Alteration of the platelet transcriptome in chronic kidney disease

Plé, Hélène; Maltais, Manon; Corduan, Aurélie; Rousseau, Guy; Madore, François; Provost, Patrick

doi:10.1160/th12-03-0153

Cited by 61 publications

(34 citation statements)

References 47 publications

(50 reference statements)

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“…2,29,30 A miR-223 reporter construct was created by inserting a sequence complementary to hsa-miR-223 in the Xba1 site of pRL-CMV vector (Promega, Madison, WI), downstream of the Renilla luciferase (Rluc) reporter gene. pRL-CMV-39UTR Ephrin A1 (EFNA1) and pRL-CMV-39UTR F-box/WD repeat-containing protein 7 (FBXW7) constructs were engineered by amplifying and cloning their 39UTR element downstream of the Rluc reporter gene in pRL-CMV vector.…”

Section: Reporter Gene Activity Assaysmentioning

confidence: 99%

Activated platelets can deliver mRNA regulatory Ago2•microRNA complexes to endothelial cells via microparticles

Laffont

Corduan

Plé

et al. 2013

Blood

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Section: Reporter Gene Activity Assaysmentioning

confidence: 99%

Activated platelets can deliver mRNA regulatory Ago2•microRNA complexes to endothelial cells via microparticles

Laffont

Corduan

Plé

et al. 2013

Blood

Self Cite

360

339

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“…These molecules in platelets may come from different sources, such as those inherited from megakaryocytes, those absorbed from the plasma, or those generated de novo. With regard to de novo synthesis of molecules in platelets, although platelets are anucleate, they express significant amounts of RNA, including mRNAs (e.g., premature and mature RNA), structural and catalytic RNAs (e.g., ribosomal and tRNA), regulatory RNAs (e.g., microRNA), and noncoding RNA (e.g., anti-sense RNA) (90)(91)(92)(93)(94)(95)(96)(97)(98)(99)(100)(101)(102)(103)(104)(105). More recently, it also was revealed that platelets contain all of the molecular machinery to translate mRNA into proteins, and they have the ability to transfer RNA to recipient cells where it can regulate cellular function (101-104).…”

Section: Platelet Transcriptomicsmentioning

confidence: 99%

Nouvelle Cuisine: Platelets Served with Inflammation

Kapur

Zufferey

Boilard

et al. 2015

The Journal of Immunology

168

185

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Platelets are small cellular fragments with the primary physiological role of maintaining hemostasis. In addition to this well-described classical function, it is becoming increasingly clear that platelets have an intimate connection with infection and inflammation. This stems from several platelet characteristics, including their ability to bind infectious agents and secrete many immunomodulatory cytokines and chemokines, as well as their expression of receptors for various immune effector and regulatory functions, such as TLRs, which allow them to sense pathogen-associated molecular patterns. Furthermore, platelets contain RNA that can be nascently translated under different environmental stresses, and they are able to release membrane microparticles that can transport inflammatory cargo to inflammatory cells. Interestingly, acute infections can also result in platelet breakdown and thrombocytopenia. This report highlights these relatively new aspects of platelets and, thus, their nonhemostatic nature in an inflammatory setting.

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“…Examination of RNA expression patterns in platelets has been used to identify biomarkers of disease, explain genetically or environmentally induced alterations in platelet function, and determine if genes are conserved between humans and mice. [1][2][3][4][5][6][7][8][9][10][11][12][13] The past decade has also revealed that platelets can translate mRNA into protein or transfer RNA to recipient cells where it regulates functional processes. [14][15][16][17] Because platelets are anucleate, transcriptional production of RNA (with the notable exception of mitochondria-derived transcripts) presumably occurs exclusively in the megakaryocyte.…”

Section: Introductionmentioning

confidence: 99%

A tour through the transcriptional landscape of platelets

Schubert¹,

Weyrich

Rowley

2014

Blood

100

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The RNA code found within a platelet and alterations of that code continue to shed light onto the mechanistic underpinnings of platelet function and dysfunction. It is now known that features of messenger RNA (mRNA) in platelets mirror those of nucleated cells. This review serves as a tour guide for readers interested in developing a greater understanding of platelet mRNA. The tour provides an in-depth and interactive examination of platelet mRNA, especially in the context of next-generation RNA sequencing. At the end of the expedition, the reader will have a better grasp of the topography of platelet mRNA and how it impacts platelet function in health and disease.

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Alteration of the platelet transcriptome in chronic kidney disease

Cited by 61 publications

References 47 publications

Activated platelets can deliver mRNA regulatory Ago2•microRNA complexes to endothelial cells via microparticles

Activated platelets can deliver mRNA regulatory Ago2•microRNA complexes to endothelial cells via microparticles

Nouvelle Cuisine: Platelets Served with Inflammation

A tour through the transcriptional landscape of platelets

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