(Press-News.org) Despite having an overall survival rate of 94%, B-cell acute lymphoblastic leukemia (B-ALL), the most common childhood cancer, can prove challenging to treat, with survival among relapsed or resistant cases falling between 30-50%. Recent work by St. Jude Children’s Research Hospital scientists discovered which tumor cells resist treatment and why. This enabled the rational design of a combination therapy that better controlled high-risk subtypes of B-ALL in mouse models. The findings were published today in Cancer Cell.
“We found a new explanation of B-ALL sensitivity to asparaginase, which is one of the most commonly used drugs for this disease,” said senior co-corresponding author Jun J. Yang, PhD, St. Jude Department of Pharmacy and Pharmaceutical Sciences vice-chair. “Although asparaginase has been around for almost 50 years, the way we use this drug for ALL remains imprecise. This is partly because we still do not fully understand the mechanism by which it kills leukemia cells.”
Scientists showed combining the classic drug asparaginase (a chemotherapy) with a newer drug, venetoclax (a BCL-2 targeted therapy), was most effective at treating B-ALL in laboratory models. The combination reduced the number of leukemia cells more than either drug alone and worked faster. The improved effects were consistent across three different high-risk subtypes of this cancer.
“This discovery was enabled by single-cell systems biology analysis of B cell development and integration with B-ALL drug sensitivity profiling and bulk RNA-sequencing data,” said co-corresponding author Jiyang Yu, PhD, St. Jude Department of Computational Biology interim chair. “Our single-cell network analysis revealed the protein BCL-2 as a hidden vulnerability in the asparaginase-resistant tumor developmental stage.”
“Administering asparaginase alongside venetoclax may lower the risk of ALL relapse, the major reason for treatment failure,” said co-author Ching-Hon Pui, MD, St. Jude Department of Oncology Fahad Nassar Al-Rashid Endowed Chair of Leukemia Research. “Ideally, we aim for venetoclax to potentiate the anti-leukemia properties of asparaginase while keeping its toxicity levels in check. These concepts warrant further investigation in future clinical trials.”
Venetoclax is already Food and Drug Administration–approved for use in other pediatric cancers, making it an attractive candidate. The drug has proven safe in those settings, paving the way for future approval in B-ALL treatment. The largest hurdle was understanding how venetoclax works with asparaginase to stop B-cell leukemia.
B-cell development stage is a challenge and vulnerability in B-ALL
B-ALL is a cancer derived from white blood cells called B cells. Under normal circumstances, B cells develop from immature to fully mature, passing through eight steps. In cancers, cells can get stuck in an intermediate stage of development. In a related disease, T-cell acute lymphoblastic leukemia, Yang and Yu previously found, as reported in Nature Cancer 2021, that the developmental stage where T cells get stuck determines their sensitivity to therapeutics. The researchers wanted to understand what made cells in a specific stage respond to which drug, hoping that such understanding would present new therapeutic opportunities.
“In this case, we found tumor B cells are stuck in two major stages,” Yu said. “One is an earlier stage that is more resistant to asparaginase and another later stage that is more sensitive to it.”
Yu looked at gene expression data from hundreds of thousands of individual cancerous B cells to understand what was different about them. After identifying the two dominant B-cell development stages of B-ALL, pre-pro-B (early) and pro-B (late), his lab looked for the genes upregulated in the resistant early cells to identify potential vulnerabilities to target therapeutically.
“The protein BCL-2 caught our attention, as it seems to be a driver of asparaginase-resistance in leukemia cells with pre-pro-B features,” Yu said.
B cell lymphoma protein 2 (BCL-2) is a protein involved in cell death. Cancer cells use it to evade the systems that normally cause them to self-destruct. The protein is also downstream of mTOR, the protein targeted by asparaginase. Findings showed that BCL-2 was activated in cancer cells resistant to that drug. That resistance relationship motivated the scientists to try venetoclax, which targets the protein BCL-2, in a combination approach.
“When you add asparaginase, you hit mTOR signaling,” Yang said. “In turn, that upregulates the BCL-2 activity, making the cells more sensitive to venetoclax.”
The work also has implications for other cancers because incorrect development underlies many forms of the disease. Single-cell gene sequencing and analysis may provide similar opportunities to improve therapies in those contexts.
“We showed that developmental arrest of cancer cells can make them sensitive to certain drugs,” Yang said. “Once we determine the pathways involved, we can find new drug combinations to improve treatment outcomes.”
