A new understanding of lung cancer cells’ “memories” suggests a new strategy for improving treatment, Memorial Sloan Kettering Cancer Center (MSK) researchers have found.
Research from the lab of cancer biologist Tuomas Tammela, MD, PhD shows that some lung cancer cells retain a “memory” of the healthy cell where they came from — one that might be exploited to make an emerging type of lung cancer treatment called KRAS inhibition more effective.
The study looked specifically at lung adenocarcinoma, a type of non-small cell lung cancer that is the most common type of lung cancer in the U.S. and responsible for 7% of all cancer deaths. This cancer is frequently driven by mutations in the KRAS gene.
“For a long time, cancer-driving KRAS proteins were considered ‘undruggable,'” says study co-first author Zhuxuan “Zoe” Li, a doctoral student in the Tammela Lab at MSK’s Sloan Kettering Institute. “Within the last few years, however, the U.S. Food and Drug Administration approved the first KRAS inhibitors, with quite a few more in clinical trials. But they don’t work for everyone, and most patients’ cancers eventually acquire resistance to the drugs and come back.”
The team’s findings — co-led by postdoctoral fellow Xueqian Zhuang, PhD — shed important light on lung cancer cells that linger after treatment with a KRAS inhibitor. Importantly, they suggest that separately targeting these cells alongside treatment with a KRAS inhibitor could help prevent recurrence. The study was recently published in Cancer Discovery, a leading journal for biological insights that have important implications for clinical care.
Stem Cells With a Day Job’
To understand the MSK discovery and its implications, it’s helpful to know a little lung biology.
Within the lungs, oxygen is absorbed and carbon dioxide released via air sacs called alveoli. The lining of the alveoli is made of two distinct types of cells — alveolar type 1 (AT1) and alveolar type 2 (AT2).
And while they’re similarly named, these two cells couldn’t be more different.
AT1 cells are long and thin, with a large surface to facilitate gas exchange between the lungs and the bloodstream.
AT2 cells, meanwhile, play a caretaking role, secreting compounds that are important for the health and function of the lungs, as well as helping maintain and repair the lungs by dividing to create replacement AT1 cells.
“You can think of them as stem cells with a day job,” Dr. Tammela says.
The big problem comes when lung cancer cells — which typically develop from AT2 cells — take on some “remembered” properties of the AT1 cells that AT2 cells differentiate into when they’re playing their stem cell role. Scientists call these cancer cells “AT1-like” cells.
Eliminating AT1-Like Cells Improves Response to KRAS Inhibition
In healthy cells, KRAS plays a key role in regulating cell growth and division. But when the gene becomes mutated, it can lead to runaway cell proliferation.
KRAS inhibitors can switch off this explosive growth, greatly diminishing tumors, but they still leave behind pockets of cancer cells that aren’t sensitive to the drug, and that also give the cancer a chance to develop new mutations to resist the drugs’ effects.
The research team painstakingly studied these residual cancer cells to uncover the mechanisms of this resistance using genetically engineered mouse models, mice implanted with patient-derived tumors, and tumor samples from patients.
They discovered that the cancer cells that remained after treatment were these AT1-like cells. They also found these cells have the capacity to reignite the cancer’s runaway growth.
“Importantly, we found that if you get rid of these AT1-like cells, it greatly improves the treatment response to KRAS inhibitors,” Dr. Tammela says.
Eliminating those cells in experimental models is relatively easy, but doing so in the clinic will require further research.
“We actually live in a very exciting time with fantastic pharmacology,” Dr. Tammela says. “We can engineer molecules to bind to a certain cell type and kill them — this is how CAR T cell therapy and antibody drug conjugates work.
“Now that we’ve done these proof-of-concept experiments, the next step would be to find surface proteins that are unique to these AT1-like cells and then develop a therapeutic that can bind to them and kill them,” he adds.
Alphabet Inc.'s Google called a US Justice Department plan to force it to sell its…
India 314 for 9 (Mandhana 91, Harleen 44, James 5-45) beat West Indies 103 (Fletcher…
Stellantis is looking to patent heated wheel wells to keep snow and ice from building…
A research team co-led by a physician-scientist at the University of Arizona College of Medicine…
We've seen the launch of several smartphones in India in 2024, from entry-level handsets to…
The Bangladesh Cricket Board (BCB) has introduced national contracts for an additional 30 female cricketers…