Resumo
Disturbance of commensal intestinal microbiota is related to chronic inflammatory dermatosis. We analyzed the diversity of the gut microbiota to characterize the biological variation of psoriasis (Ps). Significant differences of gut microbiome profiles were revealed in murine model with psoriasis by sequencing 16S rRNA V3-V4 variable region. Group comparisons included the imiquimod cream (IMQ group, n=8), the imiquimod cream and antibiotics (ATB) (PC+IMQ group, n=8) and the healthy control (CTRL group, n=8). The gut microbiota existed in Ps groups including IMQ group and PC+IMQ group encompassed less diversity than controls, which were attributed to decreased presence of several taxa. The two Ps groups were characterized by significant reduction in firmicutes. In this study, microbiota of psoriasis was defined by an increase presence of Bacteroides. After treated with ATB, we found substantial increase of Lactobacillales but significant decrease of Clostridiales and Coriobacteriales. Relative lower abundance of multiple intestinal bacteria was observed in Ps groups. Although part of genera were concomitantly reduced in both IMQ and PC+IMQ conditions, we discovered the specialty of PC+IMQ group samples was that contained lower abundance of beneficial taxa. Characteristics of gut microbiota profiles in Ps mice were comparable to profiles in patients with Ps, which were related to alteration of specific inflammatory proteins in disease groups but were significantly different from control group. Thus, this study emphasizes the role of intestinal microbiota in the pathogenesis of Ps and provides new insight for investigating association between intestinal microbes and immune inflammation.
A perturbação da microbiota intestinal comensal está relacionada à dermatose inflamatória crônica. Analisamos a diversidade da microbiota intestinal para caracterizar a variação biológica da psoríase (Ps). Diferenças significativas do perfil microbiológico intestinal foram reveladas no modelo murino com psoríase pelo sequenciamento da região variável 16S rRNA V3-V4. As comparações de grupo incluíram o creme imiquimod (grupo IMQ, n=8), o creme imiquimod e antibióticos (ATB) (grupo PC+IMQ, n=8) e o controle saudável (grupo CTRL, n=8). A microbiota intestinal existia nos grupos Ps, incluindo o grupo IMQ e o grupo PC+IMQ englobava menos diversidade do que os controles, que foram atribuídos à diminuição da presença de vários taxa. Os dois grupos de Ps caracterizavam-se por uma redução significativa nos firicutes. Neste estudo, a microbiota da psoríase foi definida por um aumento da presença de bacteroides. Após o tratamento com ATB, encontramos um aumento substancial de Lactobacillales mas uma diminuição significativa de Clostridiales e Coriobacteriales. Uma menor abundância relativa de bactérias intestinais múltiplas foi observada nos grupos de Ps. Embora parte dos gêneros tenha sido concomitantemente reduzida tanto em condições IMQ como PC+IMQ, descobrimos que a especialidade das amostras do grupo PC+IMQ era que continham menor abundância de taxas benéficas. As características dos perfis de microbiota intestinal em ratos de Ps eram comparáveis aos perfis em pacientes com Ps, que estavam relacionados à alteração de proteínas inflamatórias específicas em grupos de doenças, mas eram significativamente diferentes do grupo controle. Assim, este estudo enfatiza o papel da microbiota intestinal na patogênese do Ps e fornece novos conhecimentos para investigar a associação entre micróbios intestinais e inflamação imunológica.
Assuntos
Animais , Psoríase/complicações , Dermatite/veterinária , Microbioma Gastrointestinal , Muridae/microbiologiaResumo
PURPOSE:To investigate the role of bradykinin in a rat lung transplantation (LTx) model and preliminarily discuss the relationship between bradykinin and CD26/DPP-4.METHODS:Rats were randomly divided into four groups: Control (CON), Sham, low potassium dextranglucose (LPD), and AB192 (n=15/group). Orthotopic single LTx was performed in the LPD and AB192 groups. The donor lungs were flush-perfused and preserved with low potassium dextranglucose (LPD) or LPD+CD26/DPP-4 catalytic inhibitor (AB192). LTx was performed after 18 h cold ischemia time and harvested two days post-LTx. Blood gas analysis (PO2), wet/dry weight ratio (W/D), myeloperoxidase activity (MPO), and lipid peroxidation (MDA) were analyzed at 48 hr after transplantation. Immunohistochemical (IHC) analysis was performed in the same sample and validated by Western-Blot.RESULTS:Compared to the LPD group, the AB192 group showed higher PO2, lower W/D ratio, and decreased MPO and MDA. IHC studies showed strong bradykinin β2 receptor (B2R) staining in the LPD group, especially in inflammatory cells, alveolar macrophages, and respiratory epithelial cells. Expression of B2R by Western-Blot was significantly different between the AB192 and LPD groups.CONCLUSION:Bradykinin may be a competitive substrate of DPP-4, and decreased bradykinin levels may enhance protective effects against ischemia/reperfusion injury during LTx.(AU)