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[Alpha]8[beta]1 integrin and vascular injury : role of [alpha]8[beta]1 integrin in restenosis after balloon injuryZargham, Ramin. January 2007 (has links)
Restenosis is the major cause of the failure of reconstruction methods to restore the blood flow in atherosclerotic arteries. Restenosis results from neointima formation and consequent constrictive remodelling. Vascular smooth muscle cell (VSMC) migration from the tunica media toward the intima is crucial in neointima genesis. The prerequisite for VSMC migratory activity is the modulation from the differentiated (contractile) to the de-differentiated (noncontractile) phenotype. VSMC phenotype change is associated with the altered expression of integrins. alpha8beta1 integrin is upregulated in cell types with contractile properties, including myofibroblasts and mesangial kidney cells. It is one of the integrins that is intensely expressed in mature VSMCs. alpha8beta1 integrin expression during vascular injury and its role in VSMC function have not been studied so far. / In this work, a rat model of carotid angioplasty was used to mimic vascular injury in humans. alpha8beta1 integrin was downregulated in the tunica media concomitantly with loss of the contractile phenotype. In vitro study revealed that it is a differentiation marker of VSMCs. To test the functional significance of the association between alpha8 integrin and the VSMC phenotype, short interference RNA was deployed to silence the alpha8 integrin gene. alpha8 integrin gene silencing heightened VSMC migratory activity as well as modulation of the VSMC phenotype in favour of the noncontractile state. In addition, alpha8 integrin overexpression induced re-differentiation of VSMCs and attenuated their migratory activity. It is, therefore, suggested that alpha8 integrin overexpression after vascular injury might control VSMC migration and neointima formation. On the other hand, alpha8 integrin gene silencing led to a reduced growth rate, which indicated a dichotomy between VSMC migration and proliferation. / In the later stages of neointima formation, constrictive remodeling plays a major role in late lumen loss. Our data demonstrated that alpha8 integrin is upregulated in the neointima during constrictive remodeling with concomitant luminal narrowing. The importance of this finding was highlighted by results showing that alpha8 integrin was required for the VSMC contractile phenotype evoked by transforming growth factor-beta (TFG-beta) and TFG-beta-induced myofibroblastic differentiation of Rat1 fibroblasts. Thus, it appears that alpha8 integrin expression blockade might reduce contractile remodeling and late lumen loss. Although the mechanism of alpha8 integrin signaling is not yet clear, our findings demonstrate that the alpha8 integrin-induced contractile phenotype is blocked by RhoA inhibitors. Furthermore, alpha8 integrin and RhoA are co-immunoprecipitated, and alpha8 integrin gene silencing reduces RhoA activity. Hence, it is postulated that alpha8-RhoA signaling might be closely intertwined. / Altogether, these studies indicate that alpha8 integrin is a contractile marker of VSMCs and a negative regulator of VSMC migration. Therefore, forced alpha8 integrin expression may be applied to reduce neointima formation. However, alpha8 integrin upregulation during constrictive remodeling concomitant with late lumen loss suggest that it could be involved in lumen narrowing. It seems likely that in therapeutic strategies to reduce restenosis the timeline of interference might be very important. Therefore, alpha8 integrin gene silencing in the later stages of neointima formation might be beneficial.
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Alpha]8[beta]1 integrin and vascular injury : role of [alpha]8[beta1 integrin in restenosis after balloon injuryZargham, Ramin. January 2007 (has links)
No description available.
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Surgical treatment of left main coronary artery stenosis /Jönsson, Anders, January 2006 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2006. / Härtill 5 uppsatser.
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Chemoattractants as causative agents, biomarkers and therapeutic targets in vascular pathology /Sheikine, Yuri, January 2006 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2006. / Härtill 4 uppsatser.
