New Gene Identified That Drives Triple-Negative Breast Cancer
|
By LabMedica International staff writers Posted on 25 Jan 2015 |
|
Image: The ABI 7500 HT real-time polymerase chain reaction system (Photo courtesy of Applied Biosystems).
A novel gene has been discovered that, when mutated, can drive development and progression of triple-negative breast cancer which is an aggressive form of the disease that accounts for 10% to 20% of breast cancers.
Triple-negative breast cancer (TNBC) has poor prognostic outcome compared with other types of breast cancer and the molecular and cellular mechanisms underlying TNBC pathology are not fully understood.
An international team of scientists led by those at the Wellcome Trust Sanger Institute, Hinxton, Cambridge, UK) assessed alterations to genes that influence the actions of stem cells and developing tissues, as past studies from the team has indicated that these alterations affect cancer development. By assessing these gene alterations among breast cancer cells from nearly 3,000 patients, the team found that a gene called B-cell lymphoma/leukemia 11A (BCL11A) was particularly active in triple-negative breast cancer.
The team used both a mouse model and human cells and various techniques to identify the gene. Ribonucleic acid (RNA) from sorted cells was extracted using PicoPure RNA isolation kit (Molecular Devices; Sunnyvale, CA, USA) and real-time polymerase chain reactions (PCR) were run in ABI-7900HT (Applied Biosystems; Foster City, CA, USA) in triplicate. Immunohistochemistry was carried using a fluorescence Axiophot microscope (Zeiss; Oberkochen, Germany).
Increased BCL11A activity was identified in around eight out of 10 basal-like breast cancers and was associated with more aggressive tumors. What is more, when the team reduced BCL11A activity in three samples of human triple-negative breast cancer cells, they found that these cells lost some cancer-like characteristics. When these cells were introduced to mice, they were less likely to drive tumor growth. The team found that BCL11A is important for the normal development of breast stem cells and progenitor cells. Past studies have shown that mutations in these cells may drive the development of basal-like cancers.
Walid Khaled, PhD, the lead author of the study said, “Our gene studies in human cells clearly marked BCL11A as a novel driver for triple-negative breast cancers. By increasing BCL11A activity we increase cancer-like behavior; by reducing it, we reduce cancer-like behavior.” The study was published on January 9, 2015, in the journal Nature Communications.
Related Links:
Wellcome Trust Sanger Institute
Molecular Devices
Applied Biosystems
 Reagent.jpg)
Triple-negative breast cancer (TNBC) has poor prognostic outcome compared with other types of breast cancer and the molecular and cellular mechanisms underlying TNBC pathology are not fully understood.
An international team of scientists led by those at the Wellcome Trust Sanger Institute, Hinxton, Cambridge, UK) assessed alterations to genes that influence the actions of stem cells and developing tissues, as past studies from the team has indicated that these alterations affect cancer development. By assessing these gene alterations among breast cancer cells from nearly 3,000 patients, the team found that a gene called B-cell lymphoma/leukemia 11A (BCL11A) was particularly active in triple-negative breast cancer.
The team used both a mouse model and human cells and various techniques to identify the gene. Ribonucleic acid (RNA) from sorted cells was extracted using PicoPure RNA isolation kit (Molecular Devices; Sunnyvale, CA, USA) and real-time polymerase chain reactions (PCR) were run in ABI-7900HT (Applied Biosystems; Foster City, CA, USA) in triplicate. Immunohistochemistry was carried using a fluorescence Axiophot microscope (Zeiss; Oberkochen, Germany).
Increased BCL11A activity was identified in around eight out of 10 basal-like breast cancers and was associated with more aggressive tumors. What is more, when the team reduced BCL11A activity in three samples of human triple-negative breast cancer cells, they found that these cells lost some cancer-like characteristics. When these cells were introduced to mice, they were less likely to drive tumor growth. The team found that BCL11A is important for the normal development of breast stem cells and progenitor cells. Past studies have shown that mutations in these cells may drive the development of basal-like cancers.
Walid Khaled, PhD, the lead author of the study said, “Our gene studies in human cells clearly marked BCL11A as a novel driver for triple-negative breast cancers. By increasing BCL11A activity we increase cancer-like behavior; by reducing it, we reduce cancer-like behavior.” The study was published on January 9, 2015, in the journal Nature Communications.
