| Posted: March 26, 2009 |
Twin nanoparticle shown effective at targeting, killing breast cancer cells |
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(Nanowerk News) A team of investigators at Brown University has developed a novel way to treat a class of breast cancer cells. The team has created twin nanoparticles that specifically targets the Her-2 tumor cell and unload a cancer-fighting drug directly into it. The result is a boost in antitumor activity while minimizing side effects. The findings of this study have been published in the Journal of the American Chemical Society (Dumbbell-like Au-Fe3O4 Nanoparticles for Target-Specific Platin Delivery).
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Breast cancer patients face many horrors, including those that arise when fighting the cancer itself. Medications given during chemotherapy can have wicked side effects, including vomiting, dizziness, anemia, and hair loss. These side effects occur because medications released into the body target healthy cells as well as tumor cells.
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The trick becomes how to deliver cancer-fighting drugs directly to the tumor cells. Brown University chemists think they have an answer: They have created twin nanoparticles that specifically target the Her-2-positive tumor cell, a type of malignant cell that affects up to 30% of breast cancer patients.
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“Like a missile, you don’t want the anticancer drugs to explode everywhere,” explained Shouheng Sun, Ph.D., the study’s lead investigator. “You want it to target the tumor cells and not the healthy ones.”
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The researchers created the twin nanoparticle by binding one gold nanoparticle with an iron oxide (Fe3O4) nanoparticle. On one end, they attached a synthetic protein antibody to the iron oxide nanoparticle. On the other end, they attached cisplatin to the gold nanoparticle. Visually, the whole contraption looks like an elongated dumbbell, but it may be better to think of it as a vehicle, equipped with a very good global positioning system (GPS), that is ferrying a very important passenger.
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In this case, the GPS comes from the iron oxide nanoparticle, which homes in on a Her-2 breast cancer cell like a guided missile. The attached antibody is critical, because it binds to the antigen, a protein located on the surface of the malignant cell. Put another way, the nanoparticle vehicle “docks” on the tumor cell when the antibody and the antigen become connected. Once docked, the vehicle unloads its “passenger,” the cisplatin, into the malignant cell.
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In a neat twist, the Brown-led team used a pH-sensitive covalent bond to connect the gold nanoparticle with the cisplatin to ensure that the drug was not released into the body but remained attached to the nanoparticle until it was time for it to be released into the malignant cell. In laboratory tests, the gold-iron oxide nanoparticle combination successfully targeted the cancer cells and released the anticancer drugs into the malignant cells, killing the cells in up to 80% of cases. “We’ve made a Mercedes Benz now,” Dr. Sun joked. “It’s not a Honda Civic anymore.”
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The research builds on previous work in Dr. Sun’s lab, where researchers created peptide-coated, iron oxide nanoparticles that, in tests with mice, successfully located a brain tumor cell called U87MG. The researchers will test the breast cancer nanoparticle system in laboratory tests with animals. They also plan to create twin nanoparticles that can release the drug via remote-controlled magnetic heating.
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