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Home > Press > Nanoparticles may exploit tumor weaknesses to selectively attack cancers: CHOP collaborators explore ultrasmall drug delivery vehicles to target neuroblastoma, a pediatric cancer

The nanoparticle is coated with a layer of polymer masking it from recognition and elimination by the immune system as it circulates in the body. When it reaches a tumor, it slowly releases a drug precursor. In the tumor, the specially designed precursor rapidly converts to a a potent anticancer drug.
CREDIT: Children's Hospital of Philadelphia
The nanoparticle is coated with a layer of polymer masking it from recognition and elimination by the immune system as it circulates in the body. When it reaches a tumor, it slowly releases a drug precursor. In the tumor, the specially designed precursor rapidly converts to a a potent anticancer drug.

CREDIT: Children's Hospital of Philadelphia

Abstract:
Delving into the world of the extremely small, researchers are exploring how biodegradable nanoparticles can precisely deliver anticancer drugs to attack neuroblastoma, an often-deadly children's cancer.

Nanoparticles may exploit tumor weaknesses to selectively attack cancers: CHOP collaborators explore ultrasmall drug delivery vehicles to target neuroblastoma, a pediatric cancer

Philadelphia, PA | Posted on April 2nd, 2015

By bringing together experts in pediatric oncology with experts in nanotechnology, researchers at The Children's Hospital of Philadelphia aim to thread the needle of delivering effective doses of cancer-killing agents while avoiding toxicity in healthy tissues. The team's new research shows that this approach inhibits tumor growth and markedly prolongs survival in animal models.

"These nanoparticles allow us to get more 'bang for the buck'--greater efficacy at lower total doses," said Garrett M. Brodeur, M.D., a pediatric oncologist and expert in neuroblastoma at The Children's Hospital of Philadelphia (CHOP). "The nanoparticles are designed to slowly deliver a drug to the tumor, where it kills multiplying cancer cells, with lower toxicity to the systemic circulation."

Brodeur's group collaborated with a group of CHOP nanotechnology researchers led by Michael Chorny, Ph.D., in a study to be published in print May 1 in Cancer Letters.

Chorny, in turn, led a study to be published in the May print issue of Biomaterials, in collaboration with Brodeur's group and with Robert Levy, M.D., and Ivan Alferiev, Ph.D., both members with Chorny of a cardiology research group at CHOP. That paper described how the team engineered the specially formulated nanoparticles.

This approach, explained Brodeur, exploits one vulnerability of tumors--called the EPR effect, for enhanced permeability and retention. "Tumor blood vessels are more leaky and disorganized than blood vessels in normal tissue. In healthy tissue there are tight junctions in blood vessels," he said. "But tumors don't have those tight junctions and have inefficient circulation, so the nanoparticles we deliver bypass healthy tissues, but accumulate in tumors where they release the anticancer agents."

Neuroblastoma is a solid tumor of the peripheral nervous system, often appearing in a child's abdomen or chest. The most common cancer in infants, neuroblastoma accounts for a disproportionate share of cancer deaths in children, with cure rates lagging behind those for most other pediatric cancers.

"In pediatric oncology, we have largely relied on drugs developed 30 to 40 years ago," said Brodeur. "While these have greatly improved overall cure rates over that period from 20 percent to 80 percent, we still need better drugs and more targeted approaches for the most stubborn childhood cancers, including high-risk forms of neuroblastoma.'

Brodeur, Chorny and colleagues used their nanoparticle formulations to deliver a precursor of SN38, the active form of irinotecan, a conventional anticancer drug used for the past 20 years against relapsed neuroblastoma. In laboratory mice, the study team compared results obtained with the nanoparticle-encapsulated SN38 to those using a comparable dose of irinotecan.

The injected nanoparticles delivered SN38 to the tumor in amounts 100-fold higher than irinotecan, with sustained drug presence over at least 72 hours, and no evidence of toxicity in the mice. In addition, most of the mice survived tumor-free for over 6 months after nanoparticle delivery, whereas all the mice treated with irinotecan had tumor recurrence shortly after treatment stopped, and they all died shortly after.

The nanoparticles in the study are ultrasmall, less than 100 nanometers in diameter (a nanometer is one-millionth of a millimeter, much tinier than red blood cells). "We carefully adjust the size of the nanoparticles to find a 'sweet spot': small enough to penetrate a tumor, and large enough to carry a therapeutic payload," said Chorny. "We can also adjust their composition to keep the active molecule entrapped in a polymer until nanoparticles reach the targeted tumor, and customize the timing of the polymer's breakdown to allow controlled release of SN38 over a time scale that provides the best therapeutic effects."

Brodeur aims to translate these preclinical results to human trials within the next year. "We envision targeted delivery via nanoparticles as a fourth arm of targeted cancer therapy," he said. Brodeur added that if nanoparticle delivery proves its worth in clinical trials, it may join three other molecularly-targeted innovations in pediatric cancer treatment already available at CHOP: immunotherapy using bioengineered T cells, radioactive isotopes that preferentially bind to cancer cells, and kinase inhibitors that interrupt abnormal signaling triggered by cancer-driving mutations.

Some nanoparticles are already being used to treat adult cancers, but if the current technique achieves clinical success in neuroblastoma, it would markedly strengthen the arsenal of approaches currently available for treating a childhood cancer. It holds the potential for broader applications, as well, to deliver other drugs and to treat other cancers currently treated with irinotecan, and perhaps even those that are currently considered resistant to this drug.


Funding for both studies came from the National Institutes of Health (grant CA094194), Alex's Lemonade Stand Foundation, the V Foundation, and the Audrey E. Evans Endowed Chair of The Children's Hospital of Philadelphia. Additional funding for the study by Alferiev et al came from NIH grant HL111118 and the William J. Rashkind Endowment of The Children's Hospital of Philadelphia.

####

About Children's Hospital of Philadelphia
The Children's Hospital of Philadelphia was founded in 1855 as the nation's first pediatric hospital. Through its long-standing commitment to providing exceptional patient care, training new generations of pediatric healthcare professionals and pioneering major research initiatives, Children's Hospital has fostered many discoveries that have benefited children worldwide. Its pediatric research program is among the largest in the country. In addition, its unique family-centered care and public service programs have brought the 535-bed hospital recognition as a leading advocate for children and adolescents.

For more information, please click here

Contacts:
Rachel Salis-Silverman

267-426-6063

Copyright © Children's Hospital of Philadelphia

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Related Links

R. Iyer et al, "Nanoparticle delivery of an SN38 conjugate is more effective than irinotecan in a mouse model of neuroblastoma," Cancer Letters, published online Feb. 12, to appear in print May 1, 2015:

I.S. Alferiev et al, "Nanoparticle-mediated delivery of a rapidly activatable prodrug of SN-38 for neuroblastoma therapy," Biomaterials, published online Feb. 16, to appear in the May 2015 print issue:

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