Diverse Long RNAs Are Differentially Sorted into Extracellular Vesicles Secreted by Colorectal Cancer Cells

Hinger, Scott A.; Diana, Jean-Sébastien; Franklin, Jeffrey L.; Higginbotham, James N.; Dou, Yongchao; Ping, Jie; Shu, Lihua; Prasad, Nripesh; Levy, Shawn; Zhang, Bing; Liu, Qi; Weaver, Alissa M.; Coffey, Robert J.; Patton, James G.

doi:10.1016/j.celrep.2018.09.054

Cited by 112 publications

(110 citation statements)

References 52 publications

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“…Particular interest is given to the profiling of IncRNAs contained in extracellular vesicles (EVs) . Specific long coding and noncoding RNAs have been shown to be enriched in EVs compared with matched cognate cells, suggesting that mechanisms are in place to control their export . These RNAs are also protected from ribonuclease activity, and some of them have been shown to be present as full‐length transcripts .…”

Section: Technical Challenges Related With Lncrna Profilingmentioning

confidence: 99%

“…[47][48][49] Specific long coding and noncoding RNAs have been shown to be enriched in EVs compared with matched cognate cells, suggesting that mechanisms are in place to control their export. 50 These RNAs are also protected from ribonuclease activity, 51 and some of them have been shown to be present as full-length transcripts. 50,51 Moreover, RNAs selectively exported in tumor-derived EVs are more likely to serve as useful biomarkers of disease.…”

Section: Lncrna Detection In Liquid Biopsiesmentioning

confidence: 99%

“…50,51 Moreover, RNAs selectively exported in tumor-derived EVs are more likely to serve as useful biomarkers of disease. 49,50 RNA content of bio-fluids or EVs is generally much lower compared to tissue samples, making it even more challenging to accurately quantify lncRNA expression. RNA-capture sequencing workflows, dedicated lncRNA probesets, and efficient total RNA-seq methods can overcome these challenges, enabling sensitive and accurate expression analysis of lncRNAs in human body fluids.…”

Section: Lncrna Detection In Liquid Biopsiesmentioning

confidence: 99%

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Long noncoding RNA expression profiling in cancer: Challenges and opportunities

Lorenzi

Cobos

Decock

et al. 2019

Genes Chromosomes & Cancer

118

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In recent years, technological advances in transcriptome profiling revealed that the repertoire of human RNA molecules is more diverse and extended than originally thought. This diversity and complexity mainly derive from a large ensemble of noncoding RNAs. Because of their key roles in cellular processes important for normal development and physiology, disruption of noncoding RNA expression is intrinsically linked to human disease, including cancer. Therefore, studying the noncoding portion of the transcriptome offers the prospect of identifying novel therapeutic and diagnostic targets. Although evidence of the relevance of noncoding RNAs in cancer is accumulating, we still face many challenges when it comes to accurately profiling their expression levels. Some of these challenges are inherent to the technologies employed, whereas others are associated with characteristics of the noncoding RNAs themselves. In this review, we discuss the challenges related to long noncoding RNA expression profiling, highlight how cancer long noncoding RNAs provide new opportunities for cancer diagnosis and treatment, and reflect on future developments.

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Section: Technical Challenges Related With Lncrna Profilingmentioning

confidence: 99%

Section: Lncrna Detection In Liquid Biopsiesmentioning

confidence: 99%

Section: Lncrna Detection In Liquid Biopsiesmentioning

confidence: 99%

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Long noncoding RNA expression profiling in cancer: Challenges and opportunities

Lorenzi

Cobos

Decock

et al. 2019

Genes Chromosomes & Cancer

118

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“…The composition of EVs depend mainly on their cell origin and on the stimuli they receive, under both physiological and pathological conditions. Indeed, it is well recognized that targeting of bioactive molecules within EVs is a selective process, being specific molecules included or excluded [109][110][111][112]. After their release into the extracellular environment many EVs rapidly break down liberating their cargo in the surrounding microenvironment, otherwise EVs can deliver their cargo to target cells via different pathways: direct interaction, resulting in EV fusion with the target cell membrane or in their endocytosis, and interaction mediated by ligand-receptor binding [113][114][115] (Figure 2).…”

Section: Extracellular Vesicles Compositionmentioning

confidence: 99%

Extracellular Vesicles: The New Frontier of Stem Cell Regenerative Medicine?

