Nanotechnology reveals newly detected cancer cell defense mechanism

Researchers at Brigham and Women's Hospital, using nanotechnology research infrastructure funded by the U.S. National Science Foundation, observed cancer cells disabling the immune cells attacking them. The cancer cells removed the mitochondria -- the energy source -- of the immune cells through tiny, tentacle-like tubes that connected the two.

Scientists observe cancer cells removing mitochondria from immune cells. Photo: Nature Nanotechnology

"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-author Hae Lin Jang. "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 team used electron microscopy to observe the interactions between cancer cells and immune cells at the nanoscale as they conducted experiments involving co-cultured breast cancer cells and immune cells.

The researchers discovered that the cancer cells had tendrils or tentacles that usually measured between 100 and 1000 nanometers.

The team watched cancer cells fend off attacks by using the tiny tentacles to pull the mitochondria out of the immune cells, strengthening the cancer cells and weakening the attacking immune cells. The research could lead to the next generation of cancer fighting immunotherapies.

"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. "This is a completely new mechanism by which cancer cells evade the immune system and it gives us a new target to go after."

The researchers next turned to examining what would happen if the cancer cells were prevented from disarming the immune cells. Evidence suggests that inhibiting nanotube formation has the potential to improve patient outcomes. (National Science Foundation)

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