Paula Peixoto Campos scite author profile

Inflammation and angiogenesis are key components of fibrovascular tissue growth, a biological event underlying both physiological (wound healing) and pathological conditions (tumor development, chronic inflammation). We investigated these components in three frequently used mouse strains (Swiss, Balb/c and C57BL/6J) to verify the influence of genetic background on the kinetics of inflammatory cell recruitment/activation, neovascularization, extracellular matrix deposition, and cytokine production in polyether-polyurethane sponge implanted subcutaneously in male mice of these strains. The kinetics of neutrophil recruitment/activation as assessed by myeloperoxidase (MPO) activity was 2- and 3-fold higher in Balb/c implants at day 1 compared with Swiss and C57BL/6J implants, respectively. Macrophage accumulation/activation as NAG (n-acetyl β-glucosaminidase) activity was higher in Swiss implants. The levels the monocyte chemoattractant protein 1 (CCL2(MCP-1)) peaked at day 10 in the three types of implants but was produced more by C57BL/6J mice. Angiogenesis (hemoglobin, vascular endothelial growth factor-VEGF, and number of vessels) differed among the strains. Swiss implants had the highest hemoglobin content but the lowest VEGF levels. In contrast, Balb/c implants had higher VEGF levels but lower hemoglobin. Collagen deposition and transforming growth factor β-1; TGFβ-1 levels also varied among the groups. Swiss and Balb/c implants had progressive increase in TGFβ-1 from 4 to 14 days, while C57BL/6J implants achieved the peak at day 10 and fell at day 14. These findings emphasize the major contribution of genetic background in the temporal pattern and intensity of inflammatory angiogenesis components that may have functional consequences in physiological and pathological conditions where these processes co-exist.

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Cilostazol and pentoxifylline decrease angiogenesis, inflammation, and fibrosis in sponge-induced intraperitoneal adhesion in mice

Mendes

Campos

Rocha

et al. 2009

Life Sciences

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Host response to sponge implants differs between subcutaneous and intraperitoneal sites in mice

et al. 2007

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Synthetic matrices have been used widely to repair and/or to replace biological tissues. However, there is relatively little information on the effect of different anatomical compartments on the host response to foreign implants. We have analyzed such responses to sponge implants in subcutaneous and in intraperitoneal sites in mice at days 3, 5, and 8 postimplantation by measuring inflammation, angiogenesis, and production of proangiogenic/inflammatory cytokines. The angiogenic response, assessed by hemoglobin content and by morphometric analysis of the number of vessels, was higher in intraperitoneal implants. Levels of vascular endothelial growth factor in intraperitoneal implants were 14-fold higher than in subcutaneous implants at day 3 and remained high for the next 5 days. Neutrophil accumulation as determined by myeloperoxidase activity was the same in both types of implants. Macrophage accumulation (N-acetylglucosaminidase activity) was also similar on days 3 and 8 in both implants. Levels of the chemokine CXCL2/KC were always higher, but those of CCL2/JE lower, in the intraperitoneal implant. These results demonstrate that the anatomical site of the implant markedly influenced the host response to synthetic matrices. Our results provide a greater understanding of factors affecting the biocompatibility of exogenous materials placed at different anatomical sites.

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Novel insights into the development of chagasic cardiomyopathy: Role of PI3Kinase/NO axis

Roman‐Campos

Sales-Junior

Duarte

et al. 2013

International Journal of Cardiology

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