Abstract PR010: TRPV1+ sensory innervation as a novel driver of ovarian cancer progression

Abstract

Abstract Introduction: A primary challenge currently faced in ovarian cancer (OVCA) treatment is that patient prognoses remain poor despite current therapeutic interventions. Overall survival for OVCA patients with advanced disease is <30%, and most patients recur within 5 years. As such, there is a critical need for new therapies that can overcome OVCA chemoresistance and produce meaningful increases in patient survival. Recent efforts that have targeted the tumor microenvironment (TME), such as immune checkpoint inhibitors, have been successful in some cancers but have limited therapeutic benefit when used to treat OVCA. Thus, new TME targeting therapies must be developed to effectively treat OVCA patients. A novel TME component ripe for therapeutic targeting are the nerve fibers that infiltrate tumors. Recent studies in several cancers have shown that tumor innervation can promote tumor growth/metastasis. However, in ovarian cancer the role of innervation in promoting cancer progression remains a gap in knowledge. Here we show that Transient Receptor Potential Cation Channel Subfamily V Member 1 (TRPV1)+ sensory innervation plays a significant role in driving ovarian cancer progression. Methods: We performed IHC staining to determine the extent of TRPV1+ nerve infiltration in OVCA vs normal reproductive tissue in patients. We examined the ability of OVCA cells to promote tumor innervation using a neurite outgrowth assay. We utilized both syngeneic and patient derived xenograft (PDX) mouse models of ovarian cancer metastasis, where mouse or human OVCA cells were injected intraperitoneally, to explore the functional role of TRPV1+ sensory nerves in OVCA. TRPV1+ sensory nerves were ablated genetically using TRPV1 driven expression of diphtheria toxin alpha (DTA) or chemically using resiniferatoxin. TRPV1+ sensory nerves were activated pharmacologically using capsaicin. Results: Analysis of patient samples showed that TRPV1+ sensory innervation is much higher in ovarian tumors vs benign reproductive tissue. We found that conditioned media from OVCA cells was able to promote neurite outgrowth of dissociated mouse sensory neurons. Ablation of TRPV1+ sensory nerve fibers in vivo caused reduced tumor burden and prolonged survival in our syngeneic and PDX OVCA mouse models. Stimulation of TRPV1+ sensory nerves with capsaicin accelerated OVCA growth and decreased survival in tumor bearing mice. Conclusions: Our results establish TRPV1+ sensory innervation as a novel driver of OVCA growth/metastasis and a potential therapeutic target for OVCA treatment. Significance to tumor microenvironment field: Our data add to a growing body of evidence that sensory nerves are pro-tumorigenic in multiple cancer types and could be therapeutically targeted for cancer treatment. Citation Format: Matthew Knarr, Katherine Cummins, Dusan Racordon, Hunter Reavis, Timothy Lippert, Ryan Hausler, Priyanka Rawat, Jamie Moon, Dave S.B. Hoon, Roger Greenberg, Paola Vermeer, Ronny Drapkin. TRPV1+ sensory innervation as a novel driver of ovarian cancer progression [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Tumor-body Interactions: The Roles of Micro- and Macroenvironment in Cancer; 2024 Nov 17-20; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2024;84(22_Suppl):Abstract nr PR010.