Lysophosphatidic Acid Induces Thrombogenic Activity Through Phosphatidylserine Exposure and Procoagulant Microvesicle Generation in Human Erythrocytes

Chung, Seung Min; Bae, Ok Nam; Lim, Kyung Min; Noh, Jin-Yong; Lee, Moo Yeol; Jung, Yi Sook; Chung, Jin Ho

doi:10.1161/01.atv.0000252898.48084.6a

Cited by 309 publications

(273 citation statements)

References 52 publications

(46 reference statements)

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“…As illustrated in Fig. 3b, during that is not related to the PS exposure [16,17]. Therefore, RBCs were stained with annexin-V-FITC conjugates in order to visualize PS exposure on the surface of RBCs.…”

Section: Resultsmentioning

confidence: 99%

“…The development of the HOT provides a tool for testing this hypothesis at the cellular level. Concentrations of 2.5 µM and 10 µM LPA were chosen because they seemed to be within the common range of concentrations used with other cell types [24,25] in addition to RBCs [17]. Moreover, this concentration is comparable to the local LPA concentration in the immediate surroundings of activated platelets, e.g., inside a blood clot [26,27].…”

Section: Quantification Of the Intracellular Adhesionmentioning

confidence: 99%

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Stimulation of human red blood cells leads to Ca2+-mediated intercellular adhesion

et al. 2011

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Red blood cells (RBCs) are a major component of blood clots, which form physiologically as a response to injury or pathologically in thrombosis. The active participation of RBCs in thrombus solidification has been previously proposed but not yet experimentally proven. Holographic optical tweezers and single-cell force spectroscopy were used to study potential cell-cell adhesion between RBCs. Irreversible intercellular adhesion of RBCs could be induced by stimulation with lysophosphatidic acid (LPA), a compound known to be released by activated platelets. We identified Ca 2+ as an essential player in the signaling cascade by directly inducing Ca 2+ influx using A23187. Elevation of the internal Ca 2+ concentration leads to an intercellular adhesion of RBCs similar to that induced by LPA stimulation. Using single-cell force spectroscopy, the adhesion of the RBCs was identified to be approximately 100 pN, a value large enough to be of significance inside a blood clot or in pathological situations like the vasco-occlusive crisis in sickle cell disease patients.

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Section: Resultsmentioning

confidence: 99%

Section: Quantification Of the Intracellular Adhesionmentioning

confidence: 99%

Stimulation of human red blood cells leads to Ca2+-mediated intercellular adhesion

et al. 2011

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“…Eryptotic cells may further adhere to the vascular wall [3,17,28,60,72] and foster blood clotting [3,16,75]. Thus, phosphatidylserine-exposing erythrocytes may compromise the microcirculation.…”

Section: Discussionmentioning

confidence: 99%

Hemin-induced suicidal erythrocyte death

2009

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Several diseases, such as malaria, sickle cell disease, and ischemia/reperfusion may cause excessive formation of hemin, which may in turn trigger hemolysis. A variety of drugs and diseases leading to hemolysis triggers suicidal erythrocyte death or eryptosis, i.e., cell membrane scrambling and cell shrinkage. Eryptosis is elicited by increased cytosolic Ca 2+ activity and by ceramide. The present study explored whether hemin stimulates eryptosis. Cell membrane scrambling was estimated from annexin Vbinding to phosphatidylserine exposed at the cell surface, cell shrinkage from forward scatter in fluorescence-activated cell sorter analysis, cytosolic Ca 2+ activity from Fluo3 fluorescence and ceramide formation from fluorescencelabeled antibody binding. Exposure to hemin (1-10 μM) within 48 h significantly increased annexin V-binding, decreased forward scatter, increased cytosolic Ca 2+ activity, and stimulated ceramide formation. In conclusion, hemin stimulates suicidal cell death, which may in turn contribute to the clearance of circulating erythrocytes and thus to anemia.

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“…Phosphatidylerine-exposing cells may activate coagulant enzymes (12) and adhere to the vascular wall (11), thus triggering thrombosis and thrombo-occlusive diseases (2,12,13,17,43,55,60). However, the mechanisms possibly underlying erythrocyte-endothelial cell interaction, especially in diseases with excessive eryptosis, are not well defined.…”

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confidence: 99%

Sphingomyelinase-induced adhesion of eryptotic erythrocytes to endothelial cells

Abed

Towhid

Mia

et al. 2012

American Journal of Physiology-Cell Physiology

141

101

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Eryptosis, the suicidal erythrocyte death, leads to cell shrinkage and cell membrane scrambling with phosphatidylserine exposure at the cell surface. Eryptotic erythrocytes adhere to the vascular wall by binding of phosphatidylserine to the CXC chemokine ligand 16 (CXCL16). Stimulators of eryptosis include increased cytosolic Ca 2ϩ activity, energy depletion, and activation of ceramide-producing sphingomyelinase. The present study explored whether sphingomyelinase triggers erythrocyte adhesion to endothelial cells. To this end, human erythrocytes were exposed for 6 h to bacterial sphingomyelinase (1-10 mU/ml) and phosphatidylserine exposure was estimated from fluorescent annexin-V-binding, cell volume from forward scatter in FACS-analysis, erythrocyte adhesion to human umbilical vein endothelial cells (HUVEC) from trapping of labeled erythrocytes in a flow chamber under flow conditions at arterial shear rates, and CXCL16 protein abundance utilizing Western blotting and FACS analysis of fluorescent antibody binding. As a result, sphingomyelinase (Ն1 mU/ml) triggered cell shrinkage, phosphatidylserine exposure and erythrocyte adhesion to HUVEC, effects blunted by Ca 2ϩ removal. Adhesion was significantly blunted by phosphatidylserine-coating annexin-V (5 l/ml), following addition of neutralizing antibodies against endothelial CXCL16 (4 g/ml) and following silencing of the CXCL16 gene with small interfering RNA. Pretreatment of HUVEC with sphingomyelinase upregulated CXCL16 protein abundance. Six hours pretreatment of HUVEC with sphingomyelinase (10 mU/ml) or C6-ceramide (50 M) augmented erythrocyte adhesion following a 30-min treatment with Ca 2ϩ ionophore ionomycin (1 M) or following energy depletion by 48-h glucose removal. Thus exposure to sphingomyelinase or C6-ceramide triggers eryptosis followed by phosphatidylserine-and CXCL16-sensitive adhesion of eryptotic erythrocytes to HUVEC.

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Lysophosphatidic Acid Induces Thrombogenic Activity Through Phosphatidylserine Exposure and Procoagulant Microvesicle Generation in Human Erythrocytes

Cited by 309 publications

References 52 publications

Stimulation of human red blood cells leads to Ca2+-mediated intercellular adhesion

Stimulation of human red blood cells leads to Ca2+-mediated intercellular adhesion

Hemin-induced suicidal erythrocyte death

Sphingomyelinase-induced adhesion of eryptotic erythrocytes to endothelial cells

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