RAC1 induces nuclear alterations through the LINC complex to enhance melanoma invasiveness

Colón-Bolea, Paula; García-Gómez, Rocío; Shackleton, Sue; Crespo, Piero; Bustelo, Xosé R.; Casar, Berta

doi:10.1091/mbc.e20-02-0127

Cited by 13 publications

(7 citation statements)

References 56 publications

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“…Rac1-regulated actin dynamics contribute to nuclear membrane organization, which in turn can have an impact on LMNA/C-emerin complex distribution, supporting direct crosstalk between nuclear actin network changes and lamin cortex integrity and remodeling; further, Rho GTPase control of the cytoskeleton is an additional input, through the LINC complex, onto nuclear mechanoadaptation. Current investigations demonstrate that Rac1 induces nuclear alterations through microtubules and LINC complex to promote an invasive phenotype in melanoma cells [168]. Rho GTPases are also involved in the specific control of the perinuclear actin cap, a specialized cytoskeletal structure of fibers contacting the nucleus that regulates both nuclear morphology and re-orientation during front-rear polarization.…”

Section: Rho Gtpases At the Nucleus: Trafficking And Functional Impactmentioning

confidence: 96%

Post-Translational Modification and Subcellular Compartmentalization: Emerging Concepts on the Regulation and Physiopathological Relevance of RhoGTPases

Navarro-Lérida

Sánchez-Álvarez

Pozo

2021

Cells

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Cells and tissues are continuously exposed to both chemical and physical stimuli and dynamically adapt and respond to this variety of external cues to ensure cellular homeostasis, regulated development and tissue-specific differentiation. Alterations of these pathways promote disease progression—a prominent example being cancer. Rho GTPases are key regulators of the remodeling of cytoskeleton and cell membranes and their coordination and integration with different biological processes, including cell polarization and motility, as well as other signaling networks such as growth signaling and proliferation. Apart from the control of GTP–GDP cycling, Rho GTPase activity is spatially and temporally regulated by post-translation modifications (PTMs) and their assembly onto specific protein complexes, which determine their controlled activity at distinct cellular compartments. Although Rho GTPases were traditionally conceived as targeted from the cytosol to the plasma membrane to exert their activity, recent research demonstrates that active pools of different Rho GTPases also localize to endomembranes and the nucleus. In this review, we discuss how PTM-driven modulation of Rho GTPases provides a versatile mechanism for their compartmentalization and functional regulation. Understanding how the subcellular sorting of active small GTPase pools occurs and what its functional significance is could reveal novel therapeutic opportunities.

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Section: Rho Gtpases At the Nucleus: Trafficking And Functional Impactmentioning

confidence: 96%

Post-Translational Modification and Subcellular Compartmentalization: Emerging Concepts on the Regulation and Physiopathological Relevance of RhoGTPases

Navarro-Lérida

Sánchez-Álvarez

Pozo

2021

Cells

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“…In melanoma, selective PI3Kβ inhibitors could inhibit the growth and migration of melanoma cell lines induced by mutant RAC1 43 . Colón-Bolea et al 44 found that RAC1 enhanced melanoma invasiveness by inducing nuclear alterations through the LINC complex. In our study, we validated that the suppression of the RAC1 expression indeed attenuated the proliferation and migration as well as augmented the apoptosis of melanoma cells, which was consistent with the conclusions reported in other studies.…”

Section: Discussionmentioning

confidence: 99%

A comprehensive signature based on endoplasmic reticulum stress-related genes in predicting prognosis and immunotherapy response in melanoma

Liu,

Yao,

Chen

et al. 2023

Sci Rep

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Melanoma is considered as one of the most invasion types of skin cancer with high mortality rates. Although combination of immune checkpoint therapy with local surgical excision provide a novel promising therapeutic strategies, the overall prognosis of melanoma patients remains unsatisfactory. Endoplasmic reticulum (ER) stress, a process of protein misfolding and undue accumulation, has been proven to play an indispensable regulatory role in tumor progression and tumor immunity. However, whether the signature based ER genes has predictive value for the prognosis and immunotherapy of melanoma has not been systematically manifested. In this study, the LASSO regression and multivariate Cox regression were applied to construct a novel signature for predicting melanoma prognosis both in the training and testing set. Intriguingly, we found that patients endowed with high- and low-risk scores displayed differences in clinicopathologic classification, immune cell infiltration level, tumor microenvironment, and immune checkpoint treatment response. Subsequently, based on molecular biology experiments, we validated that silencing the expression of RAC1, an ERG composed of the risk signature, could restrain the proliferation and migration, promote apoptosis, as well as increase the expression of PD-1/PD-L1 and CTLA4 in melanoma cells. Taken together, the risk signature was regarded as promising predictors for melanoma prognosis and might provide prospective strategies to ameliorate patients’ response to immunotherapy.

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“…Indeed, migration of cells in a LINC complex independent manner or even in a faster rate upon inhibition of the LINC complex was reported for mouse melanoma cells (Fracchia et al, 2020), human lung cancer cells (Lv et al, 2015) and rat mammary adenocarcinoma cells (Sharma et al, 2021). Still, it should be noted that there are other cancer cells that do require the LINC complex to support their migration (Colón-Bolea et al, 2020;Imaizumi et al, 2018;Infante et al, 2018). Interestingly, in parallel there are accumulating reports on down-regulation of LINC complex components in various cancer types such as breast cancer, lung cancer, prostate cancer and liver cancer (Cartwright and Karakesisoglou, 2014;Lv et al, 2015;Marmé et al, 2008;Matsumoto et al, 2015;Sharma et al, 2021;Sur-Erdem et al, 2020;Tessema et al, 2008;Yajun et al, 2017).…”

Section: Linc Complex Independent Cell Migrationmentioning

confidence: 92%

LINC complex independent perinuclear actin organization and cell migration

Fracchia¹,

Gerlitz²

2022

Biocell

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The link of the metazoan nucleus to the actin cytoskeleton is highly important for actin polymerization and migration of multiple cell types as well as for mechanotransduction and even affects the cellular transcriptome. Several mechanisms of organization of actin filaments next to the nuclear envelope have been identified. Among these mechanisms the most studied one is the Linker of nucleoskeleton and cytoskeleton (LINC) complex-dependent perinuclear actin organization. However, recently additional mechanisms have been identified: an Actin-related protein-2/3 (Arp2/3)-dependent perinuclear actin polymerization during migration of dendritic cells and a perinuclear actin rim that is formed in response to external force application or migration cues. In parallel, there are also reports on cancer cells that migrate in a LINC complex independent manner and on cancers with reduced expression of the LINC complex components. Thus, suggesting that LINC complex independent migration may be associated with tumour formation.

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RAC1 induces nuclear alterations through the LINC complex to enhance melanoma invasiveness

Cited by 13 publications

References 56 publications

Post-Translational Modification and Subcellular Compartmentalization: Emerging Concepts on the Regulation and Physiopathological Relevance of RhoGTPases

Post-Translational Modification and Subcellular Compartmentalization: Emerging Concepts on the Regulation and Physiopathological Relevance of RhoGTPases

A comprehensive signature based on endoplasmic reticulum stress-related genes in predicting prognosis and immunotherapy response in melanoma

LINC complex independent perinuclear actin organization and cell migration

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