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Injectable plant-based nanoparticles delay tumor progression

New research suggests co-administration with chemotherapy drugs most effective strategy

Date:
June 28, 2017
Source:
Case Western Reserve University
Summary:
Researchers discovered injecting potato virus particles into melanoma tumor sites activates an anti-tumor immune system response. And simultaneously injecting the nanoscale plant virus particles and a chemotherapy drug--doxorubicin--into tumor sites further helps halt tumor progression in mice.
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Researchers from Case Western Reserve University School of Medicine in collaboration with researchers from Dartmouth Geisel School of Medicine and RWTH Aachen University (Germany) have adapted virus particles -- that normally infect potatoes -- to serve as cancer drug delivery devices for mice. But in a recent article published in Nano Letters, the team showed injecting the virus particles alongside chemotherapy drugs, instead of packing the drugs inside, may provide an even more potent benefit.

The researchers discovered injecting potato virus particles into melanoma tumor sites activates an anti-tumor immune system response. And simultaneously injecting the nanoscale plant virus particles and a chemotherapy drug -- doxorubicin -- into tumor sites further helps halt tumor progression in mice. But surprisingly, when the researchers created and injected combination nanoparticles, where the chemo drug is physically attached to the virus particles, there was not a significant added benefit.

The results are the first to show "vaccinating" mice with potato virus nanoparticles at a cancer site can generate an anti-tumor response. But the results also suggest more complex nanoparticles may not correspond to added therapeutic benefit.

"It's attractive to want to create multifunctional nanoparticles that can 'do it all,'" said Nicole F. Steinmetz, PhD, senior author on the study, George J. Picha Professor in Biomaterials, member of the Case Comprehensive Cancer Center, and Director of the Center for Bio-Nanotechnology at Case Western Reserve School of Medicine. "But this study shows significant therapeutic efficacy, including prolonging survival, requires a more step-wise approach. When the plant-based virus particles and the drugs were able to work on their own, we saw the greatest benefit."

Wrote the authors, "While the nanomedicine field strives to design multifunctional nanoparticles that integrate several functions and therapeutic regimens into single nanoparticle -- our data suggest a paradigm shift; some therapeutics may need to be administered separately to synergize and achieve most potent therapeutic outcome."

Steinmetz and her team will next investigate mechanisms behind the potato virus particles' anti-tumor effects. She plans to test whether co-administering the nanoparticles with different chemotherapy drugs can delay, or slow the progression of other cancers. Said Steinmetz, "Dual-pronged therapeutic approaches may be our best defense against certain cancers. And, virus-based nanoparticles like the ones in our study may be used to enhance efficacy of existing medications."


Story Source:

Materials provided by Case Western Reserve University. Note: Content may be edited for style and length.


Journal Reference:

  1. Karin L. Lee, Abner A. Murray, Duc H. T. Le, Mee Rie Sheen, Sourabh Shukla, Ulrich Commandeur, Steven Fiering, Nicole F. Steinmetz. Combination of Plant Virus Nanoparticle-Based in Situ Vaccination with Chemotherapy Potentiates Antitumor Response. Nano Letters, 2017; DOI: 10.1021/acs.nanolett.7b00107

Cite This Page:

Case Western Reserve University. "Injectable plant-based nanoparticles delay tumor progression." ScienceDaily. ScienceDaily, 28 June 2017. <www.sciencedaily.com/releases/2017/06/170628095905.htm>.
Case Western Reserve University. (2017, June 28). Injectable plant-based nanoparticles delay tumor progression. ScienceDaily. Retrieved December 26, 2024 from www.sciencedaily.com/releases/2017/06/170628095905.htm
Case Western Reserve University. "Injectable plant-based nanoparticles delay tumor progression." ScienceDaily. www.sciencedaily.com/releases/2017/06/170628095905.htm (accessed December 26, 2024).

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