Galdo Bustos , Ulises Ahumada-Castro , Eduardo Silva-Pavez , Hernán Huerta , Andrea Puebla , Camila Quezada , Pablo Morgado-Cáceres , César Casanova-Canelo , Natalia Smith-Cortinez , Maša Podunavac , Cesar Oyarce , Alvaro Lladser , Paula Farias , Alenka Lovy , Jordi Molgó , Vicente A. Torres , Armen Zakarian , J. César Cárdenas
{"title":"IP3R抑制剂desmethylxestospongin B通过损害溶酶体酸化和β1-整合素再循环,减少了肿瘤细胞的迁移、侵袭和转移。","authors":"Galdo Bustos , Ulises Ahumada-Castro , Eduardo Silva-Pavez , Hernán Huerta , Andrea Puebla , Camila Quezada , Pablo Morgado-Cáceres , César Casanova-Canelo , Natalia Smith-Cortinez , Maša Podunavac , Cesar Oyarce , Alvaro Lladser , Paula Farias , Alenka Lovy , Jordi Molgó , Vicente A. Torres , Armen Zakarian , J. César Cárdenas","doi":"10.1016/j.bbadis.2024.167557","DOIUrl":null,"url":null,"abstract":"<div><div>Cancer is the second leading cause of death worldwide. >90 % of cancer-related deaths are due to metastasis, a process that depends on the ability of cancer cells to leave the primary tumor, migrate, and colonize different tissues. Inositol 1,4,5-trisphosphate receptor (IP<sub>3</sub>R)-mediated Ca<sup>2+</sup> signaling plays an essential role in maintaining the homeostasis of cancer cells and the sustained proliferation. Desmethylxestospongin B (dmXeB) is a specific inhibitor of the IP<sub>3</sub>R that selectively arrests cell proliferation and promotes cancer cell death at high concentrations. However, whether migration, invasion and metastasis can be affected by this drug is unknown. Here, by using the highly metastatic triple negative breast cancer (TNBC) cell line MDA-MB-231, we demonstrate that a prolonged inhibition of IP<sub>3</sub>R-mediated Ca<sup>2+</sup> signals with dmXeB significantly reduces cell migration and invasion <em>in vitro</em> and metastasis <em>in vivo</em>. We found that this phenomenon was independent of the bioenergetic control of IP<sub>3</sub>R over the mitochondria and AMPK activation. Furthermore, employing a tandem LC3-GFP-mcherry assay, we found that prolonged inhibition of IP<sub>3</sub>R with dmXeB leads to diminished autophagic flux. This reduction can be attributed to impaired lysosomal acidification, as evidenced by assessments using DQ-BSA and pHrodo. Since cell migration requires appropriate assembly and disassembly of focal adhesions, along with the internalization and recycling of integrins <em>via</em> autophagy, we explored the dependency of integrin recycling from autophagosomes, finding that IP<sub>3</sub>R inhibition with dmXeB impaired the recycling of β1-integrins, which accumulated within autophagosomes. Our findings reveal an unexpected effect of IP<sub>3</sub>R inhibition with dmXeB in cancer cells that could represent a novel therapeutic strategy for the treatment of cancer metastasis.</div></div>","PeriodicalId":8821,"journal":{"name":"Biochimica et biophysica acta. Molecular basis of disease","volume":"1871 1","pages":"Article 167557"},"PeriodicalIF":4.2000,"publicationDate":"2024-10-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The IP3R inhibitor desmethylxestospongin B reduces tumor cell migration, invasion and metastasis by impairing lysosome acidification and β1-integrin recycling\",\"authors\":\"Galdo Bustos , Ulises Ahumada-Castro , Eduardo Silva-Pavez , Hernán Huerta , Andrea Puebla , Camila Quezada , Pablo Morgado-Cáceres , César Casanova-Canelo , Natalia Smith-Cortinez , Maša Podunavac , Cesar Oyarce , Alvaro Lladser , Paula Farias , Alenka Lovy , Jordi Molgó , Vicente A. Torres , Armen Zakarian , J. César Cárdenas\",\"doi\":\"10.1016/j.bbadis.2024.167557\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div>Cancer is the second leading cause of death worldwide. >90 % of cancer-related deaths are due to metastasis, a process that depends on the ability of cancer cells to leave the primary tumor, migrate, and colonize different tissues. Inositol 1,4,5-trisphosphate receptor (IP<sub>3</sub>R)-mediated Ca<sup>2+</sup> signaling plays an essential role in maintaining the homeostasis of cancer cells and the sustained proliferation. Desmethylxestospongin B (dmXeB) is a specific inhibitor of the IP<sub>3</sub>R that selectively arrests cell proliferation and promotes cancer cell death at high concentrations. However, whether migration, invasion and metastasis can be affected by this drug is unknown. Here, by using the highly metastatic triple negative breast cancer (TNBC) cell line MDA-MB-231, we