Barreca¹,

Geraci²

2020

Preprint

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Regenerative medicine aims to repair damaged or missing cells, tissues or organs for the treatment of various diseases, poorly managed with conventional drugs and medical procedures. To date there are different approaches to obtain these results. Multimodal regenerative methods include transplant of healthy organs, tissues, or cells, body stimulation to activate a self healing response in damaged tissues, as well as the combined use of cells and bio-degradable scaffold to obtain functional tissues. Certainly, stem cells and derived products are promising tools in regenerative medicine due to their ability to induce de novo tissue formation and/or promote tissue and organ repair and regeneration. Currently, several studies have shown that the beneficial stem cell effects in damaged tissue restore are not depending on their engraftment and differentiation on the injury site, but rather to their paracrine activity. It is now well known that paracrine action of stem cells is due to their ability to release Extracellular Vesicles (EVs). EVs play a fundamental role in cell-to cell communication and are directly involved in tissue regeneration. In the present review, we tried to summarize the molecular mechanisms trough which EVs carry out their therapeutic action and their possible application for the treatment of several diseases.

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“…The role of EVs is not only in cell-cell communication (Saeed-Zidane et al, 2017) but also in the removal of undesirable cellular molecules (Takahashi et al, 2017). Contrary to cellular expression, the NOTCH1 was increased in EVs derived from male embryos exposed to OS compared with female counterparts, which may indicate the selectivity of cargo molecules to be exported by EVs (Bhome et al, 2018;Hinger et al, 2018) to facilitate cell to cell communication or maintain of cellular homeostasis. Herein, we can summarize that exposing preimplantation bovine embryos to OS compromised the transformation of blastocysts irrespective of embryo sex, due to increasing intracellular ROS accumulation, which in turn leads to increase apoptosis and delay of differentiation in response to dysregulating of the TFs related to stress response, development, differentiation, and apoptosis.…”

mentioning

confidence: 99%

Sexual dimorphic expression and release of transcription factors in bovine embryos exposed to oxidative stress

Taqi

Saeed‐Zidane

Gebremedhn

et al. 2019

Molecular Reproduction Devel

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Sexually dimorphic differences in genome activity, which is orchestrated by transcription factors (TFs), could explain the differential response of male and female embryos to environmental stressors. To proof this hypothesis, the expression of cellular and extracellular TFs was investigated in male and female bovine embryos in vitro cultured either under low (5%) or high (20%) oxygen levels. The intracellular reactive oxygen species (ROS), total cell number, expression of nuclear factor (erythroid‐derived 2) factor 2 (NFE2L2), Krüppel‐like factor 4 (KLF4), notch receptor 1 (NOTCH1), E2F transcription factor 1 (E2F1), and SREBF2 along with extracellular vesicles (EVs) biogenesis genes were assessed at the blastocyst stage and their released EVs. Low blastocyst rate in both sexes due to oxidative stress (OS) was accompanied by increased ROS accumulation and reduced cell number in female embryos. The messenger RNA and protein levels of NFE2L2, as well as KLF4 expression, were higher in male embryos exposed to OS compared with female embryos. However, the expression of NOTCH1 and E2F1 was higher in female embryos cultured in high oxygen level. Male embryos exposed to OS released more EVs enriched with NFE2L2, superoxide dismutase 1, and NOTCH1 accompanied by elevated expression of EVs biogenesis genes. Accordingly, differential expression of TFs and their release into spent media could partially explain the sexual dimorphic response of bovine embryos to environmental stresses.

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Diverse Long RNAs Are Differentially Sorted into Extracellular Vesicles Secreted by Colorectal Cancer Cells

Cited by 112 publications

References 52 publications

Long noncoding RNA expression profiling in cancer: Challenges and opportunities

Long noncoding RNA expression profiling in cancer: Challenges and opportunities

Extracellular Vesicles: The New Frontier of Stem Cell Regenerative Medicine?

Sexual dimorphic expression and release of transcription factors in bovine embryos exposed to oxidative stress

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