To grow and spread, cancer cells must evade the immune system. Investigators from Brigham and Women’s Hospital and MIT used the power of nanotechnology to discover a new way that cancer can disarm its would-be cellular attackers by extending out nanoscale tentacles that can reach into an immune cell and pull out its powerpack. Slurping out the immune cell’s mitochondria powers up the cancer cell and depletes the immune cell. The new findings, published in Nature Nanotechnology, could lead to new targets for developing the next generation of immunotherapy against cancer.
“Cancer kills when the immune system is suppressed and cancer cells are able to metastasize, and it appears that nanotubes can help them do both,” said corresponding author Shiladitya Sengupta, Ph.D., co-director of the Brigham’s Center for Engineered Therapeutics. “This is a completely new mechanism by which cancer cells evade the immune system and it gives us a new target to go after.”
To investigate how cancer cells and immune cells interact at the nanoscale level, Sengupta and colleagues set up experiments in which they co-cultured breast cancer cells and immune cells, such as T cells. Using field-emission scanning electron microscopy, they caught a glimpse of something unusual: Cancer cells and immune cells appeared to be physically connected by tiny tendrils, with widths mostly in the 100-1000 nanometer range. (For comparison, a human hair is approximately 80,000 to 100,000 nanometers). In some cases, the nanotubes came together to form thicker tubes. The team then stained mitochondria—which provide energy for cells—from the T cells with a fluorescent dye and watched as bright green mitochondria were pulled out of the immune cells, through the nanotubes, and into the cancer cells.
“By carefully preserving the cell culture condition and observing intracellular structures, we saw these delicate nanotubes and they were stealing the immune cells‘ energy source,” said co-corresponding author Hae Lin Jang, Ph.D., a principal investigator in the Center for Engineered Therapeutics. “It was very exciting because this kind of behavior had never been observed before in cancer cells. This was a tough project as the nanotubes are fragile and we had to handle the cells very gently to not break them.”
The researchers then looked to see what would happen if they prevented the cancer cells from hijacking mitochondria. When they injected an inhibitor of nanotube formation into mouse models used for studying lung cancer and breast cancer, they saw a significant reduction in tumor growth.
“One of the goals in cancer immunotherapy is to find combinations of therapies that can improve outcomes,” said lead author Tanmoy Saha, Ph.D., a postdoctoral researcher in the Center for Engineered Therapeutics. “Based on our observations, there is evidence that an inhibitor of nanotube formation could be combined with cancer immunotherapies and tested to see if it can improve outcomes for patients.”
News
Could Vitamin C Be the Secret to Keeping Your Brain Younger?
Lower vitamin C levels were linked to reduced brain volume and weaker neural connectivity in older adults, suggesting a potential connection between nutrition and brain health. Could a common vitamin help preserve the brain [...]
This Deadly Disease Was Wiping Out Humans 5,500 Years Ago
A new study suggests plague was already a deadly threat 5,500 years ago, striking small hunter-gatherer communities long before cities and agriculture emerged. For centuries, plague has been remembered as the disease that devastated [...]
China closing in but US leads in biotech quality, commercial reach, survey finds
SAN DIEGO, June 22 (Reuters) - China, which now conducts more clinical drug trials, opens new tab than the U.S., still lags in the quality and commercial reach of its biomedical science, according to a recent survey, opens new [...]
New method generates renewable supply of progenitor immune cells
In a paper published in Cell, a USC Stem Cell-led team reports a new way of generating a renewable and expandable supply of the progenitor cells that give rise to macrophages. These immune cells help [...]
Scientists Just Discovered a Cellular Survival System That Was Never Supposed To Exist
A surprising backup pathway allows cells to make a crucial amino acid when their primary machinery fails. For decades, biologists believed cells had only one way to access a molecule they cannot live without. New [...]
Artificial cells gain porous membranes, enabling lab reactions and drug release
Artificial cells created in the laboratory offer a wide range of potential applications. Until now, however, their membranes—unlike those of real cells—have been virtually impermeable. Researchers at the Max Planck Institute for Polymer Research, [...]
Popular Weight-Loss Drugs Like Ozempic Linked to Lower Breast Cancer Risk
Ozempic and similar weight-loss drugs were linked to a striking 30% reduction in breast cancer risk in a study of more than 110,000 women. Popular weight-loss and diabetes medications such as Ozempic, Wegovy, Mounjaro, [...]
Stanford Scientists Discover Explosive New Type of Immune Cell
Scientists studying the remarkable regenerative abilities of planarian flatworms have uncovered a previously unknown type of immune cell with an unusually destructive defense strategy. What if an immune cell could wipe out nearby threats [...]
Big Pharma-backed SonoThera sounds off with $125M series B for bubble-based genetic delivery
Bay Area biotech SonoThera is bubbling to a clinical boil after raising a $125 million series B with the backing of some of the biggest names in pharma. Vida Ventures led the raise, with the venture [...]
Joint initiative of 5 EU countries calls for ‘unified approach’ to pharma framework amid US drug pricing pressure
With drug pricing pressure building from the U.S., a healthcare-focused consortium of five European countries is calling for a “unified approach” to strengthen Europe’s pharmaceutical framework and access to innovative medicines. Belgium, the Netherlands, [...]
Our books now available worldwide!
Online Sellers other than Amazon, Routledge, and IOPP Indigo Global Health Care Equivalency in the Age of Nanotechnology, Nanomedicine and Artifcial Intelligence Global Health Care Equivalency In The Age Of Nanotechnology, Nanomedicine And Artificial [...]
Molecular Manufacturing: The Future of Nanomedicine – New book from NanoappsMedical Inc.
This book explores the revolutionary potential of atomically precise manufacturing technologies to transform global healthcare, as well as practically every other sector across society. This forward-thinking volume examines how envisaged Factory@Home systems might enable the cost-effective [...]
NanoMedical Brain/Cloud Interface – Explorations and Implications. A new book from Frank Boehm
New book from Frank Boehm, NanoappsMedical Inc Founder: This book explores the future hypothetical possibility that the cerebral cortex of the human brain might be seamlessly, safely, and securely connected with the Cloud via [...]
New book from Nanoappsmedical Inc. – Global Health Care Equivalency
A new book by Frank Boehm, NanoappsMedical Inc. Founder. This groundbreaking volume explores the vision of a Global Health Care Equivalency (GHCE) system powered by artificial intelligence and quantum computing technologies, operating on secure [...]
UCLA Scientists Uncover a “Hidden Weakness” in Some of the World’s Deadliest Cancers
A new study has uncovered an unexpected vulnerability in some of the deadliest cancers. Researchers at UCLA have identified a previously hidden weakness in some of the most aggressive cancers, pointing to a possible new way [...]
AI-designed universal coronavirus vaccine clears first human trial
Key Takeaways Super-Antigen Technology: Uses AI and machine learning to analyze viral genomes, creating a single vaccine that targets essential features across entire virus families, including coronaviruses and Ebola. Human Trials & Safety: Phase [...]
