Platelet microRNA-mRNA coexpression profiles correlate with platelet reactivity

Nagalla, Srikanth; Shaw, Chad A.; Kong, Xianguo; Kondkar, Altaf A.; Edelstein, Leonard C.; Ma, Lin; Chen, Junmei; McKnight, G. Stanley; López, José A.; Yang, Linghai; Jin, Ying; Bray, Molly S.; Leal, Suzanne M.; Dong, Jing; Bray, Paul F.

doi:10.1182/blood-2010-09-299719

Cited by 299 publications

(324 citation statements)

References 44 publications

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“…A year later, the same group established a correlation between platelet microRNA-mRNA coexpression profiles with platelet reactivity [28]. Two years later, Edelstein et al [29] narrowed the gap by showing that (i) miR-376c levels were inversely correlated with PCTP mRNA levels, PC-TP protein levels and PAR4 reactivity, and that (ii) miR376c regulated expression of PC-TP in human megakaryocytes [29].…”

Section: A Role For Micrornas In Platelet Function?mentioning

confidence: 99%

The clinical significance of platelet microparticle-associated microRNAs

Provost

2017

Clinical Chemistry and Laboratory Medicine (CCLM)

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Abstract:Circulating blood platelets play a central role in the maintenance of hemostasis. They adhere to subendothelial extracellular matrix proteins that become exposed upon vessel wall damage, which is followed by platelet activation, further platelet recruitment, platelet aggregation and formation of an occlusive, or non-occlusive, platelet thrombus. Platelets host a surprisingly diverse transcriptome, which is comprised of ~ 9500 messenger RNAs (mRNAs) and different classes of non-coding RNAs, including microRNAs, as well as a significant repertoire of proteins that contribute to their primary (adhesion, aggregation, granule secretion) and alternative (RNA transfer, mRNA translation, immune regulation) functions. Platelets have the propensity to release microparticles (MPs; 0.1-1 μm in diameter) upon activation, which may mediate inflammatory responses and contribute to exacerbate inflammatory diseases and conditions. Carrying components of the platelets' cytoplasm, platelet MPs may exert their effects on recipient cells by transferring their content in platelet-derived bioactive lipid mediators, cytokines, mRNAs and microRNAs. Platelet MP-associated microRNAs may thus function also outside of platelets and play an important role in intercellular signaling and gene expression programming across the entire circulatory system. The role and importance of platelet MP-associated microRNAs in various aspects of biology and pathophysiology are increasingly recognized, and now provide the scientific basis and rationale to support further translational research and clinical studies. The clinical significance, pathophysiological role as well as the diagnostic and therapeutic potential of platelet MP-associated microRNAs in cardiovascular diseases, platelet transfusion and cancer will be discussed.

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Section: A Role For Micrornas In Platelet Function?mentioning

confidence: 99%

The clinical significance of platelet microparticle-associated microRNAs

Provost

2017

Clinical Chemistry and Laboratory Medicine (CCLM)

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“…44 Alternatively, the increased number of BM-derived EC that line the microvascular network of the kidney of the LV-126 mice could serve as a source of miR-126 via the production of microparticles 45 ; it was recently shown that, under certain conditions, such particles can cross the tubular basement membrane. 46 In addition, activated platelets may be involved because miR-126 is among the most abundant microRNAs in platelets, 47,48 and they could serve as a transporter of miR-126 to the site of injury. 49 Because EPCs can take up platelets and their molecular content, 50 platelets could also add to EPC function through miR-126 transfer.…”

Section: Discussionmentioning

confidence: 99%

Hematopoietic MicroRNA-126 Protects against Renal Ischemia/Reperfusion Injury by Promoting Vascular Integrity