Authors and funding
The study’s co-first authors are Xin Huang and Yizhen Li, of St. Jude, and Jingliao Zhang, formerly of St. Jude and now of the Chinese Academy of Medical Sciences & Peking Union Medical College. The study’s other authors are Xiaofan Zhu and Yingchi Zhang, Chinese Academy of Medical Sciences & Peking Union Medical College; Mark Litzow, Mayo Clinic; Wendy Stock, University of Chicago; Nitin Jain, Elias Jabbour and Steven Kornblau, The University of Texas MD Anderson Cancer Center; Marina Konopleva and Elisabeth Paietta, Albert Einstein College of Medicine; Lei Yan, Huanbin Zhao, Liang Ding, Sheetal Bhatara, Xu Yang, Satoshi Yoshimura, Wenjian Yang, Seth Karol, Hiroto Inaba, Charles Mullighan, Ching-Hon Pui and William Evans, St. Jude.
The study was supported by grants from the National Institutes of Health (R01GM134382, U01CA264610, R35GM141947, R01CA264837, U10CA180820, UG1CA189859 and UG1CA232760), Department of Defense (W81XWH-20-1-0567), St. Baldrick’s Foundation, the Lynch family and ALSAC, the fundraising and awareness organization of St. Jude.
St. Jude Children's Research Hospital
St. Jude Children's Research Hospital is leading the way the world understands, treats and cures childhood cancer, sickle cell disease, and other life-threatening disorders. It is the only National Cancer Institute-designated Comprehensive Cancer Center devoted solely to children. Treatments developed at St. Jude have helped push the overall childhood cancer survival rate from 20% to 80% since the hospital opened more than 60 years ago. St. Jude shares the breakthroughs it makes to help doctors and researchers at local hospitals and cancer centers around the world improve the quality of treatment and care for even more children. To learn more, visit stjude.org, read St. Jude Progress, a digital magazine, and follow St. Jude on social media at @stjuderesearch.
END
Targeting vulnerability in B-cell development leads to novel drug combination for leukemia
By characterizing B-cells’ developmental stages, scientists at St. Jude Children’s Research Hospital designed and tested a drug combination to effectively treat resistant B-cell leukemia.
2024-04-08
ELSE PRESS RELEASES FROM THIS DATE:
People make more patient decisions when shown the benefits first
2024-04-08
Key takeways
UCLA psychologists asked experiment participants to choose to receive $40 in seven days or $60 in 30 days, for example, under a variety of time constraints.
The experiment showed that people tend to make more impulsive decisions if they think about time delays first, and more patient decisions if they think about the greater reward associated with waiting longer.
The findings could be applied where people are being encouraged to make life choices that will benefit them in the long run, such as eating healthier, exercising or saving for retirement, by emphasizing the future large rewards and deemphasizing ...
New diagnostic tool achieves accuracy of PCR tests with faster and simpler nanopore system
2024-04-08
EMBARGOED UNTIL APRIL 8, 2024 AT 3:00 PM U.S. ET/ 12:00 PM PT
Over the past four years, many of us have become accustomed to a swab up the nose to test for COVID-19, using at-home rapid antigen tests or the more accurate clinic-provided PCR tests with a longer processing time. Now a new diagnostic tool developed by UC Santa Cruz Distinguished Professor of Electrical and Computer Engineering Holger Schmidt and his collaborators can test for SARS-CoV-2 and Zika virus with the same or better accuracy as high-precision PCR tests in a matter of hours.
In a new paper in the journal Proceedings of the National Academy of Sciences, Schmidt ...
Pregnancy accelerates biological aging in a healthy, young adult population
2024-04-08
Pregnancy may carry a cost, reports a new study from the Columbia University Mailman School of Public Health. The research, carried out among 1735 young people in the Philippines, shows that women who reported having been pregnant looked biologically older than women who had never been pregnant, and women who had been pregnant more often looked biologically older than those who reported fewer pregnancies. Notably, the number of pregnancies fathered was not associated with biological aging among same-aged cohort ...
Different means to the same end: How a worm protects its chromosomes
2024-04-08
University of Michigan researchers have discovered that a worm commonly used in the study of biology uses a set of proteins unlike those seen in other studied organisms to protect the ends of its DNA.
In mammals, shelterin is a complex of proteins that "shelters" the ends of our chromosomes from unraveling or fusing together. Keeping chromosomes from fusing together is an important job: chromosomes carry our body's DNA. If chromosome ends fuse, or if they fuse with other chromosomes, ...
ADA Forsyth scientists discover new phage resistance mechanism in phage-bacterial arms race
2024-04-08
One of the most abundant and deadliest organisms on earth is a virus called a bacteriophage (phage). These predators have lethal precision against their targets – not humans, but bacteria. Different phages have evolved to target different bacteria and play a critical role in microbial ecology. Recently, ADA Forsyth scientists exploring the complex interactions of microbes in the oral microbiome discovered a third player influencing the phage-bacterial arms race – ultrasmall bacterial parasites, called Saccharibacteria or TM7.