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Mecanismos fisiopatológicos do desequilíbrio redox em células neointimais vasculares / Pathophysiological mechanisms of redox inbalance in neointimal vascular cellsThiesen, Kenya 04 May 2007 (has links)
O crescimento de uma camada neoíntima é o marcador central do processo aterosclerótico, bem como do remodelamento vascular associado à reestenose após intervenções vasculares terapêuticas, tais como angioplastia ou colocação de stents. A célula neointimal é essencialmente uma célula com fenótipo muscular liso indiferenciado, cuja origem pode ser múltipla e com característica ação secretora de matriz extracelular. Dentre os fatores que coordenam a (des)diferenciação, proliferação e migração destas células, há evidências de que processos redox tenham papel preponderante, porém os mecanismos de tais processos não estão claros. A compreensão mais profunda de tais mecanismos redox tem sido dificultada pela falta de modelos de células neointimais cultivadas. Os objetivos específicos deste trabalho são: 1) Desenvolver um modelo de cultura de células neointimais de artéria ilíaca de coelho obtidas após lesão por catéter-balão. 2) Avaliar em tais células índices do estado redox e potenciais fontes enzimáticas de ERO, com ênfase no complexo NAD(P)H oxidase. 3)Avaliar marcadores de estresse do retículo endoplasmático e sua correlação com os índices do estado redox. 4) Estudar o efeito de estímulos proapoptóticos como deprivação de soro, estressores do RE e particularmente administração exógena de NO na viabilidade e estado redox de células neointimais. Os resultados obtidos demonstram que: é possível obter células neointimais em cultura de modo reproduzível e estável. Células provenientes da artéria lesada mantém um estado persistente de aumento do estresse oxidativo. O estresse oxidativo nessas células decorre de produção aumentada de radical superóxido e ativação do complexo da NADPH oxidase vascular. Diferentemente do observado em vasos lesados, os marcadores do estresse do reticulo endoplasmático não se apresentam alterados se comparados a células musculares lisas normais. Células neointimais têm resposta aumentada a agonistas da NADPH oxidase e estressores celulares. A exposição a óxido nitrico promove aumento da produção de superóxido, particularmente acentuado em células neointimais. As curvas de viabilidade celular indicam uma sensibilidade aumentada a estressores do RE, doadores de NO e particularmente a oxidantes exógenos. Em conjunto, estes resultados permitem concluir que o fenótipo neointimal é um fenótipo de estresse oxidativo acentuado e persistente, mesmo em condições de cultura celular, e que este estresse oxidativo decorre pelo menos em parte da ativação do complexo NADPH oxidase no contexto de uma adaptação à resposta celular integrada ao estresse. Estes dados indicam novas perspectivas no entendimento dos mecanismos envolvidos na fisiopatologia redox da neoíntima, podendo suscitar o desenho de intervenções terapêuticas racionais. / Formation of a neointimal layer is the hallmark of most vascular diseases, such as atherosclerosis and restenosis after angioplasty. Neointimal cells display an undifferentiated noncontractile smooth muscle phenotype with marked extracellular matrix secretion. Their origin can be multiple. Among factors that govern the (de)differentiation, proliferation and migration of neointimal cells, there is evidence for a key role of redox processes, but the underlying mechanisms are unclear. Advancing the knowledge about such redox mechanisms has been difficulted by the absence of a reproducible method of neointimal cell culture. The objectives of this work are: 1) To develop a model of neointimal cell culture, in which cells are harvested from rabbit iliac arteries 14 days after overdistention balloon injury. 2) To assess the redox status in such neointimal cells and the possible enzymatic source of reactive oxygen, with emphasis in the NAD(P)H oxidase complex. 3) To investigate the expression of endoplasmic reticulum stress markers and their corralation with redox status. 4) To investigate the effects of proapoptotic stimuli such as serum deprivation, endoplasmic reticulum stressors and particularly the exogenous administration of nitric oxide in viability and redox status of neointimal cells. Our results show that it is possible to harvest and cultivate neointimal cells after balloon injury. The neointimal cells in culture, even after several passages, exhibit increased indexes of oxidative stress. Oxidative stress in such cells is associated with increased activation of the vascular NAD(P)H oxidase complex. Contrarily to what was observed in healing arteries harvested from in vivo rabbits, markers of ER stress did not show any change when compared with primary smooth muscle cells kept in similar conditions. Oxidative stress response was increased after NADPH oxidase agonists; in particular, exposure to exogenous nitric oxide markedly increased superoxide radical production in neointimal cells. Cell viability curves showed increased sensitivity to ER stressors, NO donors and, particularly, exogenous oxidants. Therefore, the neointimal phenotype is a phenotype of intrinsic sustained oxidative stress even after several passages in culture. Such oxidative stress is due at least in part to activation of the NAD(P)H oxidase complex in the context of adaptation to an integrated stress response. This data provide new perspectives to understand redox mechanisms associated with neointimal pathophysiology and can lead to development of rational therapeutic interventions.
