Inactivation of Buckwheat α-Glucosidase with 1-Ethyl-3-(3-dimethylaminopropyl) carbodiimide

The amino acid residue(s) involved in the activity of buckwheat α-glucosidase was modified by 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide in the presence of glycine ethyl ester. The modification resulted in the decrease in the hydrolytic activity of the enzyme following pseudo-first order kinetics. Competitive inhibitors, such as Tris and turanose, protected the enzyme against the inactivation. Protection was provided also by alkali metal, alkaline-earth metal and ammonium ions, though these cations are non-essential for the activity of the enzyme. Turanose or K⁺ protected one carboxyl group per enzyme from the modification with carbodiimide and glycine ethyl ester. Free sulfhydryl group of the enzyme was also partially modified with carbodiimide, but the inactivation was considered to be mainly attributed to the modification of essential carboxyl group rather than to that of free sulfhydryl group.     

Streptavidin-Aequorin Fusion Protein for Bioluminescent Immunoassay

The fusion protein of streptavidin to aequorin (STA-AQ) was highly purified from inclusion bodies in Escherichia coli cells and applied to a bioluminescent sandwich immunoassay. α-Fetoprotein (AFP), which is a serological marker of liver cancer, was used as a model analyte to test STA-AQ in an immunoassay. The measurable range of AFP by the sandwich immunoassay, using the complex of STA-AQ and the biotinylated anti-AFP antibody, was 0.02–200 ng/mL with an average coefficient of variation of 4.9%. The detection sensitivity with the complex of STA-AQ and the biotinylated anti-AFP antibody was similar to that with the complex of biotinylated aequorin, streptavidin and the biotinylated anti-AFP antibody. STA-AQ would be a useful reporter protein for immunoassays.     

小鼠去细胞拟胚体对小鼠Lewis肺癌细胞体内生长的影响

目的:阐明小鼠去细胞拟胚体对小鼠Lewis肺癌细胞在体内生长的影响。方法:先制备来源于小鼠胚胎干细胞的拟胚体,然后用SDS去细胞处理。实验分成3组:小鼠Lewis肺癌细胞与去细胞拟胚体培养组,癌细胞与Matrigel培养组和单纯癌细胞组(每组n=12)。培养3天后注射入裸鼠体内,观察肿瘤生长情况。28天取出瘤体,Ki67和CD31免疫组化染色(n=12)检测细胞增殖和肿瘤微血管密度(MVD),Western blot检测组织Paxillin,E-cadherin和β-actin水平(n=6)。结果:去细胞拟胚体组肿瘤生长明显较单纯细胞组和Matrigel组慢。去细胞拟胚体组Ki67指数((17.1±2.6)%)明显小于单纯细胞组((34.5±4.7)%)和Matrigel组((48.4±8.6)%)(P0.05);去细胞拟胚体组的MVD(18.7±3.6个/mm2)明显小于单纯细胞组(32.1±6.4个/mm2)和Matrigel组(42.6±7.1个/mm2)(P0.05)。Western blot结果提示去细胞拟胚体组的Paxillin表达小于单纯细胞组和Matrigel组(P0.05),而E-cadherin表达大于单纯细胞组和Matrigel组(P0.05)。结论:小鼠去细胞拟胚体对小鼠Lewis肺癌细胞在体内有明显的促分化作用。     

蝉棒束孢菌子实体对大鼠肾小管上皮细胞的影响

对蝉棒束孢菌子实体（0.75g/kg）重复灌胃SD雄性大鼠90d及恢复28d的早期肾损伤生物标记物肾损伤分子-1（KIM-1）和中性粒细胞明胶酶相关载脂蛋白（NGAL）进行测定,评估蝉棒束孢菌子实体对肾小管上皮细胞的影响;研究不同剂量蝉棒束孢菌子实体（0.25g/kg、0.5g/kg、1.0g/kg）对肾小管上皮细胞增殖和增生能力的影响。给药30、60、90d及恢复28d时,SD大鼠血清中KIM-1浓度与对照组相比均无显著差异（P>0.05）,给药30d、60d时,SD大鼠血清中NGAL浓度与对照组相比均无显著差异（P>0.05）,给药90d及恢复28d时,SD大鼠血清中NGAL浓度低于对照组（P<0.05）,且给药90d组与对照组相比有显著性差异（P<0.01）;免疫组化检测增殖细胞核抗原法（PCNA）及四甲基偶氮唑盐微量酶反应比色法（MTT）表明：与对照组相比,蝉棒束孢菌子实体能使肾小管上皮细胞增生能力增强,未导致肾小管上皮细胞凋亡。     

Rho‐associated coiled‐coil kinase 1 activation mediates amyloid precursor protein site‐specific Ser655 phosphorylation and triggers amyloid pathology

Rho‐associated coiled‐coil kinase 1 (ROCK1) is proposed to be implicated in Aβ suppression; however, the role for ROCK1 in amyloidogenic metabolism of amyloid precursor protein (APP) to produce Aβ was unknown. In the present study, we showed that ROCK1 kinase activity and its APP binding were enhanced in AD brain, resulting in increased β‐secretase cleavage of APP. Furthermore, we firstly confirmed that APP served as a substrate for ROCK1 and its major phosphorylation site was located at Ser655. The increased level of APP Ser655 phosphorylation was observed in the brain of APP/PS1 mice and AD patients compared to controls. Moreover, blockade of APP Ser655 phosphorylation, or inhibition of ROCK1 activity with either shRNA knockdown or Y‐27632, ameliorated amyloid pathology and improved learning and memory in APP/PS1 mice. These findings suggest that activated ROCK1 targets APP Ser655 phosphorylation, which promotes amyloid processing and pathology. Inhibition of ROCK1 could be a potential therapeutic approach for AD.     

Mast Cell-Derived Histamine Regulates Liver Ketogenesis via Oleoylethanolamide Signaling

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Alternative Lengthening of Telomeres through Two Distinct Break-Induced Replication Pathways

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