Related Links:
Wellcome Trust Sanger Institute
Molecular Devices
Applied Biosystems
Platinum Member
COVID-19 Rapid Test
OSOM COVID-19 Antigen Rapid Test
Complement 3 (C3) Test
GPP-100 C3 Kit
New
Gold Member
Liquid Ready-To-Use Lp(a) Reagent
Lipoprotein (a) Reagent
Latest Molecular Diagnostics News
- Blood Proteins Could Warn of Cancer Seven Years before Diagnosis
- New DNA Origami Technique to Advance Disease Diagnosis
- Ultrasound-Aided Blood Testing Detects Cancer Biomarkers from Cells
- New Respiratory Syndromic Testing Panel Provides Fast and Accurate Results
- New Synthetic Biomarker Technology Differentiates Between Prior Zika and Dengue Infections
- Novel Biomarkers to Improve Diagnosis of Renal Cell Carcinoma Subtypes
- RNA-Powered Molecular Test to Help Combat Early-Age Onset Colorectal Cancer
- Advanced Blood Test to Spot Alzheimer's Before Progression to Dementia
- Multi-Omic Noninvasive Urine-Based DNA Test to Improve Bladder Cancer Detection
- First of Its Kind NGS Assay for Precise Detection of BCR::ABL1 Fusion Gene to Enable Personalized Leukemia Treatment
- Urine Test to Revolutionize Lyme Disease Testing
- Simple Blood Test Could Enable First Quantitative Assessments for Future Cerebrovascular Disease
- New Genetic Testing Procedure Combined With Ultrasound Detects High Cardiovascular Risk
- Blood Samples Enhance B-Cell Lymphoma Diagnostics and Prognosis
- Blood Test Predicts Knee Osteoarthritis Eight Years Before Signs Appears On X-Rays
- Blood Test Accurately Predicts Lung Cancer Risk and Reduces Need for Scans
Channels
Clinical Chemistry
view channel
3D Printed Point-Of-Care Mass Spectrometer Outperforms State-Of-The-Art Models
Mass spectrometry is a precise technique for identifying the chemical components of a sample and has significant potential for monitoring chronic illness health states, such as measuring hormone levels... Read more.jpg "Image: Reaching speeds up to 6,000 RPM, this centrifuge forms the basis for a new type of inexpensive, POC biomedical test (Photo courtesy of Duke University)")
POC Biomedical Test Spins Water Droplet Using Sound Waves for Cancer Detection
Exosomes, tiny cellular bioparticles carrying a specific set of proteins, lipids, and genetic materials, play a crucial role in cell communication and hold promise for non-invasive diagnostics.... Read more
Highly Reliable Cell-Based Assay Enables Accurate Diagnosis of Endocrine Diseases
The conventional methods for measuring free cortisol, the body's stress hormone, from blood or saliva are quite demanding and require sample processing. The most common method, therefore, involves collecting... Read more
Molecular Diagnostics
view channel
Blood Proteins Could Warn of Cancer Seven Years before Diagnosis
Two studies have identified proteins in the blood that could potentially alert individuals to the presence of cancer more than seven years before the disease is clinically diagnosed. Researchers found... Read more (1)_1.jpg "Image: Ultrasound image of micro-histotripsy liberation of biomarkers in a tumor (Photo courtesy of Joy Wang and Pradyumna Kedarisetti)"){kind=small}
Ultrasound-Aided Blood Testing Detects Cancer Biomarkers from Cells
Ultrasound imaging serves as a noninvasive method to locate and monitor cancerous tumors effectively. However, crucial details about the cancer, such as the specific types of cells and genetic mutations... Read more_1.jpg "Image: The innovative method to customize and strengthen DNA origami structure promises breakthroughs in medicine (Photo courtesy of Shutterstock)")
.jpg "Image: The QIAstat-Dx Respiratory Panel Plus has received U.S. FDA clearance (Photo courtesy of QIAGEN)")
Hematology
view channel
Next Generation Instrument Screens for Hemoglobin Disorders in Newborns
Hemoglobinopathies, the most widespread inherited conditions globally, affect about 7% of the population as carriers, with 2.7% of newborns being born with these conditions. The spectrum of clinical manifestations... Read more
First 4-in-1 Nucleic Acid Test for Arbovirus Screening to Reduce Risk of Transfusion-Transmitted Infections
Arboviruses represent an emerging global health threat, exacerbated by climate change and increased international travel that is facilitating their spread across new regions. Chikungunya, dengue, West... Read more
POC Finger-Prick Blood Test Determines Risk of Neutropenic Sepsis in Patients Undergoing Chemotherapy
Neutropenia, a decrease in neutrophils (a type of white blood cell crucial for fighting infections), is a frequent side effect of certain cancer treatments. This condition elevates the risk of infections,... Read more
First Affordable and Rapid Test for Beta Thalassemia Demonstrates 99% Diagnostic Accuracy