In the study, which appeared in Proceedings of the National Academy of Sciences ...
Deep parts of Great Barrier Reef ‘insulated’ from global warming – for now
2024-04-08
Some deeper areas of the Great Barrier Reef are insulated from harmful heatwaves – but that protection will be lost if global warming continues, according to new research.
High surface temperatures have caused mass “bleaching” of the Great Barrier Reef in five of the last eight years, with the latest happening now.
Climate change projections for coral reefs are usually based on sea surface temperatures, but this overlooks the fact that deeper water does not necessarily experience the same warming as that at the surface.
The new study – ...
How climate change will impact food production and financial institutions
2024-04-08
Researchers at the University of California San Diego School of Global Policy and Strategy have developed a new method to predict the financial impacts climate change will have on agriculture, which can help support food security and financial stability for countries increasingly prone to climate catastrophes.
The study, published today in the Proceedings of the National Academy of Sciences, uses climate and agricultural data from Brazil. It finds that climate change has a cascading effect on farming, leading to increased loan defaults for ...
MSU researchers find more action needed to prevent arthritis
2024-04-08
MSU has a satellite uplink/LTN TV studio and Comrex line for radio interviews upon request.
EAST LANSING, Mich. – The prevalence of early knee osteoarthritis (OA) symptoms faced by patients after anterior cruciate ligament (ACL) reconstruction is staggering — but not much is being done to address it according to new research published by scholars from Michigan State University’s Department of Kinesiology.
The study – published by the Journal of Athletic ...
Americans are bad at recognizing conspiracy theories when they believe they’re true
2024-04-08
Conspiracy theorists get a bad rap in popular culture, yet research has shown that most Americans believe conspiracy theories of some sort. Why then, if most of us believe conspiracies, do we generally think of conspiracy theorists as loony?
New research from the University of Illinois Chicago found that it’s because people are quite bad at identifying what is or isn’t a conspiracy theory when it’s something they believe. The finding held true whether people self-identified as being liberal ...
Skin pigmentation bias in pulse oximeters to get closer look
2024-04-08
By Beth Miller
Pulse oximeters send light through a clip attached to a finger to measure oxygen levels in the blood noninvasively. Although the technology has been used for decades — and was heavily used during the COVID-19 pandemic — there is increasing evidence that it has a major flaw: it may provide inaccurate readings in individuals with more melanin pigment in their skin. The problem is so pervasive that the U.S. Food & Drug Administration recently met to find new ways to better evaluate the accuracy and performance of the devices in patients with more pigmented skin.
Christine O’Brien, assistant professor of biomedical ...
LAST 30 PRESS RELEASES:
“Genetic time machine” reveals complex chimpanzee cultures
Earning money while making the power grid more stable – energy consumers have a key role in supporting grid flexibility
No ‘one size fits all’ treatment for Type 1 Diabetes, study finds
New insights into low-temperature densification of ceria-based barrier layers for solid oxide cells
AI Safety Institute launched as Korea’s AI Research Hub
Air pollution linked to longer duration of long-COVID symptoms
Soccer heading damages brain regions affected in CTE
Autism and neural dynamic range: insights into slower, more detailed processing
AI can predict study results better than human experts
Brain stimulation effectiveness tied to learning ability, not age
Making a difference: Efficient water harvesting from air possible
World’s most common heart valve disease linked to insulin resistance in large national study
Study unravels another piece of the puzzle in how cancer cells may be targeted by the immune system
Long-sought structure of powerful anticancer natural product solved by integrated approach
World’s oldest lizard wins fossil fight
Simple secret to living a longer life
Same plant, different tactic: Habitat determines response to climate
Drinking plenty of water may actually be good for you
Men at high risk of cardiovascular disease face brain health decline 10 years earlier than women
Irregular sleep-wake cycle linked to heightened risk of major cardiovascular events
Depression can cause period pain, new study suggests
Wistar Institute scientists identify important factor in neural development
New imaging platform developed by Rice researchers revolutionizes 3D visualization of cellular structures
To catch financial rats, a better mousetrap
Mapping the world's climate danger zones
Emory heart team implants new blood-pumping device for first time in U.S.
Congenital heart defects caused by problems with placenta
Schlechter named Cancer Moonshot Scholar
Two-way water transfers can ensure reliability, save money for urban and agricultural users during drought in Western U.S., new study shows
New issue of advances in dental research explores the role of women in dental, clinical, and translational research
[Press-News.org] Targeting vulnerability in B-cell development leads to novel drug combination for leukemiaBy characterizing B-cells’ developmental stages, scientists at St. Jude Children’s Research Hospital designed and tested a drug combination to effectively treat resistant B-cell leukemia.