Abstract 4162: Peptide-targeted probe identifies pancreatic cancer using optoacoustic imaging

Abstract

Abstract Introduction: Advanced pancreatic ductal adenocarcinoma (PDAC) suffers from inadequate early detection, inoperability, and poor outcomes. While tumor identication in an intraoperative setting largely utilize ultrasound, ultrasound suffers from insufficient resolution and lacks the ability to identify molecular features to differentiate tumor from non-tumor. To overcome these limitations, we utilized optoacoustic imaging combined with a pH-sensitive peptide-based probe, V3, to identify pancreatic cancer in orthotopic mouse models. Methods: The V3 peptide was synthesized using microwave chemistry which resulted in a peptide of >90% purity. The V3 peptide was conjugated to a fluorescent dye and dialyzed to make the V3-750 probe. S2VP10 cancer cell line was plated in a 6-well plate and acclimated to 7.4, 6.8, and 6.6 pH media to mimic a healthy microenvironment and the acidic tumor microenvironment found in pancreas cancer. Cells were treated with 1 micromolar of V3-750 probe for 1 hour, then imaged on the near-infrared fluorescence imager. Treated cells were loaded into tissue mimicking phantoms and imaged using multispectral optoacoustic tomography. Athymic mice were orthotopically implanted with S2VP10 cells and tumor grew to 3 mm. V3-750 was intraveneously injected and mice were imaged 3h after injection with MSOT. Results: Signal values for the samples displayed a trend that the V3-750 probe has higher signal values in the 6.8 and 6.6 pH as compared to the 7.4 pH. MSOT data supported this trend, with the signal values from the 6.8 and 6.6 pH being greater than the 7.4 pH by 10-fold (p<0.05). Biodistribution demonstrates peak tumor-specific uptake at 3h post injection (3.1 a.u., 0.003 a.u. liver, 0.002 a.u. kidney). Conclusion: The heightened signal values for the acidic pH’s from the fluorescence imaging and the MSOT suggest that the V3-750 probe can contrast acidic cancer cells from healthy cells because it targets the acidic cancer microenvironment. Citation Format: Emma Sanderson, Tereza Husarova, Lacey McNally. Peptide-targeted probe identifies pancreatic cancer using optoacoustic imaging [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 4162.