Peripheral positioning of lysosomes supports melanoma aggressiveness

Katerina Jerabkova-Roda; Marina Peralta; Kuang Jing Huang; Antoine Mousson; Clara Bourgeat Maudru; Louis Bochler; Ignacio Busnelli; Rabia Karali; Hélène Justiniano; Lucian Mihai Lisii; Philippe Carl; Vincent Mittelheisser; Nandini Asokan; Annabel Larnicol; Olivier Lefebvre; Hugo Lachuer; Angélique Pichot; Tristan Stemmelen; Anne Molitor; Léa Scheid; Quentin Frenger; Frédéric Gros; Aurélie Hirschler; François Delalande; Emilie Sick; Raphaël Carapito; Christine Carapito; Dan Lipsker; Kristine Schauer; Philippe Rondé; Vincent Hyenne; Jacky G. Goetz

doi:10.1038/s41467-025-58528-5

Peripheral positioning of lysosomes supports melanoma aggressiveness

Katerina Jerabkova-Roda, Marina Peralta, Kuang Jing Huang, Antoine Mousson, Clara Bourgeat Maudru, Louis Bochler, Ignacio Busnelli, Rabia Karali, Hélène Justiniano, Lucian Mihai Lisii, Philippe Carl, Vincent Mittelheisser, Nandini Asokan, Annabel Larnicol, Olivier Lefebvre, Hugo Lachuer, Angélique Pichot, Tristan Stemmelen, Anne Molitor, Léa ScheidQuentin Frenger, Frédéric Gros, Aurélie Hirschler, François Delalande, Emilie Sick, Raphaël Carapito, Christine Carapito, Dan Lipsker, Kristine Schauer, Philippe Rondé, Vincent Hyenne, Jacky G. Goetz

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Emerging evidence suggests that the function and position of organelles are pivotal for tumor cell dissemination. Among them, lysosomes stand out as they integrate metabolic sensing with gene regulation and secretion of proteases. Yet, how their function is linked to their position and how this controls metastasis remains elusive. Here, we analyze lysosome subcellular distribution in patient-derived melanoma cells and patient biopsies and show that lysosome spreading scales with melanoma aggressiveness. Peripheral lysosomes promote matrix degradation and cell invasion which is directly linked to the lysosomal and cell transcriptional programs. Using chemo-genetical control of lysosome positioning, we demonstrate that perinuclear clustering impairs lysosome secretion, matrix degradation and invasion. Impairing lysosome spreading significantly reduces invasive outgrowth in two in vivo models, mouse and zebrafish. Our study provides a direct demonstration that lysosome positioning controls cell invasion, illustrating the importance of organelle adaptation in carcinogenesis and suggesting its potential utility for diagnosis of metastatic melanoma.

langue originale	Anglais
Numéro d'article	3375
journal	Nature Communications
Volume	16
Numéro de publication	1
Les DOIs	https://doi.org/10.1038/s41467-025-58528-5
état	Publié - 1 déc. 2025

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10.1038/s41467-025-58528-5

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Jerabkova-Roda, K., Peralta, M., Huang, K. J., Mousson, A., Bourgeat Maudru, C., Bochler, L., Busnelli, I., Karali, R., Justiniano, H., Lisii, L. M., Carl, P., Mittelheisser, V., Asokan, N., Larnicol, A., Lefebvre, O., Lachuer, H., Pichot, A., Stemmelen, T., Molitor, A., ... Goetz, J. G. (2025). Peripheral positioning of lysosomes supports melanoma aggressiveness. Nature Communications, 16(1), Article 3375. https://doi.org/10.1038/s41467-025-58528-5

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title = "Peripheral positioning of lysosomes supports melanoma aggressiveness",

abstract = "Emerging evidence suggests that the function and position of organelles are pivotal for tumor cell dissemination. Among them, lysosomes stand out as they integrate metabolic sensing with gene regulation and secretion of proteases. Yet, how their function is linked to their position and how this controls metastasis remains elusive. Here, we analyze lysosome subcellular distribution in patient-derived melanoma cells and patient biopsies and show that lysosome spreading scales with melanoma aggressiveness. Peripheral lysosomes promote matrix degradation and cell invasion which is directly linked to the lysosomal and cell transcriptional programs. Using chemo-genetical control of lysosome positioning, we demonstrate that perinuclear clustering impairs lysosome secretion, matrix degradation and invasion. Impairing lysosome spreading significantly reduces invasive outgrowth in two in vivo models, mouse and zebrafish. Our study provides a direct demonstration that lysosome positioning controls cell invasion, illustrating the importance of organelle adaptation in carcinogenesis and suggesting its potential utility for diagnosis of metastatic melanoma.",

