Calpain-2 regulates hypoxia/HIF-induced plasticity toward amoeboid cancer cell migration and metastasis
te Boekhorst, Veronika; Jiang, Liying; Mählen, Marius; Meerlo, Maaike; Dunkel, Gina; Durst, Franziska C.; Yang, Yanjun; Levine, Herbert; Burgering, Boudewijn M.T.; Friedl, Peter
(2022) Current Biology, volume 32, issue 2, pp. 412 - 427.e8
(Article)
Abstract
Hypoxia, through hypoxia inducible factor (HIF), drives cancer cell invasion and metastatic progression in various cancer types. In epithelial cancer, hypoxia induces the transition to amoeboid cancer cell dissemination, yet the molecular mechanisms, relevance for metastasis, and effective intervention to combat hypoxia-induced amoeboid reprogramming remain unclear. Here, we identify calpain-2
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as a key regulator and anti-metastasis target of hypoxia-induced transition from collective to amoeboid dissemination of breast and head and neck (HN) carcinoma cells. Hypoxia-induced amoeboid dissemination occurred through low extracellular matrix (ECM)-adhesive, predominantly bleb-based amoeboid movement, which was maintained by a low-oxidative and -glycolytic energy metabolism (“eco-mode”). Hypoxia induced calpain-2-mediated amoeboid conversion by deactivating β1 integrins through enzymatic cleavage of the focal adhesion adaptor protein talin-1. Consequently, targeted downregulation or pharmacological inhibition of calpain-2 restored talin-1 integrity and β1 integrin engagement and reverted amoeboid to elongated phenotypes under hypoxia. Calpain-2 activity was required for hypoxia-induced amoeboid conversion in the orthotopic mouse dermis and upregulated in invasive HN tumor xenografts in vivo, and attenuation of calpain activity prevented hypoxia-induced metastasis to the lungs. This identifies the calpain-2/talin-1/β1 integrin axis as a druggable mechanosignaling program that conserves energy yet enables metastatic dissemination that can be reverted by interfering with calpain activity.
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Keywords: amoeboid migration, blebbing, calpain-2, cancer cell, cell metabolism, HIF, Hypoxia, integrin, metastasis, Humans, Head and Neck Neoplasms, Neoplasm Metastasis, Animals, Cell Movement/physiology, Integrin beta1/genetics, Talin/genetics, Cell Line, Tumor, Mice, Calpain/genetics, General Agricultural and Biological Sciences, General Biochemistry,Genetics and Molecular Biology, General Neuroscience, Research Support, Non-U.S. Gov't, Journal Article, Research Support, N.I.H., Extramural
ISSN: 0960-9822
Publisher: Cell Press
Note: Funding Information: We gratefully acknowledge Dr. Jeffrey N. Myers, Department of Head and Neck Surgery, MD Anderson Cancer Center, for the generous supply of samples from HN-31 and Detroit256 HNSCC tumor xenografts. We also gratefully thank Manon Vullings and Dr. Gert-Jan Bakker, Department of Cell Biology, Radboud Institute of Molecular Life Sciences, for help with 3D tumoroid culture and multiphoton imaging of calpain activity of invasive tumoroids; Miranda van Triest, University Medical Center Utrecht, for help with metabolic analyses of inhibitory 2-deoxy-D-glucose effects; and Dr. Bettina Weigelin, Department of Genitourinary Medical Oncology, MD Anderson Cancer Center, for help with intradermal injections of UT-SCC38 and UT-SCC58 cell lines. This work was supported by the European Research Council ( 617430-DEEPINSIGHT ), NWO-Science-XL 2019.022 , and NIH U54 CA210184-01 (to P.F.). P.F. and B.M.T.B. were further supported by the Cancer Genomics Center . V.t.B. was supported by the Rosalie B. Hite Fellowship for Cancer Research . M.Mählen was supported by the Boehringer Ingelheim Fonds . Immunohistochemistry analyses were provided by the Tissue Biospecimen & Pathology Resource Core, supported by an NIH/NCI CCSG grant ( 5P30CA016672 ). Publisher Copyright: © 2021 Elsevier Inc.
(Peer reviewed)