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Ischemia-reperfusion (I / R) is a complex hemodynamic process that can cause tissue damage through oxidative stress, mitochondrial dysfunction, and inflammatory reactions. It is an important factor leading to poor prognosis in patients, and the exploration of effective prevention and treatment measures is of significant clinical significance. As an endogenous hormone with strong antioxidant and anti-inflammatory properties, Melatonin plays an important role in reducing cell death and improving tissue I / R injury. Therefore, this article reviews the relationship between Melatonin and organ I/R injury in order to provide a theoretical basis for the clinical application of melatonin to alleviate organ I/R injury.
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Pyroptosis is a newly discovered programmed cell death that can lead to inflammatory response, its occurrence depends on the sequential activation of inflammatory bodies and caspase, and then the pore-forming generated by the fragmentation of gasdermin D and its cell membrane polymerization. Pyroptosis is mainly comprised of the pathway that depends on caspase-1 activated by flammasomes and the non-classical pathway that depends on caspase-4/5/11 activated by cytoplasmic lipopolysaccharide. As an important mechanism mediating the inflammatory response of the body, pyroptosis plays an irreplaceable role in the body's response to noxious stimuli, which is closely related to many diseases such as nervous system diseases, cardiovascular system diseases and tumors. Recent studies have found that pyroptosis also plays a key role in the occurrence of intestinal ischemia-reperfusion (II/RI). This paper reviews the molecular characteristics, mechanism of pyroptosis and its relationship with II/RI in recent years, in order to provide theoretical basis for the prevention and treatment of II/RI.
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Objective To investigate the therapeutic effects and mechanism of anti-radiation pneumonia decoction(ARPD) on radiation induced lung fibrosis in rats.Methods One hundred and five male SD rats in a SPF grade were divided into Chinese medicine group,single radiation group and control group by random digits table method,with 35 in each group.After anesthetization,rats in Chinese medicine and single radiation groups were exposed to 6 MV X-rays at the dose of 15Gy.Rats in Chinese medicine group were treated with ARPD at the dosage of 10 ml·kg-1 ·d-1 once a day,but rats in single radiation group did not receive ARPD treatment.Rats in control group were treated with neither irradiation nor drugs.Five rats of each group were killed and the lung tissues and blood samples were collected at 15,30,60,75,90,105 and 140 d.The pathological changes of lung tissues were observed and the tissue protein and gene expressions of TGF-β1,PAI-1 and collagen type Ⅲ(C Ⅲ) were assayed by Western blot and RT-PCR.ELISA was used to detect serum TGF-β1 and plasma PAI-1.Tissue and serum HYP were determined by acid hydrolysis and alkaline hydrolysis methods respectively.Results Inflammation was found in the lung tissues of all the exposed rats.Obvious pathological lung fibrosis was found at 60 d,the inflammation and the fibrosis in treated group were slighter than those in single radiation group.In Chinese medicine group,the protein and gene expression levels of TGF-β1,PAI-1,C Ⅲ 30 d(Protein:t =2.49-3.74,t =2.63-4.57 and t =2.76-3.83;Gene:t =2.59-4.33,t =2.83-4.62 and t =2.83-3.96,P<0.05),serum TGF-β1 and plasma PAI-1 15 dlater (t =2.85-6.27 and t =3.69-5.27,P<0.05),and the levels of tissue and serum HYP60 dlater (t=3.65-4.40 and t =6.56-3.75,P<0.05),all of them were lower than those in single radiation groups.There were significant positive correlations between tissue TGF-β1 and PAI-1 as well as C Ⅲ (Protein expression:r =0.604,0.759,P <0.05;Gene expression:r=0.519,0.816,P<0.05).Conclusions ARPD may inhibit the pulmonary fibrosis by decreasing the levels of TGF-β1,PAI-1 and C Ⅲ.