author = "Katerina Jerabkova-Roda and Marina Peralta and Huang, {Kuang Jing} and Antoine Mousson and {Bourgeat Maudru}, Clara and Louis Bochler and Ignacio Busnelli and Rabia Karali and H{\'e}l{\`e}ne Justiniano and Lisii, {Lucian Mihai} and Philippe Carl and Vincent Mittelheisser and Nandini Asokan and Annabel Larnicol and Olivier Lefebvre and Hugo Lachuer and Ang{\'e}lique Pichot and Tristan Stemmelen and Anne Molitor and L{\'e}a Scheid and Quentin Frenger and Fr{\'e}d{\'e}ric Gros and Aur{\'e}lie Hirschler and Fran{\c c}ois Delalande and Emilie Sick and Rapha{\"e}l Carapito and Christine Carapito and Dan Lipsker and Kristine Schauer and Philippe Rond{\'e} and Vincent Hyenne and Goetz, {Jacky G.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

day = "1",

doi = "10.1038/s41467-025-58528-5",

language = "English",

volume = "16",

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Jerabkova-Roda, K, Peralta, M, Huang, KJ, Mousson, A, Bourgeat Maudru, C, Bochler, L, Busnelli, I, Karali, R, Justiniano, H, Lisii, LM, Carl, P, Mittelheisser, V, Asokan, N, Larnicol, A, Lefebvre, O, Lachuer, H, Pichot, A, Stemmelen, T, Molitor, A, Scheid, L, Frenger, Q, Gros, F, Hirschler, A, Delalande, F, Sick, E, Carapito, R, Carapito, C, Lipsker, D, Schauer, K, Rondé, P, Hyenne, V & Goetz, JG 2025, 'Peripheral positioning of lysosomes supports melanoma aggressiveness', Nature Communications, VOL. 16, Numéro 1, 3375. https://doi.org/10.1038/s41467-025-58528-5

TY - JOUR

T1 - Peripheral positioning of lysosomes supports melanoma aggressiveness

AU - Jerabkova-Roda, Katerina

AU - Peralta, Marina

AU - Huang, Kuang Jing

AU - Mousson, Antoine

AU - Bourgeat Maudru, Clara

AU - Bochler, Louis

AU - Busnelli, Ignacio

AU - Karali, Rabia

AU - Justiniano, Hélène

AU - Lisii, Lucian Mihai

AU - Carl, Philippe

AU - Mittelheisser, Vincent

AU - Asokan, Nandini

AU - Larnicol, Annabel

AU - Lefebvre, Olivier

AU - Lachuer, Hugo

AU - Pichot, Angélique

AU - Stemmelen, Tristan

AU - Molitor, Anne

AU - Scheid, Léa

AU - Frenger, Quentin

AU - Gros, Frédéric

AU - Hirschler, Aurélie

AU - Delalande, François

AU - Sick, Emilie

AU - Carapito, Raphaël

AU - Carapito, Christine

AU - Lipsker, Dan

AU - Schauer, Kristine

AU - Rondé, Philippe

AU - Hyenne, Vincent

AU - Goetz, Jacky G.

PY - 2025/12/1

Y1 - 2025/12/1

N2 - Emerging evidence suggests that the function and position of organelles are pivotal for tumor cell dissemination. Among them, lysosomes stand out as they integrate metabolic sensing with gene regulation and secretion of proteases. Yet, how their function is linked to their position and how this controls metastasis remains elusive. Here, we analyze lysosome subcellular distribution in patient-derived melanoma cells and patient biopsies and show that lysosome spreading scales with melanoma aggressiveness. Peripheral lysosomes promote matrix degradation and cell invasion which is directly linked to the lysosomal and cell transcriptional programs. Using chemo-genetical control of lysosome positioning, we demonstrate that perinuclear clustering impairs lysosome secretion, matrix degradation and invasion. Impairing lysosome spreading significantly reduces invasive outgrowth in two in vivo models, mouse and zebrafish. Our study provides a direct demonstration that lysosome positioning controls cell invasion, illustrating the importance of organelle adaptation in carcinogenesis and suggesting its potential utility for diagnosis of metastatic melanoma.

AB - Emerging evidence suggests that the function and position of organelles are pivotal for tumor cell dissemination. Among them, lysosomes stand out as they integrate metabolic sensing with gene regulation and secretion of proteases. Yet, how their function is linked to their position and how this controls metastasis remains elusive. Here, we analyze lysosome subcellular distribution in patient-derived melanoma cells and patient biopsies and show that lysosome spreading scales with melanoma aggressiveness. Peripheral lysosomes promote matrix degradation and cell invasion which is directly linked to the lysosomal and cell transcriptional programs. Using chemo-genetical control of lysosome positioning, we demonstrate that perinuclear clustering impairs lysosome secretion, matrix degradation and invasion. Impairing lysosome spreading significantly reduces invasive outgrowth in two in vivo models, mouse and zebrafish. Our study provides a direct demonstration that lysosome positioning controls cell invasion, illustrating the importance of organelle adaptation in carcinogenesis and suggesting its potential utility for diagnosis of metastatic melanoma.

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U2 - 10.1038/s41467-025-58528-5

DO - 10.1038/s41467-025-58528-5

M3 - Article

C2 - 40204688

AN - SCOPUS:105002977828

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3375

ER -