Progress in the mechanism of stem cell derived extracellular vesicles in treatment of early onset ovarian insufficiency / 解放军医学杂志

Premature ovarian insufficient(POI)is one of the important causes of infertility in woman of reproductive age.At present,the clinical treatment of POI is limited and the therapeutic effect is not ideal.Extracellular vesicles derived from stem cells have attracted the attention of many researchers at home and abroad as a new cell-free therapy.Many animal experiment study shows that a variety of extracellular vesicles from stem cells carry microRNAs,lncRNAs,lipids,proteins,and other bioactive substances,improve ovarian function,affect granulosa cell proliferation and apoptosis,promote ovarian angiogenesis,and reduce oxidative stress response,thus playing a therapeutic role on POI.This article will review the mechanisms of extracellular vesicles in treatment of POI,and provide evidence for the application of extracellular vesicles in clinical treatment of POI.

Serum N-terminal DDR1: A Novel Diagnostic Marker of Liver Fibrosis Severity.

BACKGROUND AND AIMS: The expression of discoidin domain receptor 1 (DDR1) is commonly up-regulated and undergoes collagen-induced ectodomain (N-terminal) shedding during the progression of liver fibrosis. This study aimed to evaluate the clinical utility of N-terminal DDR1 as a diagnostic biomarker for liver fibrosis. METHODS: N-terminal DDR1 shedding was evaluated using cell lines, liver fibrosis mouse models, clinical data of 298 patients collected from February 2019 to June 2020. The clinical data were divided into test and validation cohorts to evaluate the diagnostic performance of serum N-terminal DDR1. RESULTS: Time- and dosage-dependent N-terminal DDR1 shedding stimulated by collagen I was observed in a hepatocyte cell line model. The type I collagen deposition and serum N-terminal DDR1 levels concurrently increased in the development of liver fibrosis in mouse models. Clinical data demonstrated a significant diagnostic power of serum N-terminal DDR1 levels as an accurate biomarker of liver fibrosis and cirrhosis. The diagnostic performance was further increased when applying N-DDR1/albumin ratio, achieving area under the curve of 0.790, 0.802, 0.879, and 0.865 for detecting histological fibrosis stages F ≥2, F ≥3, F 4 with liver biopsy as a reference method, and cirrhosis according to imaging techniques, respectively. With a cut-off of 55.6, a sensitivity, specificity, positive predictive value, and negative predictive value of 82.7%,76.6%, 67.4%, and 88.3% were achieved for the detection of cirrhosis. CONCLUSIONS: Serum N-terminal DDR1 appears to be a novel diagnostic marker for liver fibrosis.

Poly[[tetra-aqua-µ(4)-fumarato-di-µ(3)-fumarato-dineodymium(III)] trihydrate].

The title coordination polymer, {[Nd(2)(C(4)H(2)O(4))(3)(H(2)O)(4)]·3H(2)O}, was synthesized by the reaction of neodymium(III) nitrate hexa-hydrate with fumaric acid in a water-methanol (7:3) solution. The asymmetric unit comprises two Nd(3+) cations, three fumarate dianions (L(2-)), four aqua ligands and three uncoordinated water mol-ecules. The carboxyl-ate groups of the fumarate dianions exhibit different coordination modes. In one fumarate dianion, two carboxyl-ate groups chelate two Nd(3+) cations, while one of the O atoms is coordinated to another Nd(3+) cation. Another fumarate dianion bridges three Nd(3+) cations: one of the carboxyl-ate groups chelates one Nd(3+) cation, while the other carboxyl-ate group bridges two Nd(3+) cations in a monodentate mode. The third fumarate dianion bridges four Nd(3+) cations, where one of the carboxyl-ate groups chelates one Nd(3+) cation and coordinates in a monodentate mode to a second Nd(3+), while the second carboxyl-ate groups bridges two Nd(3+) cations in a monodentate mode and one O atom is coordinated to one Nd(3+) cation. The Nd(3+) cations are in a distorted tricapped-trigonal prismatic environment and coordinated by seven O atoms from the fumarate ligands and two O atoms from water mol-ecules. The Nd(3+) cations are linked by two carboxyl-ate O atoms and two carboxyl-ate groups, generating infinite Nd-O chains to form a three-dimensional framework. There are O-H⋯O and C-H⋯O hydrogen-bonding interactions between the coordin-ated and uncoordinated water mol-ecules and carboxyl-ate O atoms.

Extermination of Algae in Water Used for Landscape / 环境与健康杂志

Objective To assess the efficiency of algae extermination by the combined copper electrolysis technology. Methods The combined copper electrolysis technology and copper sulphate were used to treat the Synechocystissp strain PCC6803 in the steady stage of culture in different time and the efficiency of algae extermination was assessed. Results No alga in the water sample was detected after 0.5 and 1 hour of treatment with copper electrolysis technology and copper sulphate respectivly as the concentration of Cu2+ was at 0.3 mg/L. The extermination rate of algae was 80.75% after 12 days of treatment of combined copper electrolysis. This technology could effectively decrease the turbidity, smell, COD, ammonia nitrogen and increase the dissolved oxygen in the treated water. Conclusion The Cu2+ released by copper electrolyzing has a stronger efficiency of algae extermination compared with copper sulfate. The combined copper electrolysis technology will be a satisfactory method for algae extermination in the landscape water.