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Comparative numerical study of the intra-vessel flow characteristics between a flat and a cylindrical configuration in a stented wall regionDrapeau, Guy. January 2007 (has links)
Mechanical stresses and flow dynamics alteration in a stented artery region are known to stimulate intimal thickening and increase the risk of restenosis, the closure of a revascularized artery. Particle imaging velocimetry (PIV) is an optical flow visualization technique that can be used to characterize the local flow dynamics around different stent structures. However, the usual cylindrical stent geometries present visualization difficulties when using an optical measurement technique such as the PIV technique. Using a flat configuration of a stent model presents advantages over the usual cylindrical model. A planar stent model makes data acquisition easier in planes cutting through the model due to its flat geometry that is compatible with the PIV planar flow investigation technique. Furthermore, with the planar stent configuration model velocity measurements and their associated flow features can be done without inducing refraction of the laser light sheet occurring with the cylindrical model's curvature. The refraction of light should be avoided since measurement errors and reflections are the resulting effects of this laser light plane deviation when passing through the curvature of a cylindrical stent model. / The spatial and temporal distribution of the Wall Shear Stress (WSS), which is believed to be of primary importance in the development of restenosis should be comparable between the flat and the cylindrical stent configuration models. The velocity and shear strain rate distributions will be compared between the flat and cylindrical stent configurations using computational fluid dynamics (CFD) simulations in order to analyse the feasibility of using a flat instead of a cylindrical version of the stent model for PIV experiments. It will be shown that for a physiological pulsatile flow the flat model yields results in shear strain rate spatial and temporal distribution that is comparable to the cylindrical model. A more PIV compatible, efficient and less refractive error prone validated flat model would be advantageous when several stent designs influence on the local hemodynamics around the strut geometries have to be studied quantitatively and optimized.
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Mecanismos fisiopatológicos do desequilíbrio redox em células neointimais vasculares / Pathophysiological mechanisms of redox inbalance in neointimal vascular cellsKenya Thiesen 04 May 2007 (has links)
O crescimento de uma camada neoíntima é o marcador central do processo aterosclerótico, bem como do remodelamento vascular associado à reestenose após intervenções vasculares terapêuticas, tais como angioplastia ou colocação de stents. A célula neointimal é essencialmente uma célula com fenótipo muscular liso indiferenciado, cuja origem pode ser múltipla e com característica ação secretora de matriz extracelular. Dentre os fatores que coordenam a (des)diferenciação, proliferação e migração destas células, há evidências de que processos redox tenham papel preponderante, porém os mecanismos de tais processos não estão claros. A compreensão mais profunda de tais mecanismos redox tem sido dificultada pela falta de modelos de células neointimais cultivadas. Os objetivos específicos deste trabalho são: 1) Desenvolver um modelo de cultura de células neointimais de artéria ilíaca de coelho obtidas após lesão por catéter-balão. 2) Avaliar em tais células índices do estado redox e potenciais fontes enzimáticas de ERO, com ênfase no complexo NAD(P)H oxidase. 3)Avaliar marcadores de estresse do retículo endoplasmático e sua correlação com os índices do estado redox. 