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Home > Press > Nanoparticle vaccine shows potential as immunotherapy to fight multiple cancer types

Laser light can be seen scattered by nanoparticles in a solution of the UTSW-developed nanovaccine.
CREDIT
UT Southwestern
Laser light can be seen scattered by nanoparticles in a solution of the UTSW-developed nanovaccine. CREDIT UT Southwestern

Abstract:
Researchers from UT Southwestern Medical Center have developed a first-of-its-kind nanoparticle vaccine immunotherapy that targets several different cancer types.

Nanoparticle vaccine shows potential as immunotherapy to fight multiple cancer types

Dallas, TX | Posted on April 24th, 2017

The nanovaccine consists of tumor antigens - tumor proteins that can be recognized by the immune system - inside a synthetic polymer nanoparticle. Nanoparticle vaccines deliver minuscule particulates that stimulate the immune system to mount an immune response. The goal is to help people's own bodies fight cancer.

"What is unique about our design is the simplicity of the single-polymer composition that can precisely deliver tumor antigens to immune cells while stimulating innate immunity. These actions result in safe and robust production of tumor-specific T cells that kill cancer cells," said Dr. Jinming Gao, a Professor of Pharmacology and Otolaryngology in UT Southwestern's Harold C. Simmons Comprehensive Cancer Center.

A study outlining this research, published online today in Nature Nanotechnology, reported that the nanovaccine had anti-tumor efficacy in multiple tumor types in mice.

The research was a collaboration between the laboratories of study senior authors Dr. Gao and Dr. Zhijian "James" Chen, Professor of Molecular Biology and Director of the Center for Inflammation Research. The Center was established in 2015 to study how the body senses infection and to develop approaches to exploit this knowledge to create new treatments for infection, immune disorders, and autoimmunity.

Typical vaccines require immune cells to pick up tumor antigens in a "depot system" and then travel to the lymphoid organs for T cell activation, Dr. Gao said. Instead, nanoparticle vaccines can travel directly to the body's lymph nodes to activate tumor-specific immune responses.

"For nanoparticle vaccines to work, they must deliver antigens to proper cellular compartments within specialized immune cells called antigen-presenting cells and stimulate innate immunity," said Dr. Chen, also a Howard Hughes Medical Institute Investigator and holder of the George L. MacGregor Distinguished Chair in Biomedical Science. "Our nanovaccine did all of those things."

In this case, the experimental UTSW nanovaccine works by activating an adaptor protein called STING, which in turn stimulates the body's immune defense system to ward off cancer.

The scientists examined a variety of tumor models in mice: melanoma, colorectal cancer, and HPV-related cancers of the cervix, head, neck, and anogenital regions. In most cases, the nanovaccine slowed tumor growth and extended the animals' lives.

Other vaccine technologies have been used in cancer immunotherapy. However, they are usually complex - consisting of live bacteria or multiplex biological stimulants, Dr. Gao said. This complexity can make production costly and, in some cases, lead to immune-related toxicities in patients.

With the emergence of new nanotechnology tools and increased understanding of polymeric drug delivery, Dr. Gao said, the field of nanoparticle vaccines has grown and attracted intense interest from academia and industry in the past decade.

"Recent advances in understanding innate and adaptive immunity have also led to more collaborations between immunologists and nanotechnologists," said Dr. Chen. "These partnerships are critical in propelling the rapid development of new generations of nanovaccines."

The investigative team is now working with physicians at UT Southwestern to explore clinical testing of the STING-activating nanovaccines for a variety of cancer indications. Combining nanovaccines with radiation or other immunotherapy strategies such as "checkpoint inhibition" can further augment their anti-tumor effectiveness.

###

Study lead authors from UT Southwestern were Dr. Min Luo, research scientist; Dr. Hua Wang, Instructor of Molecular Biology; and Dr. Zhaohui Wang, postdoctoral fellow. Other UTSW researchers involved included graduate students Yang Li, Chensu Wang, Haocheng Cai, and Mingjian Du; Dr. Gang Huang, Instructor of Pharmacology and in the Simmons Comprehensive Cancer Center; Dr. Xiang Chen, research specialist; Dr. Zhigang Lu, Instructor of Physiology; Dr. Matthew Porembka, Assistant Professor of Surgery and a Dedman Family Scholar in Clinical Care; Dr. Jayanthi Lea, Associate Professor of Obstetrics and Gynecology and holder of the Patricia Duniven Fletcher Distinguished Professorship in Gynecological Oncology; Dr. Arthur Frankel, Professor of Internal Medicine and in the Simmons Comprehensive Cancer Center; and Dr. Yang-Xin Fu, Professor of Pathology and Immunology, and holder of the Mary Nell and Ralph B. Rogers Professorship in Immunology.

Their work was supported by the National Institutes of Health, the Cancer Prevention and Research Institute of Texas, a UTSW Small Animal Imaging Resource grant and a Simmons Comprehensive Cancer Center support grant.

####

About UT Southwestern Medical Center
UT Southwestern, one of the premier academic medical centers in the nation, integrates pioneering biomedical research with exceptional clinical care and education. The institution's faculty has received six Nobel Prizes, and includes 22 members of the National Academy of Sciences, 18 members of the National Academy of Medicine, and 14 Howard Hughes Medical Institute Investigators. The faculty of more than 2,700 is responsible for groundbreaking medical advances and is committed to translating science-driven research quickly to new clinical treatments. UT Southwestern physicians provide care in about 80 specialties to more than 100,000 hospitalized patients, 600,000 emergency room cases, and oversee approximately 2.2 million outpatient visits a year.

The Harold C. Simmons Comprehensive Cancer Center is the only NCI-designated Comprehensive Cancer Center in North Texas and one of just 47 NCI-designated Comprehensive Cancer Centers in the nation. Simmons Comprehensive Cancer Center includes 13 major cancer care programs. In addition, the Center's education and training programs support and develop the next generation of cancer researchers and clinicians. Simmons Comprehensive Cancer Center is among only 30 U.S. cancer research centers to be designated by the NCI as a National Clinical Trials Network Lead Academic Participating Site.

For more information, please click here

Contacts:
Lori Sundeen Soderbergh

214-648-3404

Copyright © UT Southwestern Medical Center

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