It has been widely recognized that inflammation, particularly chronic inflammation, can increase the risk of cancer and that the simultaneous treatment of inflammation and cancer may produce excellent therapeutic effects. Berberine, an alkaloid isolated from Rhizoma coptidis, has broad applications, particularly as an antibacterial agent in the clinic with a long history. Over the past decade, many reports have demonstrated that this natural product and its derivatives have high activity against both cancer and inflammation. In this review, we summarize the advances in studing berberine and its derivatives as anti-inflammatory and anti-tumor agents in the digestive system; we also discuss their structure-activity relationship. These data should be useful for the development of this natural product as novel anticancer drugs with anti-inflammation activity.
The mechanisms whereby hepatic fibrosis develops in chronic liver diseases remain incompletely defined. Here, we sought to examine whether microRNA (miRNA) became dysregulated in dimethylnitrosamine‐induced hepatic fibrosis in rats. Our microarray analysis revealed that the miR‐34 family was upregulated along with other miRNAs in liver fibrotic tissues. Six miRNAs, such as rno‐miR‐878, were downregulated. The findings were confirmed by RT‐PCR assays. Gene ontology analysis further showed that many of these dysregulated miRNAs were involved in lipid/fatty acid metabolism. The acyl‐CoA synthetase long‐chain family member 1 (ACSL1) gene contained specific binding sites for miR‐34a/miR‐34c. Additional enhanced green fluorescence protein reporter activity assays indicated that the miR‐34 family targeted ACSL1. Our RT‐PCR and immunoblotting assays further demonstrated that both the mRNA and protein levels of ACSL1 were markedly reduced in fibrotic liver tissues. Our findings suggest that miRNA becomes dysregulated during hepatic fibrosis, and that the miR‐34 family may be involved in the process by targeting ACSL1.
Interleukin-35 (IL-35), a member of the IL-12 family, functions as a new anti-inflammatory factor involved in arthritis, psoriasis, inflammatory bowel disease (IBD) and other immune diseases. Although IL-35 can significantly prevent the development of inflammation in many diseases, there have been no early studies accounting for the role of IL-35 recombinant protein in IBD and psoriasis. In this study, we assessed the therapeutic potential of IL-35 recombinant protein in three well-known mouse models: the dextransulfate sodium ( Further analysis demonstrated that IL-35 recombinant protein may regulate inflammation through promoting the secretion of IL-10 and inhibiting the expression of pro-inflammatory cytokines such as IL-6, TNF-a and IL-17 in acute colitis model. In addition, lower dose of IL-35 recombinant protein could achieve long-term treatment effects as TNF-a monoclonal antibody did in the psoriasis mouse. In summary, the remarkable therapeutic effects of IL-35 recombinant protein in acute colitis and psoriasis mouse models indicated that IL-35 recombinant protein had a variety of anti-inflammatory effects and was expected to become an effective candidate drug for the treatment of inflammatory diseases.
Over-activation of the local chymase-angiotensin II (Ang II) system has a dominant role in diabetic cardiomyopathy. Astragalus polysaccharides (APS) are used in traditional Chinese medicine to boost immunity. In this study, we investigated the effects of APS treatment on cardiac function, myocardial collagen expression, cardiac ultrastructure, cardiac matrix metalloproteinase (MMP) activity, levels of plasma glycosylated serum protein (GSP), and myocardial enzymes, and the expression of Ang II, chymase, and angiotensin-converting enzyme (ACE) in the diabetic hamster myocardium. Diabetes was induced by a single injection of streptozotocin (60 mg/kg ip). The experimental groups consisted of normal control (n = 15), diabetic (n = 15), insulin-treated diabetic (n = 15, NPH 1-2 U/day ip), and APS-treated diabetic (n = 30, APS 1-2 g/kg/day orally for 10 weeks) hamsters. Diabetic hamsters treated with insulin or APS exhibited significantly decreased blood glucose, plasma GSP, and myocardial enzymes, as well as improvements in cardiac function and cardiac ultrastructure. Compared with insulin treatment, APS treatment significantly reduced myocardial collagen (type I and III) expression and lowered cardiac MMP-2 activity, myocardial Ang II levels, myocardial chymase expression, and p-ERK1/2 kinase expression. In diabetic hamsters, myocardial ACE expression and plasma Ang II levels was not altered by insulin or APS treatment. These results indicate that treatment of diabetic hamsters with APS inhibited the local chymase-Ang II system and improved markers of diabetic cardiomyopathy.
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