4) Estudar o efeito de estímulos proapoptóticos como deprivação de soro, estressores do RE e particularmente administração exógena de NO na viabilidade e estado redox de células neointimais. Os resultados obtidos demonstram que: é possível obter células neointimais em cultura de modo reproduzível e estável. Células provenientes da artéria lesada mantém um estado persistente de aumento do estresse oxidativo. O estresse oxidativo nessas células decorre de produção aumentada de radical superóxido e ativação do complexo da NADPH oxidase vascular. Diferentemente do observado em vasos lesados, os marcadores do estresse do reticulo endoplasmático não se apresentam alterados se comparados a células musculares lisas normais. Células neointimais têm resposta aumentada a agonistas da NADPH oxidase e estressores celulares. A exposição a óxido nitrico promove aumento da produção de superóxido, particularmente acentuado em células neointimais. As curvas de viabilidade celular indicam uma sensibilidade aumentada a estressores do RE, doadores de NO e particularmente a oxidantes exógenos. Em conjunto, estes resultados permitem concluir que o fenótipo neointimal é um fenótipo de estresse oxidativo acentuado e persistente, mesmo em condições de cultura celular, e que este estresse oxidativo decorre pelo menos em parte da ativação do complexo NADPH oxidase no contexto de uma adaptação à resposta celular integrada ao estresse. Estes dados indicam novas perspectivas no entendimento dos mecanismos envolvidos na fisiopatologia redox da neoíntima, podendo suscitar o desenho de intervenções terapêuticas racionais. / Formation of a neointimal layer is the hallmark of most vascular diseases, such as atherosclerosis and restenosis after angioplasty. Neointimal cells display an undifferentiated noncontractile smooth muscle phenotype with marked extracellular matrix secretion. Their origin can be multiple. Among factors that govern the (de)differentiation, proliferation and migration of neointimal cells, there is evidence for a key role of redox processes, but the underlying mechanisms are unclear. Advancing the knowledge about such redox mechanisms has been difficulted by the absence of a reproducible method of neointimal cell culture. The objectives of this work are: 1) To develop a model of neointimal cell culture, in which cells are harvested from rabbit iliac arteries 14 days after overdistention balloon injury. 2) To assess the redox status in such neointimal cells and the possible enzymatic source of reactive oxygen, with emphasis in the NAD(P)H oxidase complex. 3) To investigate the expression of endoplasmic reticulum stress markers and their corralation with redox status. 4) To investigate the effects of proapoptotic stimuli such as serum deprivation, endoplasmic reticulum stressors and particularly the exogenous administration of nitric oxide in viability and redox status of neointimal cells. Our results show that it is possible to harvest and cultivate neointimal cells after balloon injury. The neointimal cells in culture, even after several passages, exhibit increased indexes of oxidative stress. Oxidative stress in such cells is associated with increased activation of the vascular NAD(P)H oxidase complex. Contrarily to what was observed in healing arteries harvested from in vivo rabbits, markers of ER stress did not show any change when compared with primary smooth muscle cells kept in similar conditions. Oxidative stress response was increased after NADPH oxidase agonists; in particular, exposure to exogenous nitric oxide markedly increased superoxide radical production in neointimal cells. Cell viability curves showed increased sensitivity to ER stressors, NO donors and, particularly, exogenous oxidants. Therefore, the neointimal phenotype is a phenotype of intrinsic sustained oxidative stress even after several passages in culture. Such oxidative stress is due at least in part to activation of the NAD(P)H oxidase complex in the context of adaptation to an integrated stress response. This data provide new perspectives to understand redox mechanisms associated with neointimal pathophysiology and can lead to development of rational therapeutic interventions.
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Comparative numerical study of the intra-vessel flow characteristics between a flat and a cylindrical configuration in a stented wall regionDrapeau, Guy. January 2007 (has links)
No description available.
