Abstract

Abstract Targeted antigen delivery allows activation of the immune system to kill tumor cells. Among the immunogenic epitopes widely investigated is α-Gal, since humans exhibit specific anti-Gal reactivity. However, the repertoire of immunogenic epitopes could be significantly enhanced if therapeutic efficacy did not rely on the presence of natural antibodies, but instead relied on the production of anti-epitope endogenous antibodies induced by immunization against the selected epitope. Therefore, we designed and tested several HA-pHLIP agents, where the HA peptide (YPYDVPDYA) from the influenza virus was selected as an exogenous highly immunogenic epitope, since it is absent in the human genome, and a pH Low Insertion Peptide (pHLIP) was selected as the tumor targeting agent. HA peptides were attached to the N-termini of pHLIPs either directly or via PEG polymers. To enhance the overall binding affinity of HA-pHLIP to anti-HA antibodies, double headed HA-pHLIP agents were introduced, where two HA epitopes were linked to a single pHLIP peptide via PEG12 polymers. The pHLIP sequence was modified to ensure proper pKs of insertion into cell membranes. HA epitopes were targeted to cancer cells in mouse tumors, and remained exposed to the extracelullar space within tumors for about 24 hours. Double-headed HA-pHLIP treatments of imunized mice (a high titer of anti-HA antibodies was developed in mice after immunization with KLH-HA), bearing 4T1 triple negative or B16F10 MHC-I negative melanoma tumors resulted in a 55% reduction of tumor growth. Further reduction of tumor growth was impossible to achive, since all of the anti-HA antibodies in the blood were captured after 3 injections of HA-pHLIP and additional boosts would be required to restore the level of free anti-HA antibodies to induce a more significant therapeutic efficacy. Citation Format: Michael DuPont, Hannah Visca, Anna Moshnikova, Donald Engelman, Yana Reshetnyak, Oleg Andreev. Antigen-pHLIP for tumor treatment [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 6759.

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