Medical

Stanford breakthrough uses stem cells to create possible cancer vaccine

Stanford breakthrough uses stem cells to create possible cancer vaccine
New research suggests adult stem cells could be harvested from patients and repurposed into personalized cancer vaccines
New research suggests adult stem cells could be harvested from patients and repurposed into personalized cancer vaccines
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New research suggests adult stem cells could be harvested from patients and repurposed into personalized cancer vaccines
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New research suggests adult stem cells could be harvested from patients and repurposed into personalized cancer vaccines

An impressive new study from researchers at Stanford University has found that mice injected with inactivated induced pluripotent stem cells (iPSCs) display significant immune system responses to a variety of cancers. If the study can be replicated in humans this research could pave the way for a groundbreaking personalized cancer treatment that essentially vaccinates patients against many types of tumors.

Induced pluripotent stem cells are stem cells that can be harvested from adult subjects, often just from skin or blood samples, and then genetically treated to revert into a pluripotent stage, meaning they can grow into any type of cell in the human body. The first big revelation in the new research came when the Stanford team discovered that iPSCs are superficially very similar to tumor cells, suggesting a potential use in helping "train" the immune system to better target cancers.

Testing the theory, researchers administered a group of mice the potential cancer vaccine - genetically matched, inactivated iPSCs in combination with a generic immune-stimulating agent known as an adjuvant. After four weekly injections of the vaccine, the mice were implanted with mouse breast cancer cells.

In the control groups the cancer grew and developed, but in 70 percent of the vaccinated mice the tumors reduced in size significantly, while cancer cells were completely eliminated in two mice, which went on to live for over one year following the experiment. The results were subsequently replicated using skin cancer and lung cancer cell lines.

"This approach is particularly powerful because it allows us to expose the immune system to many different cancer-specific epitopes simultaneously," explains lead author Nigel Kooreman. "Once activated, the immune system is on alert to target cancers as they develop throughout the body."

The giant question mark that hovers over this research is whether it will translate into human subjects. The next step for the team is to investigate whether the process works in human cells in vitro, before potentially moving to human patient trials. The ultimate idea being that patients would receive their own iPSCs in conjunction with traditional cancer treatments.

"Although much research remains to be done, the concept itself is pretty simple," says Joseph Wu, senior author of the study. "We would take your blood, make iPS cells and then inject the cells to prevent future cancers. I'm very excited about the future possibilities."

Other researchers not involved in this specific study are more cautious with their assessment. Daniel Davis, Professor of Immunology at the University of Manchester suggests that there is no indication in the research that this treatment is at all applicable in human subjects.

"In the meantime," Davis adds, "as scientists often quip, this is good news for mice."

The research was published in the journal Cell Stem Cell.

Source: Stanford Medicine

2 comments
2 comments
Wolf0579
Given the greed of Big Pharma, I can see the cost of this treatment exceeding $100,000. "If you have the money, we can provide the extra lifespan!"
wenai
This is the last we will ever hear of this 'cure'.