Cargando…

The Lysosomal Calcium Channel TRPML1 Maintains Mitochondrial Fitness in NK Cells through Interorganelle Cross-Talk

Cytotoxic lymphocytes eliminate cancer cells through the release of lytic granules, a specialized form of secretory lysosomes. This compartment is part of the pleomorphic endolysosomal system and is distinguished by its highly dynamic Ca(2+) signaling machinery. Several transient receptor potential...

Descripción completa

Detalles Bibliográficos
Autores principales: Clement, Dennis, Szabo, Edina K., Krokeide, Silje Zandstra, Wiiger, Merete Thune, Vincenti, Marianna, Palacios, Daniel, Chang, Young-Tae, Grimm, Christian, Patel, Sandip, Stenmark, Harald, Brech, Andreas, Majhi, Rakesh Kumar, Malmberg, Karl-Johan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: AAI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10579149/
https://www.ncbi.nlm.nih.gov/pubmed/37737664
http://dx.doi.org/10.4049/jimmunol.2300406
_version_ 1785121662619877376
author Clement, Dennis
Szabo, Edina K.
Krokeide, Silje Zandstra
Wiiger, Merete Thune
Vincenti, Marianna
Palacios, Daniel
Chang, Young-Tae
Grimm, Christian
Patel, Sandip
Stenmark, Harald
Brech, Andreas
Majhi, Rakesh Kumar
Malmberg, Karl-Johan
author_facet Clement, Dennis
Szabo, Edina K.
Krokeide, Silje Zandstra
Wiiger, Merete Thune
Vincenti, Marianna
Palacios, Daniel
Chang, Young-Tae
Grimm, Christian
Patel, Sandip
Stenmark, Harald
Brech, Andreas
Majhi, Rakesh Kumar
Malmberg, Karl-Johan
author_sort Clement, Dennis
collection PubMed
description Cytotoxic lymphocytes eliminate cancer cells through the release of lytic granules, a specialized form of secretory lysosomes. This compartment is part of the pleomorphic endolysosomal system and is distinguished by its highly dynamic Ca(2+) signaling machinery. Several transient receptor potential (TRP) calcium channels play essential roles in endolysosomal Ca(2+) signaling and ensure the proper function of these organelles. In this study, we examined the role of TRPML1 (TRP cation channel, mucolipin subfamily, member 1) in regulating the homeostasis of secretory lysosomes and their cross-talk with mitochondria in human NK cells. We found that genetic deletion of TRPML1, which localizes to lysosomes in NK cells, led to mitochondrial fragmentation with evidence of collapsed mitochondrial cristae. Consequently, TRPML1(−/−) NK92 (NK92(ML1−/−)) displayed loss of mitochondrial membrane potential, increased reactive oxygen species stress, reduced ATP production, and compromised respiratory capacity. Using sensitive organelle-specific probes, we observed that mitochondria in NK92(ML1−/−) cells exhibited evidence of Ca(2+) overload. Moreover, pharmacological activation of the TRPML1 channel in primary NK cells resulted in upregulation of LC3-II, whereas genetic deletion impeded autophagic flux and increased accumulation of dysfunctional mitochondria. Thus, TRPML1 impacts autophagy and clearance of damaged mitochondria. Taken together, these results suggest that an intimate interorganelle communication in NK cells is orchestrated by the lysosomal Ca(2+) channel TRPML1.
format Online
Article
Text
id pubmed-10579149
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher AAI
record_format MEDLINE/PubMed
spelling pubmed-105791492023-10-18 The Lysosomal Calcium Channel TRPML1 Maintains Mitochondrial Fitness in NK Cells through Interorganelle Cross-Talk Clement, Dennis Szabo, Edina K. Krokeide, Silje Zandstra Wiiger, Merete Thune Vincenti, Marianna Palacios, Daniel Chang, Young-Tae Grimm, Christian Patel, Sandip Stenmark, Harald Brech, Andreas Majhi, Rakesh Kumar Malmberg, Karl-Johan J Immunol Immune Regulation Cytotoxic lymphocytes eliminate cancer cells through the release of lytic granules, a specialized form of secretory lysosomes. This compartment is part of the pleomorphic endolysosomal system and is distinguished by its highly dynamic Ca(2+) signaling machinery. Several transient receptor potential (TRP) calcium channels play essential roles in endolysosomal Ca(2+) signaling and ensure the proper function of these organelles. In this study, we examined the role of TRPML1 (TRP cation channel, mucolipin subfamily, member 1) in regulating the homeostasis of secretory lysosomes and their cross-talk with mitochondria in human NK cells. We found that genetic deletion of TRPML1, which localizes to lysosomes in