Bijkerk¹,

Solingen²,

Boer³

et al. 2014

Journal of the American Society of Nephrology

101

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Ischemia/reperfusion injury (IRI) is a central phenomenon in kidney transplantation and AKI. Integrity of the renal peritubular capillary network is an important limiting factor in the recovery from IRI. facilitates vascular regeneration by functioning as an angiomiR and by modulating mobilization of hematopoietic stem/progenitor cells. We hypothesized that overexpression of miR-126 in the hematopoietic compartment could protect the kidney against IRI via preservation of microvascular integrity. Here, we demonstrate that hematopoietic overexpression of miR-126 increases neovascularization of subcutaneously implanted Matrigel plugs in mice. After renal IRI, mice overexpressing miR-126 displayed a marked decrease in urea levels, weight loss, fibrotic markers, and injury markers (such as kidney injury molecule-1 and neutrophil gelatinase-associated lipocalin). This protective effect was associated with a higher density of the peritubular capillary network in the corticomedullary junction and increased numbers of bone marrow-derived endothelial cells. Hematopoietic overexpression of miR-126 increased the number of circulating Lin 2 /Sca-1 + /cKit + hematopoietic stem and progenitor cells. Additionally, miR-126 overexpression attenuated expression of the chemokine receptor CXCR4 on Lin 2 /Sca-1 + /cKit + cells in the bone marrow and increased renal expression of its ligand stromal cell-derived factor 1, thus favoring mobilization of Lin 2 /Sca-1 + /cKit + cells toward the kidney. Taken together, these results suggest overexpression of miR-126 in the hematopoietic compartment is associated with stromal cell-derived factor 1/CXCR4-dependent vasculogenic progenitor cell mobilization and promotes vascular integrity and supports recovery of the kidney after IRI.

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“…However, the main question about platelet miRNAs concerns their possible role in regulating platelet reactivity. It has been reported that platelets contain more mRNAs that encode proteins that inhibit platelet activation to maintain platelets in a resting state [47]. Regarding activation, platelets miRNAs may be differentially expressed, thus some of them may predict platelet activation/reactivity [47].…”

Section: Beyond Aggregation: New Insight In Platelet Physiology and Fmentioning

confidence: 99%

“…It has been reported that platelets contain more mRNAs that encode proteins that inhibit platelet activation to maintain platelets in a resting state [47]. Regarding activation, platelets miRNAs may be differentially expressed, thus some of them may predict platelet activation/reactivity [47]. In light of the published data, we have tried to elucidate the molecular changes induced in activated platelets, looking at miRNome and proteome reorganization upon activation [46].…”

Section: Beyond Aggregation: New Insight In Platelet Physiology and Fmentioning

confidence: 99%

The Two Faces of Thrombosis: Coagulation Cascade and Platelet Aggregation. Are Platelets the Main Therapeutic Target?

Cimmino¹,

Fischetti²,

Golino³

2017

J Thrombo Cir

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Acute thrombus formation is the pathophysiological substrate underlying several clinical conditions, such as acute coronary syndrome (ACS) and stroke. Activation of coagulation cascade is a key step of the thrombotic process: vessel injury results in exposure of the glycoprotein tissue factor (TF) to the flowing blood. Once exposed, TF binds factor VII/VIIa (FVII/FVIIa) and in presence of calcium ions, it forms a tertiary complex able to activate FX to FXa, FIX to FIXa, and FVIIa itself. The final step is thrombin formation at the site of vessel injury with subsequent platelet activation, fibrinogen to fibrin conversion and ultimately thrombus formation.Platelets are the key cells in primary hemostasis. For years they have been considered only as cell fragments participating to primary hemostasis and onto which coagulation factors are assembled in the process of thrombus formation. However, recent advances in platelets pathophysiology have shown that these cells are able to regulate their gene and protein expression, make de novo protein synthesis, and release different mediators with paracrine effects that may interfere with different cell functions.Pharmacological modulation of both side of thrombosis, coagulation cascade and platelet activation, is of great clinical importance. Several clinical trials have clearly shown the efficacy of anticoagulation and/or anti platelet aggregation in different thrombotic disorders. This article aims at reviewing the recent advancements on the two faces of thrombosis focusing on the emerging role of platelets not only as clot-forming components, but highlighting their involvement in the inflammatory-immune system, as well as in modulation of different cell functions.

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Platelet microRNA-mRNA coexpression profiles correlate with platelet reactivity

Cited by 299 publications

References 44 publications

The clinical significance of platelet microparticle-associated microRNAs

The clinical significance of platelet microparticle-associated microRNAs

Hematopoietic MicroRNA-126 Protects against Renal Ischemia/Reperfusion Injury by Promoting Vascular Integrity

The Two Faces of Thrombosis: Coagulation Cascade and Platelet Aggregation. Are Platelets the Main Therapeutic Target?

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