[R01] Defining and exploiting therapeutically the role of nociceptor neuron–tumor–pericyte axis that drives melanoma progression via CGRP-RAMP1 signaling
Ente: National Cancer Institute
Scadenza: 2031-06-30
Importo max: 585.625 EUR
Paese: US
Descrizione
PROJECT SUMMARY
The overall objective of this study is to understand how nociceptor neuron-tumor-pericyte axis formed within the
melanoma metastatic microenvironment regulates disease progression. Melanoma is the most lethal form of skin
cancer due to its tendency to rapidly metastasize. Current therapeutic approaches are often insufficient to
achieve durable responses. Thus, efforts to identify novel therapeutic targets are urgently needed to overcome
resistance, slowing or preventing disease progression. Recent reports from my laboratory and others show that
cancer and the nervous system bear a close, entangled relationship within the tumor microenvironment. Our
unpublished data finds that nociceptor neurons penetrate metastatic melanoma microenvironment, increasing in
density with disease progression. Nevertheless, the role of peripheral nociceptor neurons in metastatic
melanoma advancement remains completely unknown. Our preliminary studies show that nociceptor
denervation or silencing decreases melanoma metastatic outgrowth. Nociceptor neurons communicate with
other cell types through biologically active neuropeptides released from their endings; CGRP is the most
abundant of these neuropeptides. High mRNA expressions of CALCA (which encodes CGRP) and of the CGRP
receptor subunit (RAMP1) are associated with increased risk of death in patients with metastatic melanoma. Our
single-cell RNA-seq data analysis from human secondary melanoma sites shows that RAMP1 is highly
expressed specifically in malignant cells and pericytes. RAMP1 knockdown or pharmacologic blockade in
melanoma cells in vitro decreases their migratory and growth capacities induced by CGRP, while pharmacologic
blockade of CGRP-induced RAMP1 signaling inhibits pericytes’ proliferation and angiogenic capacities in vitro.
Moreover, treatment with a RAMP1 antagonist, Rimegepant, FDA-approved for migraine, in vivo decreases lung
melanoma nodules. These findings lead to this proposal to understand the mechanisms through which
nociceptor neurons via RAMP1 signaling impact melanoma progression. We hypothesize that RAMP1
expression in malignant cells and pericytes within metastatic melanoma accelerates disease advancement, while
its inhibition will slow melanoma progression. Thus, we will test this hypothesis using two Specific Aims to identify
the cell-type specific role of CGRP-RAMP1 signaling that drives melanoma metastasis in vivo (Aim 1) and exploit
therapeutically and determine the clinical significance of CGRP-RAMP1 signaling in melanoma metastases (Aim
2). Overall, our study will reveal the mechanistic and therapeutic significance of RAMP1 signaling in melanoma
progression. This can ultimately lead to the identification of novel strategies for the clinical management of
advanced melanoma and provide a rationale for clinically testing drugs that will modulate RAMP1 signaling to
obtain superior and lasting anti-melanoma responses. The use of murine models is strictly necessary beca
Istituzione: UNIVERSITY OF WISCONSIN-MADISON
PI: Alexander Birbrair
Progetto: 1R01CA310971-01
Settori: National Cancer Institute
Vai al bando originale
Registrati gratis su Bandolo per trovare bandi compatibili con la tua azienda.