NK cells, led to mitochondrial fragmentation with evidence of collapsed mitochondrial cristae. Consequently, TRPML1(−/−) NK92 (NK92(ML1−/−)) displayed loss of mitochondrial membrane potential, increased reactive oxygen species stress, reduced ATP production, and compromised respiratory capacity. Using sensitive organelle-specific probes, we observed that mitochondria in NK92(ML1−/−) cells exhibited evidence of Ca(2+) overload. Moreover, pharmacological activation of the TRPML1 channel in primary NK cells resulted in upregulation of LC3-II, whereas genetic deletion impeded autophagic flux and increased accumulation of dysfunctional mitochondria. Thus, TRPML1 impacts autophagy and clearance of damaged mitochondria. Taken together, these results suggest that an intimate interorganelle communication in NK cells is orchestrated by the lysosomal Ca(2+) channel TRPML1. AAI 2023-11-01 2023-09-22 /pmc/articles/PMC10579149/ /pubmed/37737664 http://dx.doi.org/10.4049/jimmunol.2300406 Text en Copyright © 2023 The Authors https://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the CC BY 4.0 Unported license.
spellingShingle Immune Regulation
Clement, Dennis
Szabo, Edina K.
Krokeide, Silje Zandstra
Wiiger, Merete Thune
Vincenti, Marianna
Palacios, Daniel
Chang, Young-Tae
Grimm, Christian
Patel, Sandip
Stenmark, Harald
Brech, Andreas
Majhi, Rakesh Kumar
Malmberg, Karl-Johan
The Lysosomal Calcium Channel TRPML1 Maintains Mitochondrial Fitness in NK Cells through Interorganelle Cross-Talk
title The Lysosomal Calcium Channel TRPML1 Maintains Mitochondrial Fitness in NK Cells through Interorganelle Cross-Talk
title_full The Lysosomal Calcium Channel TRPML1 Maintains Mitochondrial Fitness in NK Cells through Interorganelle Cross-Talk
title_fullStr The Lysosomal Calcium Channel TRPML1 Maintains Mitochondrial Fitness in NK Cells through Interorganelle Cross-Talk
title_full_unstemmed The Lysosomal Calcium Channel TRPML1 Maintains Mitochondrial Fitness in NK Cells through Interorganelle Cross-Talk
title_short The Lysosomal Calcium Channel TRPML1 Maintains Mitochondrial Fitness in NK Cells through Interorganelle Cross-Talk
title_sort lysosomal calcium channel trpml1 maintains mitochondrial fitness in nk cells through interorganelle cross-talk
topic Immune Regulation
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10579149/
https://www.ncbi.nlm.nih.gov/pubmed/37737664
http://dx.doi.org/10.4049/jimmunol.2300406
work_keys_str_mv AT clementdennis thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT szaboedinak thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT krokeidesiljezandstra thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT wiigermeretethune thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT vincentimarianna thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT palaciosdaniel thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT changyoungtae thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT grimmchristian thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT patelsandip thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT stenmarkharald thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT brechandreas thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT majhirakeshkumar thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT malmbergkarljohan thelysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT clementdennis lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT szaboedinak lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT krokeidesiljezandstra lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT wiigermeretethune lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT vincentimarianna lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT palaciosdaniel lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT changyoungtae lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT grimmchristian lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT patelsandip lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT stenmarkharald lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT brechandreas lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT majhirakeshkumar lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk
AT malmbergkarljohan lysosomalcalciumchanneltrpml1maintainsmitochondrialfitnessinnkcellsthroughinterorganellecrosstalk