Expression of Arl2 is associated with p53 localization and chemosensitivity in a breast cancer cell line

Béghin, Anne; Matera, Eva–Laure; Brunet-Manquat, Stéphanie; Dumontet, Charles

doi:10.4161/cc.7.19.6777

Cited by 30 publications

(37 citation statements)

References 23 publications

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“…Our data is consistent with the observations that non-functional p53 affects the sensitivity of cancer cells to GEM [43] and that restoration of p53 function by various approaches in tumors allows activation of molecular pathways that improve the response to GEM [44,45]. Accordingly, some studies demonstrated that exposure to GEM enhances the transcriptional activity of p53 and that GEM-induced apoptosis in cancer cells is mediated by a p53-dependent transcriptional activation of cell death-related genes [46,47]. Here, we showed that the combined treatment of PDAC cells with GEM and p53-reactivating molecules (CP-31398 and RITA) synergistically inhibited cell proliferation in both wt and mp53 tumor cells but not in p53-null cancer cells ( Fig.…”

Section: Discussionsupporting

confidence: 93%

Mutant p53 stimulates chemoresistance of pancreatic adenocarcinoma cells to gemcitabine

Fiorini

Cordani

Padroni

et al. 2015

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

116

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Pancreatic adenocarcinoma (PDAC) is the fourth leading cause of cancer-related deaths worldwide; PDAC is characterized by poor prognosis, resistance to conventional chemotherapy and high mortality rate. TP53 tumor suppressor gene is frequently mutated in PDAC, resulting in the accumulation of mutated protein with potential gain-of-function (GOF) activities, such as genomic instability, hyperproliferation and chemoresistance. The purpose of this study was to assess the relevance of the p53 status on the PDAC cells response to the standard drug gemcitabine. We also examined the potential therapeutic effect of p53-reactivating molecules to restore the mutant p53 function in GEM treated PDAC cells. We showed that gemcitabine stabilized mutant p53 protein in the nuclei and induced chemoresistance, concurrent with the mutant p53-dependent expression of Cdk1 and CCNB1 genes, resulting in a hyperproliferation effect. Despite the adverse activation of mutant p53 by gemcitabine, simultaneous treatment of PDAC cells with gemcitabine and p53-reactivating molecules (CP-31398 and RITA) reduced growth rate and induced apoptosis. This synergistic effect was observed in both wild-type and mutant p53 cell lines and was absent in p53-null cells. The combination drug treatment induced p53 phosphorylation on Ser15, apoptosis and autophagosome formation. Furthermore, pharmacological inhibition of autophagy further increased apoptosis stimulated by gemcitabine/CP-31398 treatment. Together, our results show that gemcitabine aberrantly stimulates mutant p53 activity in PDAC cells identifying key processes with potential for therapeutic targeting. Our data also support an anti-tumoral strategy based on inhibition of autophagy combined with p53 activation and standard chemotherapy for both wild-type and mutant p53 expressing PDACs.

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Section: Discussionsupporting

confidence: 93%

Mutant p53 stimulates chemoresistance of pancreatic adenocarcinoma cells to gemcitabine

Fiorini

Cordani

Padroni

et al. 2015

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

116

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“…When our latest observations are combined with earlier studies, we conclude that ARL2 is an important component of several cellular processes, including (i) regulation of ATP levels in mitochondria, likely in the matrix, (ii) regulation of mitochondrial fission and motility, (iii) at centrosomes, in concert with cofactor D, to regulate the growth of microtubules and mitotic spindles [10], [11], [22], [47], [76], (iv) in the nucleus to regulate STAT3 and perhaps other transcriptional responses [12], and in the cytosol to (v) regulate the folding of tubulin heterodimers [2], [3], and (vi) the shuttling and release of farnesylated proteins [24]. With the dissection of these different functions of ARL2 and the growing list of reagents allowing their clear resolution we are poised to understand the mechanisms of these actions at the molecular level, though some of them are expected to be challenging to document due to the limited understanding of the process itself (e.g., crista junction regulation).…”

Section: Discussionsupporting

confidence: 58%

“…In addition to changes in mitochondrial morphology, we also noted that cells deficient in ARL2 activity, either resulting from depletion by siRNA or expression of ARL2[T30N], appear to be smaller than controls. This size difference was not quantified or explored further in the current study but was reported earlier in related studies [10], [11], [22].…”

Section: Resultsmentioning

confidence: 70%

“…Mutations in both ARL2 and cofactor D have been identified in a number of genetic screens linked to microtubules in model organisms that include S. cerevisiae , S. pombe , A. thaliana , and C. elegans [4], [5], [6], [7], [8], [9]. Using stable variants of human breast adenocarcinoma lines, Beghin, et al [10],[11] showed that ARL2 protein content influences cell morphology (or cell spreading), soluble tubulin pools, microtubule dynamics, cell cycle progression, and chemosensitivity. ARL2 has also been proposed to regulate aspects of STAT3 signaling through actions in the nucleus [12].…”

Section: Introductionmentioning

confidence: 99%

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The ARL2 GTPase Is Required for Mitochondrial Morphology, Motility, and Maintenance of ATP Levels

et al. 2014

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ARF-like 2 (ARL2) is a member of the ARF family and RAS superfamily of regulatory GTPases, predicted to be present in the last eukaryotic common ancestor, and essential in a number of model genetic systems. Though best studied as a regulator of tubulin folding, we previously demonstrated that ARL2 partially localizes to mitochondria. Here, we show that ARL2 is essential to a number of mitochondrial functions, including mitochondrial morphology, motility, and maintenance of ATP levels. We compare phenotypes resulting from ARL2 depletion and expression of dominant negative mutants and use these to demonstrate that the mitochondrial roles of ARL2 are distinct from its roles in tubulin folding. Testing of current models for ARL2 actions at mitochondria failed to support them. Rather, we found that knockdown of the ARL2 GTPase activating protein (GAP) ELMOD2 phenocopies two of three phenotypes of ARL2 siRNA, making it a likely effector for these actions. These results add new layers of complexity to ARL2 signaling, highlighting the need to deconvolve these different cell functions. We hypothesize that ARL2 plays essential roles inside mitochondria along with other cellular functions, at least in part to provide coupling of regulation between these essential cell processes.

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“…Death observed in tumor cells but not in normal fibroblasts indicates that destabilization induced by MESQ was completely reversible or innocuous in cells with genomic stability and normal functions, including regulation and repair mechanisms, as already shown in various studies (Ali, 2007;Béghin et al, 2008;Hartwig et al, 2009). On the contrary, cells of the MCF7 tumor line, characterized by genomic instability, aneuploid chromosomes (hypertriploid-hypotetraploid), and aberrant cell function, were completely destabilized by MESQ, as shown by the large population of apoptotic cells after 3 h of exposure (Figs.…”

Section: Discussionmentioning

confidence: 72%

Selective destabilization of tumor cells with pulsed electric and magnetic sequences: a preliminary report

Crocetti¹,

Piantelli²,

Leonzio³

2011

Electromagnetic Biology and Medicine

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Expression of Arl2 is associated with p53 localization and chemosensitivity in a breast cancer cell line

Cited by 30 publications

References 23 publications

Mutant p53 stimulates chemoresistance of pancreatic adenocarcinoma cells to gemcitabine

Mutant p53 stimulates chemoresistance of pancreatic adenocarcinoma cells to gemcitabine

The ARL2 GTPase Is Required for Mitochondrial Morphology, Motility, and Maintenance of ATP Levels

Selective destabilization of tumor cells with pulsed electric and magnetic sequences: a preliminary report

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