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ABSTRACT: The release of immunoregulatory and inflammatory molecules following platelet activation has been invariably associated with the expression of tissue injury in several clinical conditions including trauma, organ transplantation, inflammatory bowel diseases and autoimmune diseases. We present a thorough review of the available information on the role of platelets and their interaction with complement cascade on the expression of tissue inflammation and organ damage. We propose that in autoimmune diseases and conditions associated with ischemia/reperfusion, platelets are decorated with complement, become activated and lodge tissues inappropriately to spread the inflammatory process. Interventions such as limiting complement decoration and suppression of signaling processes leading to platelet activation should be met with clinical benefit.
Autoimmunity 08/2012; · 2.47 Impact Factor
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Peter H Lapchak,
Antonis Ioannou,
Poonam Rani,
Linda A Lieberman,
Kazuhisa Yoshiya, Lakshmi Kannan,
Jurandir J Dalle Lucca,
M Anna Kowalska,
George C Tsokos,
Citation : Lapchak,
Lieberman La
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ABSTRACT: The robust inflammatory response that occurs during ischemia reperfusion (IR) injury recruits factors from both the innate and adaptive immune systems. However the contribution of platelets and their products such as Platelet Factor 4 (PF4; CXCL4), during the pathogenesis of IR injury has not been thoroughly investigated. We show that a deficiency in PF4 protects mice from local and remote tissue damage after 30 minutes of mesenteric ischemia and 3 hours of reperfusion in PF4-/-mice compared to control B6 mice. This protection was independent from Ig or complement deposition in the tissues. However, neutrophil and monocyte infiltration were decreased in the lungs of PF4-/-mice compared with B6 control mice. Platelet-depleted B6 mice transfused with platelets from PF4-/-mice displayed reduced tissue damage compared with controls. In contrast, transfusion of B6 platelets into platelet depleted PF4-/-mice reconstituted damage in both intestine and lung tissues. We also show that PF4 may modulate the release of IgA. Interestingly, we show that PF4 expression on intestinal epithelial cells is increased after IR at both the mRNA and protein levels. In conclusion, these findings demonstrate that may PF4 represent an important mediator of local and remote tissue damage., et al. (2012) The Role of Platelet Factor 4 in Local and Remote Tissue Damage in a Mouse Model of Mesenteric Ischemia/Reperfusion Injury. PLoS ONE 7(7): e39934. doi:10.1371/journal.pone.0039934 This is an open-access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication. Funding: The research presented herein was supported by Grant numbers W81XWH-09-1-0530 and W81XWH-09-1-0536 from Medical Research and Material Command of the Department of the Army. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. Competing Interests: The authors have declared that no competing interests exist.
PLoS ONE 07/2012; 7(12). · 4.09 Impact Factor
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ABSTRACT: Tissue injury following ischemia-reperfusion (I/R) occurs as a consequence of actions of soluble factors and immune cells. Growing evidence supports a role for platelets in the manifestation of tissue damage following I/R. Spleen tyrosine kinase has been well documented to be important in lymphocyte activation and more recently in platelet activation. We performed experiments to evaluate whether inhibition of platelet activation through inhibition of spleen tyrosine kinase prevents tissue damage after mesenteric I/R injury. Platelets isolated from C57BL/6J mice fed with R788 for 10 days were transfused into C57BL/6J mice depleted of platelets 2 days before mesenteric I/R injury. Platelet-depleted mice transfused with platelets from R788-treated mice before mesenteric I/R displayed a significant reduction in the degree of remote lung damage, but with little change in the degree of local intestinal damage compared with control I/R mice. Transfusion of R788-treated platelets also decreased platelet sequestration, C3 deposition, and immunoglobulin deposition in lung, but not in the intestine, compared with control groups. These findings demonstrate that platelet activation is a requisite for sequestration in the pulmonary vasculature to mediate remote tissue injury after mesenteric I/R. The use of small-molecule inhibitors may be valuable to prevent tissue damage in remote organs following I/R injury.
AJP Gastrointestinal and Liver Physiology 04/2012; 302(12):G1416-22. · 3.43 Impact Factor
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ABSTRACT: Ischemia-reperfusion (I/R) injury is a leading cause of morbidity and mortality. A functional role for platelets in tissue damage after mesenteric I/R is largely unknown. The hypothesis that mesenteric I/R local and remote injury are platelet dependent was tested. Using a murine mesenteric I/R model, we demonstrate that platelets orchestrate remote lung tissue damage that follows mesenteric I/R injury and also contribute, albeit to a lesser degree, to local villi damage. While lung damage is delayed compared with villi damage, it increased over time and was characterized by accumulation of platelets in the pulmonary vasculature early, followed by alveolar capillaries and extravasation into the pulmonary space. Both villi and lung tissues displayed complement deposition. We demonstrate that villi and lung damage are reduced in mice made platelet deficient before I/R injury and that platelet transfusion into previously platelet-depleted mice before I/R increased both villi and lung tissue damage. Increased C3 deposition accompanied platelet sequestration in the lung, which was mostly absent in platelet-depleted mice. In contrast, C3 deposition was only minimally reduced on villi of platelet-depleted mice. Our findings position platelets alongside complement as a significant early upstream component that orchestrates remote lung tissue damage after mesenteric I/R and strongly suggest that reperfusion injury mitigating modalities should consider the contribution of platelets.
