Targeting nitrated proteins could lead to new cancer drugs
Glioblastoma multiforme is a type of cancer that develops in the brain. Aggressive and difficult to treat, tumors respond to few drugs, and most patients are treated with methods developed about 20 years ago. Kyle Nguyen, a second-year Ph.D. student in ’s laboratory at Oregon State University, has been looking for a new way to target these tumors. He will present on Friday, 3–3:15 p.m. EDT, at the 2021 91ÑÇÉ«´«Ã½ Annual Meeting.
In broad terms, the Franco lab is interested in the role of oxidative stress in diseases of the nervous system. Oxidative stress is a chemical imbalance inside cells that leads to an accumulation of oxidants that damage healthy cells. It has been linked to , including cancer. The lab studies the role of oxidants in the development and growth of tumors of the nervous system.
is the most powerful oxidant produced in cancer cells and in cells associated with other diseases. When peroxynitrite reacts with proteins it causes oxidative changes that can negatively affect the way the proteins work in the cells. “As far as we know, these are permanent chemical changes,” Nguyen said.
The lab is interested in tyrosine nitration, one of the changes mediated by peroxynitrite. Tyrosine nitration is virtually undetectable in normal tissues, Nguyen explained, so drugs that target nitrated proteins would not affect healthy cells. His project looked at tyrosine nitration of a protein called heat shock protein 90, or . Nitrated Hsp90 promotes the survival of tumor cells, and this role is mediated by nitration of tyrosine residues within this protein.
In his work, Nguyen shows that tyrosine nitration supports the survival and migration of glioblastoma cells and thus is important for tumor development, and that nitrated Hsp90 may play more than one role in these tumors. Non-tumor cells do not have nitrated Hsp90 and tumor cells do, so targeting nitrated Hsp90 or other nitrated proteins could selectively kill tumor cells with few side effects.
Enjoy reading 91ÑÇÉ«´«Ã½ Today?
Become a member to receive the print edition four times a year and the digital edition monthly.
Learn moreGet the latest from 91ÑÇÉ«´«Ã½ Today
Enter your email address, and we’ll send you a weekly email with recent articles, interviews and more.
Latest in Science
Science highlights or most popular articles
Targeting toxins to treat whooping cough
Scientists find that liver protein inhibits of pertussis toxin, offering a potential new treatment for bacterial respiratory disease. Read more about this recent study from the Journal of Biological Chemistry.
Elusive zebrafish enzyme in lipid secretion
Scientists discover that triacylglycerol synthesis enzyme drives lipoproteins secretion rather than lipid droplet storage. Read more about this recent study from the Journal of Biological Chemistry.
Scientists identify pan-cancer biomarkers
Researchers analyze protein and RNA data across 13 cancer types to find similarities that could improve cancer staging, prognosis and treatment strategies. Read about this recent article published in Molecular & Cellular Proteomics.
New mass spectrometry tool accurately identifies bacteria
Scientists develop a software tool to categorize microbe species and antibiotic resistance markers to aid clinical and environmental research. Read about this recent article published in Molecular & Cellular Proteomics.
New tool matches microbial and metabolic metaproteomic data
Scientists develop a bioinformatics program that maps omics data to metabolic pathways. Read about this recent article published in Molecular & Cellular Proteomics
Meet Paul Shapiro
Learn how the JBC associate editor went from milking cows on a dairy farm to analyzing kinases in the lab.