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Importância da interação entre a integrina Mac-1 leucócitos e a glicoproteína Ib alfa das plaquetas para o recrutamento de leucócitos pelas plaquetas e para a resposta inflamatória à lesão vascular / The importance of the leukocyte integrin Mac-1 and platelet glycoprotein Ib? interaction for the leukocyte recruitment by platelets and for the inflammatory response to vascular injuryZago, Alexandre do Canto 07 February 2007 (has links)
INTRODUÇÃO: A interação entre leucócitos e plaquetas é fundamental para o início e a progressão da reestenose e da aterosclerose. Recentemente foi evidenciado em estudos in vitro que a integrina Mac-1 dos leucócitos se liga à glicoproteína Ibalfa (GP Ibalfa) das plaquetas e que esta interação possui uma função central na firme adesão e transmigração de leucócitos em locais de deposição de plaquetas. Entretanto, não há estudos in vivo que avaliam a importância da interação entre a integrina Mac-1 dos leucócitos e a GP Ibalfa das plaquetas (alfaMbeta2-GP Ibalfa) em modelo experimental de lesão vascular. MÉTODO: Um peptídeo denominado M2 ou anticorpo anti-M2 foi desenvolvido para bloquear a interação da integrina Mac-1 dos leucócitos com a GP Ibalfa das plaquetas, visando, deste modo, inibir a adesão de leucócitos na superfície do vaso coberta por plaquetas, a proliferação celular e a hiperplasia neointimal. Este peptídeo foi injetado e comparado com anticorpo-controle em camundongos C57B1/6J submetidos à lesão vascular da artéria femoral com corda-guia. Um dia (controle: n= 6; anti-M2: n= 6), 5 dias (controle: n= 9; anti-M2: n= 9) ou 28 dias (controle: n= 9; anti-M2: n= 9) após a lesão vascular, as artérias femorais foram retiradas para a realização de morfometria e imunohistoquímica. RESULTADOS: O bloqueio da interação alfaMbeta2-GP Ibalfa promoveu redução estatisticamente significativa de 75% do número de leucócitos na camada média no primeiro dia após a lesão vascular (controle: 7,9 ± 5,0% do total de células na camada média; versus anti-M2: 2,0 ± 1,6%; p=0,021), bem como determinou diminuição estatisticamente significativa de 42% em 5 dias (controle: 42,3 ± 12,9% do total de células na neoíntima; versus anti-M2: 24,6 ± 10,8%; p=0,047) e de 58% em 28 dias do acúmulo de leucócitos na neoíntima em desenvolvimento (controle: 7,9 ± 3,0% versus anti-M2: 3,3 ± 1,3%; p=0,012). A proliferação celular na camada média do vaso em 5 dias pós-lesão vascular apresentou redução estatisticamente significativa de 64% com o bloqueio da interação alfaMbeta2-GP Ibalfa (controle: 5,0 ± 2,9% do total de células na camada média; versus anti-M2: 1,8 ± 0,5%; p=0,043), assim como houve diminuição significativa de 47% da proliferação celular na camada íntima do vaso em 28 dias (controle: 3,8 ± 1,7% do total de células na camada íntima; versus anti-M2: 2,0 ± 1,2%; p=0,047). O bloqueio da interação alfaMbeta2-GP Ibalfa também determinou redução estatisticamente significativa de 56% do espessamento intimal em 28 dias (controle: 10.395 ± 3.549um2; versus anti-M2: 4.561 ± 4.915um2; p=0,012). CONCLUSÕES: O recrutamento de leucócitos após a lesão vascular é dependente da interação alfaMbeta2-GP Ibalfa e a neutralização desta interação inibe a proliferação celular e a formação neointimal. / INTRODUCTION: The interaction between leukocytes and platelets is fundamental for the beginning and the progression of restenosis and atherosclerosis. Recent in vitro studies have shown that the leukocyte integrin Mac-1 binds to the platelet glycoprotein (GP) Ibalfa, and this interaction plays a central role in the leukocyte firm adhesion and transmigration at sites of platelet deposition. However, there is no in vivo study evaluating the importance of the integrin Mac-1 and GP Ibalfa (alfaMbeta2-GP Ibalfa) interaction in experimental models of vascular injury. METHODS: A peptide termed M2 or anti-M2 antibody was developed to block the leukocyte Mac-1 and platelet GP Ibalfa interaction, aiming to inhibit the adhesion of leukocytes to