 significant genetic switches, [more…]

Reversing Fate: Exploiting Epigenetics to Treat Drug Resistance in Cancer

June 27, 2023 Pamela A. Harvey

All cancerous tumors exhibit these reversible epigenetic changes that could represent novel reprogrammable targets to address drug resistance (1). Recent research published in Communications Biology provides essential information about the specific epigenetic alterations that may be responsible for chemotherapy resistance (2). Drug Resistance in Cancer More than 90% of the mortality caused by cancer can be linked to drug resistance (3). The molecular mechanisms mediating drug resistance in cancerous cells include increased function of enzymes that render drugs ineffective, mutations [more…]

Epigenetic Study Identifies Potential Drug Targets for a Rare Type of Bone Marrow Cancer

April 12, 2022 Natalie Crowley

There are many treatment options for cancer today, yet it continues to be a major health problem, killing hundreds of thousands of people in the US each year. While conventional therapies like chemo and radiation have successfully extended survival rates, they don’t necessarily work for all patients, especially those with late-stage or rare cancers. As a result, more advanced treatments and diagnostic methods are being sought after to stem the cancer death toll. One research area that shows great promise [more…]

How Inflammation Epigenetically Primes Epithelial Cells to Promote Pancreatic Cancer 

September 28, 2021 Natalie Crowley

Pancreatic cancer may not be as common as some cancers, but it has a bad reputation for being highly fatal, especially since it’s difficult to detect early. Smoking, diabetes, family history, and alcohol abuse are among the top risk factors associated with this disease. While it’s difficult to determine the exact causes of pancreatic cancer, a key mediator in its development is inflammation. Understanding why inflammation might lead to tumor growth in the pancreas has scientists examining the underlying mechanisms [more…]

Epigenetic Switches May Leave DNA Vulnerable

November 26, 2019 Andrea P

The field of epigenetic research has been making huge strides in identifying the mechanisms involved in controlling how genes are expressed. A lot of effort is put into studying the importance of the genetic code documented in cells, but also of the structure of the chromatin supporting it. As the protein-based infrastructure surrounding DNA, chromatin controls how exposed the DNA is. No matter how critical the genetic sequence may be, it won’t be properly transcribed into RNA and then into functional proteins [more…]

Epigenetic Computer Program ‘CancerLocator’ Detects and Pinpoints Cancer

April 11, 2017 Bailey Kirkpatrick

What if instead of invasive cancer tests, scientists could run a blood sample through a computer program and not only detect whether cancer is present or not, but pinpoint where in the body it’s located? This technology, harnessed by a program called CancerLocator, could potentially be ready in a year. In a recent study published in Genome Biology, researchers from the University of California at Los Angeles (UCLA) developed a computer program that identifies specific epigenetic patterns, or a combination [more…]

Demethylating Agent May Boost Chemotherapy Effectiveness for Specific Type of Childhood Leukemia

January 16, 2017 Natalie Crowley

Fifty years ago, a child diagnosed with acute lymphoblastic leukemia (ALL), the most common type of pediatric cancer, had little to no chance of survival. Today, those odds have increased dramatically thanks to tremendous advances in chemotherapy and other treatments. Cure rates for this type of leukemia can reach as high as 90 percent. Yet, there is one subgroup of pediatric ALL that is still very therapy resistant, T-Acute Lymphoblastic Leukemia (T-ALL). T-ALL is an uncommon, though aggressive, subclass of [more…]

Researchers Reveal Why Some Cancers Override HDAC Inhibitor Drugs

November 10, 2015 Bailey Kirkpatrick

UK scientists from The University of Birmingham have discovered how certain cancer cells can adapt and render cancer drugs ineffective. These drugs, known as histone deacetylase (HDAC) inhibitors, are designed to disrupt cancer cells’ genetic controls. Their research, published in Epigenetics and Chromatin, may help create new therapies focused on preventing tumors from overcoming HDAC inhibitors (HDACi). Genes can be switched on or off via molecular tags that attach to DNA and transfer signals to tell the cell how to [more…]

Epigenetic Study of Histone Modifications and DNA Damage Could Lead to New Cancer Treatments

October 13, 2015 Bailey Kirkpatrick

DNA damage occurs frequently to cells as a result of normal cellular processes, but one of the worst genetic malfunctions that can occur is DNA double-strand breaks, or DSBs. This can lead to cancer and increased resistance to cancer therapy. New research from scientists at The University of Texas MD Anderson Cancer Center reported their findings regarding histone modifications, the cause of DNA double-strand breaks, and possible ways they can be fixed. Their research was published in Nature Cell Biology. [more…]

1 2

WIE-logo-icon

If you like reading our articles…

Join our e-newsletter! Stay up-to-date with our weekly posts on epigenetics and health, nutrition, exercise, and more.