Litcius/Paper detail

Lymph node environment drives FSP1 targetability in metastasizing melanoma

Mario Palma, Milena Chaufan, Cort B. Breuer, Sebastian Müller, Marie Sabatier, Cameron Fraser, Krystina J. Szylo, Mahsa Yavari, Alanis Carmona, Mayher Kaur, Luiza Martins Nascentes Melo, Feyza Cansiz, June Monge-Lorenzo, Midori R. Flores, Eikan Mishima, Toshitaka Nakamura, Bettina Proneth, Marcos Labrado, Yanshan Liang, Nicole Cayting, Lan Zheng, Tatiana Cañeque, Ludovic Colombeau, Adam Wahida, José Pedro Friedmann Angeli, Alpaslan Tasdogan, Sheng Hui, Raphaël Rodriguez, Marcus Conrad, Nathan E. Reticker-Flynn, Jessalyn M. Ubellacker

2025Nature33 citationsDOIOpen Access PDF

Abstract

Ferroptosis has emerged as an actionable target to eliminate therapy-resistant and metastatic cancers1. However, which ferroptosis surveillance systems may offer a therapeutic window to leverage redox maladaptation in cancer remains unclear. In melanoma, glutathione peroxidase 4 (GPX4) impedes ferroptosis during haematogenous metastasis, but is dispensable during lymphatic metastasis2. Here, using a metastatic mouse melanoma model selected for lymph node metastasis, we show that lymph-node-derived metastatic cells exhibit markedly diminished expression of glutamate–cysteine ligase (GCLC) and reduced glutathione (GSH) levels relative to their parental counterparts. This metabolic shift occurs within the hypoxic lymphatic niche. Under comparable low-oxygen conditions, GPX4 undergoes ubiquitination and proteasomal degradation. In response, lymph node metastatic cells acquire increased reliance on ferroptosis suppressor protein 1 (FSP1), which is localized with perinuclear lysosomes. These findings reveal that the reduced reliance on the GPX4 axis enables melanoma cells to shift toward FSP1 dependency. Notably, intratumoural monotherapy with selective FSP1 inhibitors (viFSP1 and FSEN1) effectively suppresses melanoma growth in lymph nodes, but not in subcutaneous tumours, emphasizing a microenvironment-specific dependency on FSP1. Thus, targeting FSP1 in the lymph nodes holds strong potential for blocking melanoma progression. Targeting FSP1 in lymph nodes has considerable potential for blocking melanoma progression.

Topics & Concepts

Lymph nodeCancer researchLymphatic systemLymphMelanomaSuppressorBiologyGPX4Ubiquitin ligaseTumor microenvironmentMedicineCancerCancer cellPathologyUbiquitinProstate cancerCell cultureImmunologyChemistryBiomarkerGrading (engineering)Ferroptosis and cancer prognosisBladder and Urothelial Cancer TreatmentsImmune cells in cancer