the platelet-coated surface of vessels as well as the cellular proliferation and the neointimal hyperplasia. The peptide was injected and compared with a control-antibody in C57B1/6J mice subjected to wire-induced femoral artery injury. One day (control: n= 6; anti-M2: n= 6), 5 days (control: n= 9; anti-M2: n= 9) or 28 days (control: n= 9; anti-M2: n= 9) after vascular injury, the femoral arteries were harvested for morphometry and immunohistochemistry. RESULTS: The alfaMbeta2-GP Ibalfa interaction blockade promoted a statistically significant 75% reduction in leukocytes in the medial layer on the first day after vascular injury (control: 7.9 ± 5.0% out of the total cells in the medial layer versus anti-M2: 2.0 ± 1.6%; p=0.021), as well as determined a statistically significant 42% decrease 5 days later (control: 42.3 ± 12.9% out of the total cells in the neointima versus anti-M2: 24.6 ± 10.8%; p=0.047), and a 58% decrease in leukocyte accumulation in the developing neointima 28 days later (control: 7.9 ± 3.0% versus anti-M2: 3.3 ± 1.3%; p=0.012). The cellular proliferation in the vessel medial layer 5 days after vascular injury presented a statistically significant 64% reduction by the alfaMbeta2-GP Ibalfa interaction blockade (control: 5.0 ± 2.9% out of the total cells in the medial layer versus anti-M2: 1.8 ± 0.5%; p=0.043), and there was also a significant 47% decrease in the vessel intimal layer cellular proliferation 28 days later (control: 3.8 ± 1.7% out of the total cells in the intimal layer versus anti-M2: 2.0 ± 1.2%; p=0.047). Furthermore, the alfaMbeta2-GP Ibalfa interaction blockade determined a statistically significant 56% reduction in the intimal thickening 28 days after vascular injury (control: 10,395 ± 3,549um2 versus anti-M2: 4,561 ± 4,915um2; p=0.012). CONCLUSIONS: The leukocyte recruitment after vascular injury depends on the alfaMbeta2-GP Ibalfa interaction, and its neutralization inhibits cellular proliferation and neointimal formation.
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Importância da interação entre a integrina Mac-1 leucócitos e a glicoproteína Ib alfa das plaquetas para o recrutamento de leucócitos pelas plaquetas e para a resposta inflamatória à lesão vascular / The importance of the leukocyte integrin Mac-1 and platelet glycoprotein Ib? interaction for the leukocyte recruitment by platelets and for the inflammatory response to vascular injuryAlexandre do Canto Zago 07 February 2007 (has links)
INTRODUÇÃO: A interação entre leucócitos e plaquetas é fundamental para o início e a progressão da reestenose e da aterosclerose. Recentemente foi evidenciado em estudos in vitro que a integrina Mac-1 dos leucócitos se liga à glicoproteína Ibalfa (GP Ibalfa) das plaquetas e que esta interação possui uma função central na firme adesão e transmigração de leucócitos em locais de deposição de plaquetas. Entretanto, não há estudos in vivo que avaliam a importância da interação entre a integrina Mac-1 dos leucócitos e a GP Ibalfa das plaquetas (alfaMbeta2-GP Ibalfa) em modelo experimental de lesão vascular. MÉTODO: Um peptídeo denominado M2 ou anticorpo anti-M2 foi desenvolvido para bloquear a interação da integrina Mac-1 dos leucócitos com a GP Ibalfa das plaquetas, visando, deste modo, inibir a adesão de leucócitos na superfície do vaso coberta por plaquetas, a proliferação celular e a hiperplasia neointimal. Este peptídeo foi injetado e comparado com anticorpo-controle em camundongos C57B1/6J submetidos à lesão vascular da artéria femoral com corda-guia. Um dia (controle: n= 6; anti-M2: n= 6), 5 dias (controle: n= 9; anti-M2: n= 9) ou 28 dias (controle: n= 9; anti-M2: n= 9) após a lesão vascular, as artérias femorais foram retiradas para a realização de morfometria e imunohistoquímica. RESULTADOS: O bloqueio da interação alfaMbeta2-GP Ibalfa promoveu redução estatisticamente significativa de 75% do número de leucócitos na camada média no primeiro dia após a lesão vascular (controle: 7,9 ± 5,0% do total de células na camada média; versus