Abstract
Abstract INTRODUCTION: Intratumoral phenylephrine (α1 vasoconstrictor) combined with chemotherapy has been used for cutaneous malignancies with modest local response. The purpose of this study was to improve the efficacy of intratumoral melphalan using sustained-release, liposomal nanoparticles containing phenylephrine in a mouse model of melanoma. METHODS: A modified ethanol injection method was used to develop the liposomal phenylephrine nanoparticles. These were injected peri-tumorally to generate a local vasoconstrictive effect intended to “entrap” intratumorally injected melphalan. Drug exposure/dwell time was measured with fluorescent imaging. Mice bearing B16 (subclone F10) melanoma tumors were treated with intratumoral melphalan (20 ug/50 ul) with or without peri-tumoral liposomal phenylephrine (10 ug/50-100 ul x 4-5 injections around the tumor periphery) twice weekly x 3 weeks. RESULTS: UV-Absorbance spectroscopy confirmed encapsulation of phenylephrine within the liposomal nanoparticles with an expected absorbance of 275 nm. The modified ethanol injection method produced liposomal phenylephrine encapsulation of approximately 25%. Peri-tumoral, liposomal phenylephrine caused vasoconstriction of normal surrounding vessels with an approximate 10% decrease in vessel diameter. Our liposomal phenylephrine nanoparticles also led to increased retention of intratumorally injected fluorescently-labeled (FITC) liposomes 24-48 hours after inoculation, using both melanoma (B16) and breast (TUBO/4T1) cell lines orthotopically grown within mice (C57Bl/6 and BALB/c, respectively). The combination of intratumoral melphalan with peri-tumoral phenylephrine resulted in more effective control of tumor growth and a complete tumor response rate of 44.4%, compared to phenylephrine/melphalan only controls (p < 0.01, n=18 per group). However, there was significant adverse reaction with the combination therapy, resulting in ulceration of the injection/tumor site. Ulcers healed about 14 days after completion of treatment. Immunohistochemistry demonstrated increased infiltration of CD11b+ cells into the tumors, suggesting an immune-mediated response in addition to direct chemotoxicity. CONCLUSIONS: Liposomal nanoparticles containing phenylephrine increased retention/dwell time of intratumorally administered melphalan and resulted in superior anti-tumor response. Our preclinical model holds innovative, translational promise for the clinical advancement of intralesional therapies in cutaneous/subcutaneous malignancies. Citation Format: Emmanuel M. Gabriel, Vijay Madamsetty, Deborah Bahr, Jamie Kaplan, Kristopher Attwood, Sanjay Bagaria, Keith Knutson, Debabrata Mukhopadhyay. Novel approach to intra- and peri-tumoral delivery of sustained-release chemotherapeutics [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5071.
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