Hemoglobin disorders rank as some of the most prevalent monogenic diseases globally. Among various hemoglobin disorders, beta thalassemia, a hereditary blood disorder, affects about 1.5% of the world's... Read moreImmunology
view channel.jpg "Image: The AI predictive model identifies the most potent cancer killing immune cells for use in immunotherapies (Photo courtesy of Shutterstock)")
AI Predicts Tumor-Killing Cells with High Accuracy
Cellular immunotherapy involves extracting immune cells from a patient's tumor, potentially enhancing their cancer-fighting capabilities through engineering, and then expanding and reintroducing them into the body.... Read more
Diagnostic Blood Test for Cellular Rejection after Organ Transplant Could Replace Surgical Biopsies
Transplanted organs constantly face the risk of being rejected by the recipient's immune system which differentiates self from non-self using T cells and B cells. T cells are commonly associated with acute... Read more
AI Tool Precisely Matches Cancer Drugs to Patients Using Information from Each Tumor Cell
Current strategies for matching cancer patients with specific treatments often depend on bulk sequencing of tumor DNA and RNA, which provides an average profile from all cells within a tumor sample.... Read more
Genetic Testing Combined With Personalized Drug Screening On Tumor Samples to Revolutionize Cancer Treatment
Cancer treatment typically adheres to a standard of care—established, statistically validated regimens that are effective for the majority of patients. However, the disease’s inherent variability means... Read moreMicrobiology
view channel
Integrated Solution Ushers New Era of Automated Tuberculosis Testing
Tuberculosis (TB) is responsible for 1.3 million deaths every year, positioning it as one of the top killers globally due to a single infectious agent. In 2022, around 10.6 million people were diagnosed... Read more
Automated Sepsis Test System Enables Rapid Diagnosis for Patients with Severe Bloodstream Infections
Sepsis affects up to 50 million people globally each year, with bacteraemia, formerly known as blood poisoning, being a major cause. In the United States alone, approximately two million individuals are... Read more
Enhanced Rapid Syndromic Molecular Diagnostic Solution Detects Broad Range of Infectious Diseases
GenMark Diagnostics (Carlsbad, CA, USA), a member of the Roche Group (Basel, Switzerland), has rebranded its ePlex® system as the cobas eplex system. This rebranding under the globally renowned cobas name... Read more
Clinical Decision Support Software a Game-Changer in Antimicrobial Resistance Battle
Antimicrobial resistance (AMR) is a serious global public health concern that claims millions of lives every year. It primarily results from the inappropriate and excessive use of antibiotics, which reduces... Read moreTechnology
view channel
New Diagnostic System Achieves PCR Testing Accuracy
While PCR tests are the gold standard of accuracy for virology testing, they come with limitations such as complexity, the need for skilled lab operators, and longer result times. They also require complex... Read more
DNA Biosensor Enables Early Diagnosis of Cervical Cancer
Molybdenum disulfide (MoS2), recognized for its potential to form two-dimensional nanosheets like graphene, is a material that's increasingly catching the eye of the scientific community.... Read more
Self-Heating Microfluidic Devices Can Detect Diseases in Tiny Blood or Fluid Samples
Microfluidics, which are miniature devices that control the flow of liquids and facilitate chemical reactions, play a key role in disease detection from small samples of blood or other fluids.... Read more
Breakthrough in Diagnostic Technology Could Make On-The-Spot Testing Widely Accessible
Home testing gained significant importance during the COVID-19 pandemic, yet the availability of rapid tests is limited, and most of them can only drive one liquid across the strip, leading to continued... Read moreIndustry
view channel
Danaher and Johns Hopkins University Collaborate to Improve Neurological Diagnosis
Unlike severe traumatic brain injury (TBI), mild TBI often does not show clear correlations with abnormalities detected through head computed tomography (CT) scans. Consequently, there is a pressing need... Read more
Beckman Coulter and MeMed Expand Host Immune Response Diagnostics Partnership
Beckman Coulter Diagnostics (Brea, CA, USA) and MeMed BV (Haifa, Israel) have expanded their host immune response diagnostics partnership. Beckman Coulter is now an authorized distributor of the MeMed... Read more_1.jpg "Image: Thermo Fisher will distribute Bio-Techne products across Europe (Photo courtesy of 123RF)")
