CD44+ cells determine fenofibrate-induced microevolution of drug-resistance in prostate cancer cell populations

Wróbel, Tomasz; Luty, Marcin; Catapano, Jessica; Karnas, Elżbieta; Szczygieł, Małgorzata; Piwowarczyk, Katarzyna; Ryszawy, Damian; Drabik, Grażyna; Zuba‐Surma, Ewa; Siedlar, Maciej; Madeja, Zbigniew; Elas, Martyna; Czyż, Jarosław

doi:10.1002/stem.3281

Cited by 11 publications

(6 citation statements)

References 45 publications

(127 reference statements)

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“…We did not reveal GJIC involvement in the adaptation of PC-3_DCX20 cells to DCX/MET-induced stress (not shown). Neither did DCX/FF-treatment upregulate Cx43 in these cells (not shown), even though it has previously been shown to trigger an expansion of super-resistant and invasive prostate cancer cell lineages from CD44 + cells [28]. Our data indicate that Cx43 can cooperate with Snail-1 via the (hemi)channel-(in)dependent control of mitochondrial stress [36,47,48] and cell invasiveness [33,[49][50][51].…”

Section: Discussionmentioning

confidence: 56%

“…We have previously shown that fenofibrate increases the sensitivity of drug-resistant prostate cancer cell lineages to chemotherapeutics [14]. Concomitantly, we observed an array of self-defense responses of prostate cancer cells that survive the initial chemotherapeutic/metabolic shock [28]. Similarly, metformin was shown to interfere with the acquired drug resistance of prostate cancer cells [17].…”

Section: Introductionmentioning

confidence: 66%

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Acquired drug resistance interferes with the susceptibility of prostate cancer cells to metabolic stress

et al. 2022

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Background Metformin is an inhibitor of oxidative phosphorylation that displays an array of anticancer activities. The interference of metformin with the activity of multi-drug resistance systems in cancer cells has been reported. However, the consequences of the acquired chemoresistance for the adaptative responses of cancer cells to metformin-induced stress and for their phenotypic evolution remain unaddressed. Methods Using a range of phenotypic and metabolic assays, we assessed the sensitivity of human prostate cancer PC-3 and DU145 cells, and their drug-resistant lineages (PC-3_DCX20 and DU145_DCX20), to combined docetaxel/metformin stress. Their adaptation responses have been assessed, in particular the shifts in their metabolic profile and invasiveness. Results Metformin increased the sensitivity of PC-3 wild-type (WT) cells to docetaxel, as illustrated by the attenuation of their motility, proliferation, and viability after the combined drug application. These effects correlated with the accumulation of energy carriers (NAD(P)H and ATP) and with the inactivation of ABC drug transporters in docetaxel/metformin-treated PC-3 WT cells. Both PC-3 WT and PC-3_DCX20 reacted to metformin with the Warburg effect; however, PC-3_DCX20 cells were considerably less susceptible to the cytostatic/misbalancing effects of metformin. Concomitantly, an epithelial–mesenchymal transition and Cx43 upregulation was seen in these cells, but not in other more docetaxel/metformin-sensitive DU145_DCX20 populations. Stronger cytostatic effects of the combined fenofibrate/docetaxel treatment confirmed that the fine-tuning of the balance between energy supply and expenditure determines cellular welfare under metabolic stress. Conclusions Collectively, our data identify the mechanisms that underlie the limited potential of metformin for the chemotherapy of drug-resistant tumors. Metformin can enhance the sensitivity of cancer cells to chemotherapy by inducing their metabolic decoupling/imbalance. However, the acquired chemoresistance of cancer cells impairs this effect, facilitates cellular adaptation to metabolic stress, and prompts the invasive front formation.

