Glucose and collagen regulate human platelet activity through aldose reductase induction of thromboxane
Wai Ho Tang, … , Paola Patrignani, John Hwa
Wai Ho Tang, … , Paola Patrignani, John Hwa
Published October 17, 2011
Citation Information: J Clin Invest. 2011;121(11):4462-4476. https://doi.org/10.1172/JCI59291.
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Glucose and collagen regulate human platelet activity through aldose reductase induction of thromboxane

Abstract

Diabetes mellitus is associated with platelet hyperactivity, which leads to increased morbidity and mortality from cardiovascular disease. This is coupled with enhanced levels of thromboxane (TX), an eicosanoid that facilitates platelet aggregation. Although intensely studied, the mechanism underlying the relationship among hyperglycemia, TX generation, and platelet hyperactivity remains unclear. We sought to identify key signaling components that connect high levels of glucose to TX generation and to examine their clinical relevance. In human platelets, aldose reductase synergistically modulated platelet response to both hyperglycemia and collagen exposure through a pathway involving ROS/PLCγ2/PKC/p38α MAPK. In clinical patients with platelet activation (deep vein thrombosis; saphenous vein graft occlusion after coronary bypass surgery), and particularly those with diabetes, urinary levels of a major enzymatic metabolite of TX (11-dehydro-TXB2 [TX-M]) were substantially increased. Elevated TX-M persisted in diabetic patients taking low-dose aspirin (acetylsalicylic acid, ASA), suggesting that such patients may have underlying endothelial damage, collagen exposure, and thrombovascular disease. Thus, our study has identified multiple potential signaling targets for designing combination chemotherapies that could inhibit the synergistic activation of platelets by hyperglycemia and collagen exposure.

Authors

Wai Ho Tang, Jeremiah Stitham, Scott Gleim, Concetta Di Febbo, Ettore Porreca, Cristiano Fava, Stefania Tacconelli, Marta Capone, Virgilio Evangelista, Giacomo Levantesi, Li Wen, Kathleen Martin, Pietro Minuz, Jeffrey Rade, Paola Patrignani, John Hwa

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Figure 10

Activation of p38α MAPK signaling pathway is required for TX generation and aggregation in collagen-stimulated platelets.

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Activation of p38α MAPK signaling pathway is required for TX generation ...
Platelet suspensions were incubated with NG or HG for 90 minutes in the presence or absence of 50 μmol/l SB239063, 5 μmol/l U73122, 10 μmol/l quercetin, and 10 μmol/l SQ29548 prior to stimulation by 1 μg/ml collagen. (A) The platelet aggregation was presented as the percentage of light transmission and measured in platelet suspensions under NG or HG condition in response to 1 μg/ml collagen for 5 minutes. (B) After stimulation, the supernatant was harvested for the measurement of TXB2 generation. Data are expressed as mean ± SD (n = 5 HS). ***P < 0.001 compared with vehicle incubated in NG; ###P < 0.001 compared with vehicle incubated in HG. (C) Correlation of TX release with increased platelet aggregation in collagen-stimulated human platelets. Platelet suspensions were incubated with NG or HG for 90 minutes prior to stimulation by 1 μg/ml collagen for 10 minutes; the percentage of light transmission was also measured in platelet suspensions, and the TX release was assayed in the supernatant.