anti-M2: 2,0 ± 1,6%; p=0,021), bem como determinou diminuição estatisticamente significativa de 42% em 5 dias (controle: 42,3 ± 12,9% do total de células na neoíntima; versus anti-M2: 24,6 ± 10,8%; p=0,047) e de 58% em 28 dias do acúmulo de leucócitos na neoíntima em desenvolvimento (controle: 7,9 ± 3,0% versus anti-M2: 3,3 ± 1,3%; p=0,012). A proliferação celular na camada média do vaso em 5 dias pós-lesão vascular apresentou redução estatisticamente significativa de 64% com o bloqueio da interação alfaMbeta2-GP Ibalfa (controle: 5,0 ± 2,9% do total de células na camada média; versus anti-M2: 1,8 ± 0,5%; p=0,043), assim como houve diminuição significativa de 47% da proliferação celular na camada íntima do vaso em 28 dias (controle: 3,8 ± 1,7% do total de células na camada íntima; versus anti-M2: 2,0 ± 1,2%; p=0,047). O bloqueio da interação alfaMbeta2-GP Ibalfa também determinou redução estatisticamente significativa de 56% do espessamento intimal em 28 dias (controle: 10.395 ± 3.549um2; versus anti-M2: 4.561 ± 4.915um2; p=0,012). CONCLUSÕES: O recrutamento de leucócitos após a lesão vascular é dependente da interação alfaMbeta2-GP Ibalfa e a neutralização desta interação inibe a proliferação celular e a formação neointimal. / INTRODUCTION: The interaction between leukocytes and platelets is fundamental for the beginning and the progression of restenosis and atherosclerosis. Recent in vitro studies have shown that the leukocyte integrin Mac-1 binds to the platelet glycoprotein (GP) Ibalfa, and this interaction plays a central role in the leukocyte firm adhesion and transmigration at sites of platelet deposition. However, there is no in vivo study evaluating the importance of the integrin Mac-1 and GP Ibalfa (alfaMbeta2-GP Ibalfa) interaction in experimental models of vascular injury. METHODS: A peptide termed M2 or anti-M2 antibody was developed to block the leukocyte Mac-1 and platelet GP Ibalfa interaction, aiming to inhibit the adhesion of leukocytes to the platelet-coated surface of vessels as well as the cellular proliferation and the neointimal hyperplasia. The peptide was injected and compared with a control-antibody in C57B1/6J mice subjected to wire-induced femoral artery injury. One day (control: n= 6; anti-M2: n= 6), 5 days (control: n= 9; anti-M2: n= 9) or 28 days (control: n= 9; anti-M2: n= 9) after vascular injury, the femoral arteries were harvested for morphometry and immunohistochemistry. RESULTS: The alfaMbeta2-GP Ibalfa interaction blockade promoted a statistically significant 75% reduction in leukocytes in the medial layer on the first day after vascular injury (control: 7.9 ± 5.0% out of the total cells in the medial layer versus anti-M2: 2.0 ± 1.6%; p=0.021), as well as determined a statistically significant 42% decrease 5 days later (control: 42.3 ± 12.9% out of the total cells in the neointima versus anti-M2: 24.6 ± 10.8%; p=0.047), and a 58% decrease in leukocyte accumulation in the developing neointima 28 days later (control: 7.9 ± 3.0% versus anti-M2: 3.3 ± 1.3%; p=0.012). The cellular proliferation in the vessel medial layer 5 days after vascular injury presented a statistically significant 64% reduction by the alfaMbeta2-GP Ibalfa interaction blockade (control: 5.0 ± 2.9% out of the total cells in the medial layer versus anti-M2: 1.8 ± 0.5%; p=0.043), and there was also a significant 47% decrease in the vessel intimal layer cellular proliferation 28 days later (control: 3.8 ± 1.7% out of the total cells in the intimal layer versus anti-M2: 2.0 ± 1.2%; p=0.047). Furthermore, the alfaMbeta2-GP Ibalfa interaction blockade determined a statistically significant 56% reduction in the intimal thickening 28 days after vascular injury (control: 10,395 ± 3,549um2 versus anti-M2: 4,561 ± 4,915um2; p=0.012). CONCLUSIONS: The leukocyte recruitment after vascular injury depends on the alfaMbeta2-GP Ibalfa interaction, and its neutralization inhibits cellular proliferation and neointimal formation.
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