Participation of the Immune System and Hedgehog Signaling in Neoangiogenesis Under Laser Photobiomodulation.

Introduction: This study aimed to characterize immune and endothelial cells, myofibroblasts and pericytes, and positive cells for hedgehog proteins in late tissue repair of rats skin wounds treated with 670 nm photobiomodulation therapy (PBMT). Methods: A blind experimental study was conducted, in order to assess the effect of PBMT in later stages of healing, with emphasis on neoangiogenesis, immune cells and Hedgehog signaling. Forty Wistar rats were allocated randomly in two groups; control and treated with a diode GaAlAs laser (9 mW, 670 nm, 0.031 W/cm2, spot size of 0.28 cm2, fluence of 4 J/ cm2 applied every other day, until a total dose of 16 J/cm2 was achieved). Standardized skin wounds were performed and the animals were euthanized at 14, 21, 28 and 35 days. Tissue sections were subjected to hematoxylin-eosin and immunohistochemistry for CD31, NG2, smooth muscle alpha actin, CD8, CD68, Ptch, Gli-2 and Ihh. All histomorphometric data were statistically analyzed and significance level was at P<0.05. Results: At late stages of wound healing, neoangiogenesis persisted as revealed for the number of CD31+ cells (P = 0.016) and NG2+ and smooth muscle alpha actin positive pericytes (P = 0.025), for both experimental groups. By day 21, laser-treated group had decreased CD68+ cells (P = 0.032) and increased CD8+ (P = 0.038). At remodeling stage, there were positive cells for the hedgehog signaling pathway family which seemed to be activated. Conclusion: These data suggest that photobiomodulation therapy was able to modulate extracellular matrix remodelling even at the later stages of wound healing.

Osteopontin Is Upregulated in Human and Murine Acute Schistosomiasis Mansoni.

BACKGROUND: Symptomatic acute schistosomiasis mansoni is a systemic hypersensitivity reaction against the migrating schistosomula and mature eggs after a primary infection. The mechanisms involved in the pathogenesis of acute schistosomiasis are not fully elucidated. Osteopontin has been implicated in granulomatous reactions and in acute hepatic injury. Our aims were to evaluate if osteopontin plays a role in acute Schistosoma mansoni infection in both human and experimentally infected mice and if circulating OPN levels could be a novel biomarker of this infection. METHODOLOGY/PRINCIPAL FINDINGS: Serum/plasma osteopontin levels were measured by ELISA in patients with acute (n = 28), hepatointestinal (n = 26), hepatosplenic (n = 39) schistosomiasis and in uninfected controls (n = 21). Liver osteopontin was assessed by immunohistochemistry in needle biopsies of 5 patients. Sera and hepatic osteopontin were quantified in the murine model of schistosomiasis mansoni during acute (7 and 8 weeks post infection, n = 10) and chronic (30 weeks post infection, n = 8) phase. Circulating osteopontin levels are increased in patients with acute schistosomiasis (p = 0.0001). The highest levels of OPN were observed during the peak of clinical symptoms (7-11 weeks post infection), returning to baseline level once the granulomas were modulated (>12 weeks post infection). The plasma levels in acute schistosomiasis were even higher than in hepatosplenic patients. The murine model mirrored the human disease. Macrophages were the major source of OPN in human and murine acute schistosomiasis, while the ductular reaction maintains OPN production in hepatosplenic disease. Soluble egg antigens from S. mansoni induced OPN expression in primary human kupffer cells. CONCLUSIONS/SIGNIFICANCE: S. mansoni egg antigens induce the production of OPN by macrophages in the necrotic-exudative granulomas characteristic of acute schistosomiasis mansoni. Circulating OPN levels are upregulated in human and murine acute schistosomiasis and could be a non-invasive biomarker of this form of disease.

Schistosoma mansoni: avaliação da fibrose hepática em camundongos submetidos quimioterapia e reinfectados / Schistosoma mansoni: assessment of hepatic fibrosis in mice undergoing chemotherapy and reinfected

A esquistossomose mansônica é uma doença parasitária tropical. Causadas por helmintos do gênero Schistosoma. Com a intenção de conter a doença, diversos institutos e organizações vêm desenvolvendo medidas de controle para tratar indivíduos infectados e evitar a ocorrência de novas infecções. Estratégias de administração de medicamentos em massa são eficazes na cura da doença, entretanto o tratamento com drogas anti-helmínticas não previnem a possibilidade da ocorrência de reinfecções. Diante desta questão, neste trabalho propusemo-nos a analisar a cinética da fibrose hepática em camundongos esquistossomóticos tratados e submetidos à reinfecção. Para alcançar este objetivo, 70 camundongos Swiss foram infectados com 50 cercárias de S.mansoni, posteriormente tratados com Oxamniquine ou Praziquantel e reinfectados quatro meses após tratamento. Os fígados destes animais foram submetidos a técnicas de imunohistoquímica e imunofluorescência e microscopia eletrônica de transmissão para avaliação da expressão e participação de componentes envolvidos no processo fibrogênico. Para verificar os índices de colágeno entre os grupos utilizou-se a análise morfométrica. A análise histológica revelou que camundongos esquistossomóticos submetidos à quimioterapia específica desenvolveram altos índices de fibrose durante a reinfecção. A imunomarcação para alfa actina de músculo liso (α-SMA) revelou que grande parte do parênquima hepático dos animais tratados e reinfectados exibiam células com perfil miofibloblástico. A imunofluorescência demonstrou que o padrão de marcação para laminina estava alterado em animais com esquistossomose. A análise morfométrica revelou que reinfecção destes animais ocasionou uma intensa deposição de fibras colágenas no parênquima hepático. Os dados obtidos demonstraram que a reinfecção em animais previamente tratados, foi capaz de induzir uma resposta fibrótica semelhante a encontrada nos animais com infecção primária.

On the presence of hepatic stellate cells in portal spaces.

Previous studies in mice with hypervitaminosis A have demonstrated that fat-storing cells (hepatic stellate cells-HSCs) participate in schistosomal granuloma fibrogenesis. The origin of such cells in portal areas, away from the Disse spaces, was herein investigated. HSCs were identified in frozen sections of the liver by means of Sudan III staining. They appeared as red-stained cells disposed along the sinusoids of normal mice, but were never found within portal spaces. However, in the chronically inflamed portal spaces of Capillaria hepatica-infected mice, Sudan III-positive cells were frequently present among leukocytes and fibroblast-like cells. Thus, there are no resident HSCs in portal spaces, but their presence there in chronic inflammatory processes indicates that they are able to migrate from peri-sinusoidal areas in order to reach the portal areas.

On the presence of hepatic stellate cells in portal spaces

Previous studies in mice with hypervitaminosis A have demonstrated that fat-storing cells (hepatic stellate cells-HSCs) participate in schistosomal granuloma fibrogenesis. The origin of such cells in portal areas, away from the Disse spaces, was herein investigated. HSCs were identified in frozen sections of the liver by means of Sudan III staining. They appeared as red-stained cells disposed along the sinusoids of normal mice, but were never found within portal spaces. However, in the chronically inflamed portal spaces of Capillaria hepatica-infected mice, Sudan III-positive cells were frequently present among leukocytes and fibroblast-like cells. Thus, there are no resident HSCs in portal spaces, but their presence there in chronic inflammatory processes indicates that they are able to migrate from peri-sinusoidal areas in order to reach the portal areas.