Acidic extracellular environment affects miRNA expression in tumors <i>in vitro</i> and <i>in vivo</i>

Riemann, Anne; Reime, Sarah; Thews, Oliver

doi:10.1002/ijc.31790

Cited by 20 publications

(9 citation statements)

References 55 publications

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“…According to other authors [72], miRNAs expressed in isolated tumor cells growing in vitro only partially correspond to those expressed in tumors growing in animals. Indeed, in vivo, miRNAs are influenced by external stimuli in the tumor microenvironment such as the acidic extracellular environment, the presence of hormones [73] or cytokines [74], external physical stimuli [75] or hypoxia [76].…”

Section: Discussionmentioning

confidence: 99%

Circulating miRNAs in Small Extracellular Vesicles Secreted by a Human Melanoma Xenograft in Mouse Brains

Guglielmi

Nardella

Musa

et al. 2020

Cancers

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The identification of liquid biomarkers remains a major challenge to improve the diagnosis of melanoma patients with brain metastases. Circulating miRNAs packaged into tumor-secreted small extracellular vesicles (sEVs) contribute to tumor progression. To investigate the release of tumor-secreted miRNAs by brain metastasis, we developed a xenograft model where human metastatic melanoma cells were injected intracranially in nude mice. The comprehensive profiles of both free miRNAs and those packaged in sEVs secreted by the melanoma cells in the plasma demonstrated that most (80%) of the sEV-associated miRNAs were also present in serum EVs from a cohort of metastatic melanomas, included in a publicly available dataset. Remarkably, among them, we found three miRNAs (miR-224-5p, miR-130a-3p and miR-21-5p) in sEVs showing a trend of upregulation during melanoma progression. Our model is proven to be valuable for identifying miRNAs in EVs that are unequivocally secreted by melanoma cells in the brain and could be associated to disease progression.

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Section: Discussionmentioning

confidence: 99%

Circulating miRNAs in Small Extracellular Vesicles Secreted by a Human Melanoma Xenograft in Mouse Brains

Guglielmi

Nardella

Musa

et al. 2020

Cancers

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“…As cancer progresses, heterogeneous subpopulations of cancer cells arise with different phenotypic [ 66 ] and molecular signatures [ 67 ]. Transcriptional heterogeneity in tumors can arise as a response to environmental conditions including pH [ 68 ]. Importantly, transcriptional heterogeneity can confer an array of fitness advantages to individual cells that contribute to a higher likelihood of cancer cell proliferation, survival, metastasis, or therapy resistance [ 64 , 69 ].…”

Section: Heterogeneity and Phimentioning

confidence: 99%

“…Furthermore, pH-sensitive cancer-associated phenotypes have often been attributed solely to the effects of pHe [ 72 , 73 ], despite pHi dysregulation being a key driver of altered pHe [ 74 ]. For example, transcriptional changes inside cells have been attributed to acidification of pHe [ 68 ], but that acidification was experimentally driven by inducing intracellular hypoxia, which also changes pHi [ 75 ]. These data suggest a link between extracellular and intracellular pH environments and a role for pHi as a driver of microenvironment remodeling and tumor phenotypic heterogeneity.…”

Section: Heterogeneity and Phimentioning

confidence: 99%

Cancer and pH Dynamics: Transcriptional Regulation, Proteostasis, and the Need for New Molecular Tools

Czowski

Romero-Moreno

Trull

et al. 2020

Cancers

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An emerging hallmark of cancer cells is dysregulated pH dynamics. Recent work has suggested that dysregulated intracellular pH (pHi) dynamics enable diverse cancer cellular behaviors at the population level, including cell proliferation, cell migration and metastasis, evasion of apoptosis, and metabolic adaptation. However, the molecular mechanisms driving pH-dependent cancer-associated cell behaviors are largely unknown. In this review article, we explore recent literature suggesting pHi dynamics may play a causative role in regulating or reinforcing tumorigenic transcriptional and proteostatic changes at the molecular level, and discuss outcomes on tumorigenesis and tumor heterogeneity. Most of the data we discuss are population-level analyses; lack of single-cell data is driven by a lack of tools to experimentally change pHi with spatiotemporal control. Data is also sparse on how pHi dynamics play out in complex in vivo microenvironments. To address this need, at the end of this review, we cover recent advances for live-cell pHi measurement at single-cell resolution. We also discuss the essential role for tool development in revealing mechanisms by which pHi dynamics drive tumor initiation, progression, and metastasis.

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“…125 However, it was observed that the expression of miR-215 in prostate cancer AT1 cell line and rat model was downregulated by extracellular acidosis and represented that pH may affect the biological behavior of tumors via miRNAs. 126 Therefore, it was suggested that this miRNA family is a positive regulator of p53, and its downregulation plays a key role in MM development. 132…”

Section: Prostate Cancermentioning

confidence: 99%

Functional mechanisms of miR‐192 family in cancer

Mishan

Tabari

Parnian

et al. 2020

Genes Chromosomes & Cancer

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By growing research on the mechanisms and functions of microRNAs (miRNAs, miRs), the role of these noncoding RNAs gained more attention in healthcare. Due to the remarkable regulatory role of miRNAs, any dysregulation in their expression causes cellular functional impairment. In recent years, it has become increasingly apparent that these small molecules contribute to development, cell differentiation, proliferation, apoptosis, and tumor growth. In many studies, the miR-192 family has been suggested as a potential prognostic and diagnostic biomarker and even as a possible therapeutic target for several cancers. However, the mechanistic effects of the miR-192 family on cancer cells are still controversial. Here, we have reviewed each family member of the miR-192 including miR-192, miR-194, and miR-215, and discussed their mechanistic roles in various cancers.

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Acidic extracellular environment affects miRNA expression in tumors in vitro and in vivo

Cited by 20 publications

References 55 publications

Circulating miRNAs in Small Extracellular Vesicles Secreted by a Human Melanoma Xenograft in Mouse Brains

Circulating miRNAs in Small Extracellular Vesicles Secreted by a Human Melanoma Xenograft in Mouse Brains

Cancer and pH Dynamics: Transcriptional Regulation, Proteostasis, and the Need for New Molecular Tools

Functional mechanisms of miR‐192 family in cancer

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