Researchers with The University of Texas Health Science Center at Houston (UTHealth) and Rice University have created a peptide-based immunotherapy, called SynerGel, to aid in oral cancer.
The study was published in ACS Biomaterials Science & Engineering.
UTHealth School of Dentistry Assistant Professor of Oral and Maxillofacial Surgery Simon Young, DDS, MD, PhD; and Rice Professor of Chemistry and Bioengineering Jeffrey Hartgerink, PhD, created and evaluated the hydrogel, which is an injectable biomaterial-based platform for delivery of a drug directly into a tumor..
In 2018, the pair published research on the use of a multi-domain peptide gel to deliver ADU-S100, an immunotherapy drug from a class of stimulator of interferon gene (STING) agonists. Young and Hartgerink called the original drug-gel combination STINGel.
“To kill a tumor, from an immune standpoint, you want to ramp up the immune system to stimulate it to attack,” said Young, the corresponding author on the paper. “That’s what our STINGel was created for. However, the one thing we didn’t consider is tumors have a lot of cells in their environment that are actively suppressing the immune system. Meaning, not only do tumors emit molecules that cloak them and put the immune system to sleep, but there’s actually immune cells there that are attracted to the tumor’s microenvironment that almost protect the tumor from attack.”
This realization created the need for a two-pronged approach to immunotherapy – trigger an immune response and remove suppressive immune cells from the tumor’s microenvironment.
To do this, a drug-mimicking peptide hydrogel named L-NIL-MDP was loaded with an antitumor cyclic dinucleotide (CDN) immunotherapy agonist to create SynerGel. The biomaterial combined inducible nitric oxide synthase inhibition with controlled delivery of CDN.
Over a year of testing starting in 2019, the SynerGel demonstrated between a 4- to 20-fold slower drug release than commercially available hydrogels, allowing for immune-mediated elimination of established treatment-resistant oral tumors in a murine model, with a median survival of 67.5 days compared with 44 days in no-treatment control. Total survivorship also increased from 20% in CDN drug-alone groups to 33% in SynerGel treated groups.
“This paper shows a logical progression of the technology,” Young said. “Our in vitro work showed the STING agonist can be released in a sustained fashion in a controlled environment, but also this new version of our gel has bioactivity and can be injected into preclinical tumor models with a higher survival rate. The most exciting part of this research is that it’s only the beginning of this material’s story. We’re trying out new formulations to see if we can get even better results.”
The research team is actively investigating ways to load multiple immunotherapeutic agents into the hydrogel. These formulations will continue to be designed for long-lasting, immune cell-infiltrated biomaterial immunotherapy at the tumor site, allowing for transformation of the local immunosuppressive microenvironment to a more treatment-responsive tumor.
Additional UTHealth authors include Neeraja Dharmaraj, PhD, and Jose Rodriguez Venzor; David Leach, PhD; Tania Lopez-Silva, PhD; and Brett Pogostin with Rice University; and Andrew Sikora, MD, PhD, with MD Anderson Cancer Center.
Research to date has been supported by grants from the OMS Foundation, the National Institutes of Health, the Welch Foundation, the National Science Foundation, and the Mexican National Council for Science and Technology.
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