demonstrate that a prolonged inhibition of IP<sub>3</sub>R-mediated Ca<sup>2+</sup> signals with dmXeB significantly reduces cell migration and invasion <em>in vitro</em> and metastasis <em>in vivo</em>. We found that this phenomenon was independent of the bioenergetic control of IP<sub>3</sub>R over the mitochondria and AMPK activation. Furthermore, employing a tandem LC3-GFP-mcherry assay, we found that prolonged inhibition of IP<sub>3</sub>R with dmXeB leads to diminished autophagic flux. This reduction can be attributed to impaired lysosomal acidification, as evidenced by assessments using DQ-BSA and pHrodo. Since cell migration requires appropriate assembly and disassembly of focal adhesions, along with the internalization and recycling of integrins <em>via</em> autophagy, we explored the dependency of integrin recycling from autophagosomes, finding that IP<sub>3</sub>R inhibition with dmXeB impaired the recycling of β1-integrins, which accumulated within autophagosomes. Our findings reveal an unexpected effect of IP<sub>3</sub>R inhibition with dmXeB in cancer cells that could represent a novel therapeutic strategy for the treatment of cancer metastasis.</div></div>\",\"PeriodicalId\":8821,\"journal\":{\"name\":\"Biochimica et biophysica acta. 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Molecular basis of disease","FirstCategoryId":"99","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0925443924005519","RegionNum":2,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"BIOCHEMISTRY & MOLECULAR BIOLOGY","Score":null,"Total":0}
The IP3R inhibitor desmethylxestospongin B reduces tumor cell migration, invasion and metastasis by impairing lysosome acidification and β1-integrin recycling
Cancer is the second leading cause of death worldwide. >90 % of cancer-related deaths are due to metastasis, a process that depends on the ability of cancer cells to leave the primary tumor, migrate, and colonize different tissues. Inositol 1,4,5-trisphosphate receptor (IP3R)-mediated Ca2+ signaling plays an essential role in maintaining the homeostasis of cancer cells and the sustained proliferation. Desmethylxestospongin B (dmXeB) is a specific inhibitor of the IP3R that selectively arrests cell proliferation and promotes cancer cell death at high concentrations. However, whether migration, invasion and metastasis can be affected by this drug is unknown. Here, by using the highly metastatic triple negative breast cancer (TNBC) cell line MDA-MB-231, we demonstrate that a prolonged inhibition of IP3R-mediated Ca2+ signals with dmXeB significantly reduces cell migration and invasion in vitro and metastasis in vivo. We found that this phenomenon was independent of the bioenergetic control of IP3R over the mitochondria and AMPK activation. Furthermore, employing a tandem LC3-GFP-mcherry assay, we found that prolonged inhibition of IP3R with dmXeB leads to diminished autophagic flux. This reduction can be attributed to impaired lysosomal acidification, as evidenced by assessments using DQ-BSA and pHrodo. Since cell migration requires appropriate assembly and disassembly of focal adhesions, along with the internalization and recycling of integrins via autophagy, we explored the dependency of integrin recycling from autophagosomes, finding that IP3R inhibition with dmXeB impaired the recycling of β1-integrins, which accumulated within autophagosomes. Our findings reveal an unexpected effect of IP3R inhibition with dmXeB in cancer cells that could represent a novel therapeutic strategy for the treatment of cancer metastasis.
期刊介绍:
BBA Molecular Basis of Disease addresses the biochemistry and molecular genetics of disease processes and models of human disease. This journal covers aspects of aging, cancer, metabolic-, neurological-, and immunological-based disease. Manuscripts focused on using animal models to elucidate biochemical and mechanistic insight in each of these conditions, are particularly encouraged. Manuscripts should emphasize the underlying mechanisms of disease pathways and provide novel contributions to the understanding and/or treatment of these disorders. Highly descriptive and method development submissions may be declined without full review. The submission of uninvited reviews to BBA - Molecular Basis of Disease is strongly discouraged, and any such uninvited review should be accompanied by a coverletter outlining the compelling reasons why the review should be considered.