Tumoral microvesicle–activated glycometabolic reprogramming in fibroblasts promotes the progression of oral squamous cell carcinoma

Jiang, Erhui; Xu, Zhi; Wang, Meng; Yan, Tinglin; Huang, Chun‐Ming; Zhou, Xiaocheng; Liu, Qing; Wang, Lin; Chen, Yang; Wang, Hui; Liu, Ke; Shao, Zhang; Shang, Zhengjun

doi:10.1096/fj.201802226r

Cited by 65 publications

(66 citation statements)

References 49 publications

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“…Stimulation of fibroblasts with prostate cancer MV converted them to an activated phenotype and triggered the release of tumor-promoting fibroblast MV [48]. Similar observations were made in oral squamous carcinoma when normal human fibroblasts were treated with tumor-derived MV [49]. In this study, the switch to cancer-associated fibroblasts (CAF) was mainly mediated via metabolic reprogramming of the fibroblasts to aerobic glycolysis, with an increase in glucose uptake and lactate secretion.…”

Section: Role Of Cancer-associated MV and Their Protein Cargo In Tumosupporting

confidence: 68%

Microvesicles in Cancer: Small Size, Large Potential

Menck

Sivaloganathan

Bleckmann

et al. 2020

IJMS

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Extracellular vesicles (EV) are secreted by all cell types in a tumor and its microenvironment (TME), playing an essential role in intercellular communication and the establishment of a TME favorable for tumor invasion and metastasis. They encompass a variety of vesicle populations, among them the well-known endosomal-derived small exosomes (Exo), but also larger vesicles (diameter > 100 nm) that are shed directly from the plasma membrane, the so-called microvesicles (MV). Increasing evidence suggests that MV, although biologically different, share the tumor-promoting features of Exo in the TME. Due to their larger size, they can be readily harvested from patients’ blood and characterized by routine methods such as conventional flow cytometry, exploiting the plethora of molecules expressed on their surface. In this review, we summarize the current knowledge about the biology and the composition of MV, as well as their role within the TME. We highlight not only the challenges and potential of MV as novel biomarkers for cancer, but also discuss their possible use for therapeutic intervention.

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Section: Role Of Cancer-associated MV and Their Protein Cargo In Tumosupporting

confidence: 68%

Microvesicles in Cancer: Small Size, Large Potential

Menck

Sivaloganathan

Bleckmann

et al. 2020

IJMS

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“…Injection of a combination of untreated and TMV-treated HCFs with CAL-27 xenograft into nude mice found that treating with TMVs was associated with a significant increase in tumour weight (p < 0.05). The invasive potential of OSCC cells was demonstrated to be increased after being co-cultured with TMV-treated HCGs and partially reversed by knockdown of MCT1 in CaL-27 cells [23].…”

Section: Ev Mediated Fibroblast Interaction In Osccmentioning

confidence: 98%

“…Primary normal oral keratinocytes Exposure to OSCC-derived exosomes specifically modulated mRNA transcripts associated with matrix remodeling, cell cycle, differentiation, apoptosis, transcription and translation OSCC & Fibroblasts [33] OSCC line (HSC3) NOF HSC3-exosomes lead to uptake by NOFs with resulting upregulation of expression of non-coding RNA Lnc-CAF [23] OSCC line (Cal-27) HGFs (human gingival fibroblasts)…”

Section: Studymentioning

confidence: 99%

“…OSCC-derived MVs may influence normal fibroblasts that in turn can influence tumour progression. The glycometabolic influence of MVs derived from CAL-27 OSCC cells was studied by Jiang et al (2019) in HGFs (human gingival fibroblasts) from healthy individuals, PNFs (paracancerous normal fibroblasts) and CAFs 3 OSCC patients [23]. HGFs incubated with the OSCC-derived MVs internalized these tumour MVs (TMVs) and subsequently increased levels of CAF markers (FAP and Tn-c).…”

Section: Ev Mediated Fibroblast Interaction In Osccmentioning

confidence: 99%

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Extracellular Vesicles in Oral Squamous Cell Carcinoma and Oral Potentially Malignant Disorders: A Systematic Review

Yap

Pruthi

Seers

et al. 2020

IJMS

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Extracellular vesicles (EVs) are secreted from most cell types and utilized in a complex network of near and distant cell-to-cell communication. Insight into this complex nanoscopic interaction in the development, progression and treatment of oral squamous cell carcinoma (OSCC) and precancerous oral mucosal disorders, termed oral potentially malignant disorders (OPMDs), remains of interest. In this review, we comprehensively present the current state of knowledge of EVs in OSCC and OPMDs. A systematic literature search strategy was developed and updated to December 17, 2019. Fifty-five articles were identified addressing EVs in OSCC and OPMDs with all but two articles published from 2015, highlighting the novelty of this research area. Themes included the impact of OSCC-derived EVs on phenotypic changes, lymph-angiogenesis, stromal immune response, mechanisms of therapeutic resistance as well as utility of EVs for drug delivery in OSCC and OPMD. Interest and progress of knowledge of EVs in OSCC and OPMD has been expanding on several fronts. The oral cavity presents a unique and accessible microenvironment for nanoparticle study that could present important models for other solid tumours.

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“…Along with alterations in cancer cell metabolism, perturbations in the metabolism of tumor stroma are emerging as a key driver of metastatic progression. The interactions between cancer-associated fibroblasts, and tumor cells is described as a 'reverse Warburg effect' where cancer cells induce metabolic reprogramming of fibroblasts leading to increased aerobic glycolysis [67], as well as increased expression of monocarboxylate transporter-4 (MCT4) [68] resulting in release of lactate into the tumor microenvironment. This is correlated with upregulated expression of monocarboxylate transporter-1 (MCT1) mediated lactate uptake in cancer cells which has been shown to contribute to survival and growth [68], as well as tumor migration [69].…”

Section: Extracellular Roles Of Metabolic Enzymes In Metastasismentioning

confidence: 99%

Non-canonical roles for metabolic enzymes and intermediates in malignant progression and metastasis

Williams

Fingleton

2019

Clin Exp Metastasis

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Metabolic alterations are established as a hallmark of cancer. Such hallmark changes in cancer metabolism are characterized by reprogramming of energy-producing pathways and increases in the generation of biosynthetic intermediates to meet the needs of rapidly proliferating tumor cells. Various metabolic phenotypes such as aerobic glycolysis, increased glutamine consumption, and lipolysis have also been associated with the process of metastasis. However, in addition to the energy and biosynthetic alterations, a number of secondary functions of enzymes and metabolites are emerging that specifically contribute to metastasis. Here, we describe atypical intracellular roles of metabolic enzymes, extracellular functions of metabolic enzymes, roles of metabolites as signaling molecules, and epigenetic regulation mediated by altered metabolism, all of which can affect metastatic progression. We highlight how some of these mechanisms are already being exploited for therapeutic purposes, and discuss how others show similar potential.

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Tumoral microvesicle–activated glycometabolic reprogramming in fibroblasts promotes the progression of oral squamous cell carcinoma

Cited by 65 publications

References 49 publications

Microvesicles in Cancer: Small Size, Large Potential

Microvesicles in Cancer: Small Size, Large Potential

Extracellular Vesicles in Oral Squamous Cell Carcinoma and Oral Potentially Malignant Disorders: A Systematic Review

Non-canonical roles for metabolic enzymes and intermediates in malignant progression and metastasis

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