AJP Gastrointestinal and Liver Physiology 02/2012; 302(8):G888-97. · 3.43 Impact Factor
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ABSTRACT: The robust inflammatory response that occurs during ischemia reperfusion (IR) injury recruits factors from both the innate and adaptive immune systems. However the contribution of platelets and their products such as Platelet Factor 4 (PF4; CXCL4), during the pathogenesis of IR injury has not been thoroughly investigated. We show that a deficiency in PF4 protects mice from local and remote tissue damage after 30 minutes of mesenteric ischemia and 3 hours of reperfusion in PF4-/- mice compared to control B6 mice. This protection was independent from Ig or complement deposition in the tissues. However, neutrophil and monocyte infiltration were decreased in the lungs of PF4-/- mice compared with B6 control mice. Platelet-depleted B6 mice transfused with platelets from PF4-/- mice displayed reduced tissue damage compared with controls. In contrast, transfusion of B6 platelets into platelet depleted PF4-/- mice reconstituted damage in both intestine and lung tissues. We also show that PF4 may modulate the release of IgA. Interestingly, we show that PF4 expression on intestinal epithelial cells is increased after IR at both the mRNA and protein levels. In conclusion, these findings demonstrate that may PF4 represent an important mediator of local and remote tissue damage.
PLoS ONE 01/2012; 7(7):e39934. · 4.09 Impact Factor
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ABSTRACT: Several innate and adaptive immune cell types participate in ischemia/reperfusion induced tissue injury. Amongst them, platelets have received little attention as contributors in the process of tissue damage after ischemia reperfusion (I/R) injury. It is currently unknown whether platelets participate through the immunologically important molecules including, CD40 and when activated, CD154 (CD40L), in the pathogenesis of I/R injury. We hypothesized that constitutive expression of CD40 and activation-induced expression of CD154 on platelets mediate local mesenteric and remote lung tissue damage after I/R injury. Wild type (WT; C57BL/6J), CD40 and CD154 deficient mice underwent mesenteric ischemia for 30 minutes followed by reperfusion for 3 hours. WT mice subjected to mesenteric I/R injury displayed both local intestinal and remote lung damage. In contrast, there was significantly less intestinal damage and no remote lung injury in CD40 and CD154 deficient mice when compared to WT mice. Platelet-depleted WT mice transfused with platelets from CD40 or CD154 deficient mice failed to reconstitute remote lung damage. In contrast, when CD40 or CD154 deficient mice were transfused with WT platelets lung tissue damage was re-established. Together, these findings suggest that multiple mechanisms are involved in local and remote tissue injury and also identify platelet-expressed CD40 and/or CD154 as mediators of remote tissue damage.
PLoS ONE 01/2012; 7(2):e32260. · 4.09 Impact Factor
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ABSTRACT: Gut commensal bacteria play important roles in the development and homeostasis of intestinal immunity. However, the role of gut commensals in intestinal ischemia/reperfusion (I/R) injury is unclear. To determine the roles of gut commensal bacteria in intestinal IR injury, we depleted gut microbiota with a broad-spectrum antibiotic cocktail and performed mesenteric I/R (M I/R). First, we confirmed that antibiotic treatment completely depleted gut commensal bacteria and diminished the size of secondary lymphoid tissues such as the Peyer's patches. We next found that antibiotic treatment attenuated intestinal injury following M I/R. Depletion of gut commensal bacteria reduced the expression of Toll-like receptor (TLR)2 and TLR4 in the intestine. Both are well-known receptors for gram-positive and -negative bacteria. Decreased expression of TLR2 and TLR4 led to the reduction of inflammatory mediators, such as TNF, IL-6, and cyclooxygenase-2. Intestinal I/R injury is initiated when natural antibodies recognize neo-antigens that are revealed on ischemic cells and activate the complement pathway. Thus we evaluated complement and immunoglobulin (Ig) deposition in the damaged intestine and found that antibiotic treatment decreased the deposition of both C3 and IgM. Interestingly, we also found that the deposition of IgA also increased in the intestine following M I/R compared with control mice and that antibiotic treatment decreased the deposition of IgA in the damaged intestine. These results suggest that depletion of gut commensal bacteria decreases B cells, Igs, and TLR expression in the intestine, inhibits complement activation, and attenuates intestinal inflammation and injury following M I/R.
AJP Gastrointestinal and Liver Physiology 09/2011; 301(6):G1020-30. · 3.43 Impact Factor
