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Medicine

Scientists Use Nanoparticles To Break Through Shield That Brain Tumors Use To Avoid Detection By the Immune System (sciencedaily.com) 9

Scientists from the University of Michigan have "fabricated a nanoparticle to deliver an inhibitor to brain tumor in mouse models, where the drug successfully turned on the immune system to eliminate the cancer," reports ScienceDaily. "The process also triggered immune memory so that a reintroduced tumor was eliminated -- a sign that this potential new approach could not only treat brain tumors but prevent or delay recurrences." From the report: The small molecule inhibitor AMD3100 was developed to block the action of CXCR12, a cytokine released by the glioma cells that builds up a shield around the immune system, preventing it from firing up against the invading tumor. Researchers showed in mouse models of glioma that AMD3100 prevented CXCR12 from binding with immune-suppressive myeloid cells. By disarming these cells, the immune system remains intact and can attack the tumor cells. But AMD3100 was having trouble getting to the tumor. The drug did not travel well through the bloodstream, and it did not pass the blood brain barrier, a key issue with getting drugs into the brain.

The Castro-Lowenstein lab collaborated with Joerg Lahann, Ph.D., Wolfgang Pauli Collegiate Professor of Chemical Engineering at the U-M College of Engineering, to create protein-based nanoparticles to encapsulate the inhibitor, in the hopes of helping it pass through the bloodstream. Castro also connected with Anuska V. Andjelkovic, M.D., Ph.D., professor of pathology and research professor of neurosurgery at Michigan Medicine, whose research focuses on the blood brain barrier. They noted that glioma tumors create abnormal blood vessels, interfering with normal blood flow.

The researchers injected AMD3100-loaded nanoparticles into mice with gliomas. The nanoparticles contained a peptide on the surface that binds to a protein found mostly on the brain tumor cells. As the nanoparticles traveled through the bloodstream toward the tumor, they released AMD3100, which restored the integrity of the blood vessels. The nanoparticles could then reach their target, where they released the drug, thus blocking the entry of the immune-suppressive myeloid cells into the tumor mass. This allowed the immune cells to kill the tumor and delay its progression. [...] Among the mice whose tumors were eliminated, the researchers then reintroduced the tumor, simulating a recurrence. Without any additional therapy, 60% of mice remained cancer-free.
The research has been published in the journal ACS Nano.
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Scientists Use Nanoparticles To Break Through Shield That Brain Tumors Use To Avoid Detection By the Immune System

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  • Hopefully no other unintentional "nano-particles" breaking through our shields. e.g. pollution.

    • People are intentionally releasing nano-particles explicitly intended to break through your shields, e.g. musk in perfume. As a hormone its job is to penetrate cell walls, and toxins in fragrances can follow them through.

    • That was my first thought, but of course medicine is playing with fire, pretty much by definition. Just gotta play very carefully.
    • Yes, but consider the opposite case. This is what annoys me. Billions and billions wasted and tossed at energy measures designed to pump money in CA and China instead of spent of useful engineering to actually resolve the problem WITHOUT everyone going back to living in huts and riding camels... until we ban camel riding as a form of slavery.
  • This is how it happens.

  • ... always missing from the headlne

    • by Barny ( 103770 )

      From the headline, yeah, but at least in the summery—not that anyone reads that, of course.

  • Having seen glioblastoma from close up and seeing my partner die from it a horrible death, I would say this might finally be something that would be worth taking a risk for.
    • Hope you are coping ok and take care of yourself. My Dad also died from GBM. Unless if someone experienced how terrible the disease was they wouldnt understand how much this is of a breakthrough. None of the treatment can really be delivered passed brain blood barrier and there hasn't been much advancement in decades. This approach has been discussed for ages in university thesis. Anyway hope this will work successfully and pass clinical trail.

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