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Section: Discussionmentioning

confidence: 56%

Section: Introductionmentioning

confidence: 66%

Acquired drug resistance interferes with the susceptibility of prostate cancer cells to metabolic stress

et al. 2022

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“…A Pubmed search with ‘Prostate Cancer Stem Cells’ as the Keyword would turn up > 3000 references. These reported PCSCs manifest a wide diversity of phenotypes including, among others, ABCG2 + [ 218 ], CD133 + [ 219 , 220 , 236 ], CD133 + α2β1 + [ 219 ], CD44 + [ 219 , 232 , 299 , 311 ], ALDH +/hi [ 224 ], MHC −/lo (and PSA −/lo ) [ 226 ], LP-like [ 227 , 238 ] or basal-like [ 231 ], Trop2 +/hi [ 230 ], TOP2A-[ 243 ], hTERT hi [ 250 ], Bmi1 + Sox2 + [ 260 ], CD24 +/hi [ 261 ], CXCR2 + [ 272 ], Zeb1 + [ 280 ], holoclone-forming cells [ 291 ], and CD117(KIT) + [ 310 ]. Many of these PCSC phenotypes overlap with the PCSCs reported by our lab.…”

Section: Introductionmentioning

confidence: 99%

“…PCSCs, in spite of phenotypic diversity, are commonly endowed with high clonogenic and tumor-initiating/tumor-propagating activities. Importantly, PCSCs have been reported to be intrinsically therapy-resistant, including resistance to castration, chemotherapy, radiotherapy and, likely, immunotherapy [ 2 , 3 , 125 , 131 , 138 , 218 , 226 , 227 , 251 – 253 , 265 , 278 , 299 , 300 , 310 , 313 , 315 ]. For example, the PSA −/lo PCa cells are resistant to castration, antiandrogens, prooxidants and chemodrugs [ 131 , 144 ] and ABCG2 + PCSCs are resistant to ARSIs due to increased efflux of androgens [ 218 ].…”

Section: Introductionmentioning

confidence: 99%

“…For example, the PSA −/lo PCa cells are resistant to castration, antiandrogens, prooxidants and chemodrugs [ 131 , 144 ] and ABCG2 + PCSCs are resistant to ARSIs due to increased efflux of androgens [ 218 ]. Similarly, the PSA −/lo /MHC −-/l o PCSCs are resistant to docetaxel as a result of enhanced Notch and Hedgehog signaling [ 226 ], and the CD4 4 + [ 299 ], LP-like [ 227 , 252 ] and hypoxia-induced [ 265 ] PCSCs are all inherently castration- and chemo-resistant. Finally, sphere-derived PCSCs are resistant toγ?d T cell-mediated cytotoxicity [ 300 ] and PCSCs, like many other CSCs, are generally ‘immuno-deficient’ lacking the expression of many immunogenic molecules [ 160 ].…”

Section: Introductionmentioning

confidence: 99%

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Understanding and targeting prostate cancer cell heterogeneity and plasticity

Tang¹

2022

Seminars in Cancer Biology

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CD44 and its implication in neoplastic diseases

Xu,

Bai,

Lan

et al. 2024

MedComm

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CD44, a nonkinase single span transmembrane glycoprotein, is a major cell surface receptor for many other extracellular matrix components as well as classic markers of cancer stem cells and immune cells. Through alternative splicing of CD44 gene, CD44 is divided into two isoforms, the standard isoform of CD44 (CD44s) and the variant isoform of CD44 (CD44v). Different isoforms of CD44 participate in regulating various signaling pathways, modulating cancer proliferation, invasion, metastasis, and drug resistance, with its aberrant expression and dysregulation contributing to tumor initiation and progression. However, CD44s and CD44v play overlapping or contradictory roles in tumor initiation and progression, which is not fully understood. Herein, we discuss the present understanding of the functional and structural roles of CD44 in the pathogenic mechanism of multiple cancers. The regulation functions of CD44 in cancers‐associated signaling pathways is summarized. Moreover, we provide an overview of the anticancer therapeutic strategies that targeting CD44 and preclinical and clinical trials evaluating the pharmacokinetics, efficacy, and drug‐related toxicity about CD44‐targeted therapies. This review provides up‐to‐date information about the roles of CD44 in neoplastic diseases, which may open new perspectives in the field of cancer treatment through targeting CD44.

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CD44+ cells determine fenofibrate-induced microevolution of drug-resistance in prostate cancer cell populations

Cited by 11 publications

References 45 publications

Acquired drug resistance interferes with the susceptibility of prostate cancer cells to metabolic stress

Acquired drug resistance interferes with the susceptibility of prostate cancer cells to metabolic stress

Understanding and targeting prostate cancer cell heterogeneity and plasticity

CD44 and its implication in neoplastic diseases

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