Synthesis of quinoline derivatives as diabetic II inhibitors and molecular docking studies

In searchof the potenttherapeutic agent as an α-glucosidase inhibitor, we have synthesized twenty-five analogs (1–25) of quinoline-based Schiff bases as an inhibitoragainst α-glucosidase enzyme under positive control acarbose (IC₅₀ = 38.45 ± 0.80 µM). From the activity profile it was foundthat analogs 1, 2, 3, 4, 11, 12 and 20with IC₅₀values 12.40 ± 0.40, 9.40 ± 0.30, 14.10 ± 0.40, 6.20 ± 0.30, 14.40 ± 0.40, 7.40 ± 0.20 and 13.20 ± 0.40 µMrespectively showed most potent inhibition among the series even than standard drug acarbose (IC₅₀ = 38.45 ± 0.80 µM). Here in the present study analog 4 (IC₅₀ = 6.20 ± 0.30 µM) was found with many folds better α-glucosidase inhibitory activity than the reference drug. Eight analogs like 5, 7, 8, 16, 17, 22, 24 and 25 among the whole series displayed less than 50% inhibition. The substituents effects on phenyl ring thereby superficially established through SAR study. Binding interactions of analogs and the active site of ligands proteins were confirmed through molecular docking study. Spectroscopic techniques like ¹H NMR, ¹³C NMR and ESIMS were used for characterization.     

美花石斛化学成分及其护肤活性研究

本文研究美花石斛(Dendrobium loddigesii)的化学成分及其护肤活性。采用色谱法从美花石斛粗提物中分离得到12个化合物,利用波谱学方法分别鉴定为拖鞋状石斛素(1)、2,4,7-三羟基-9,10-二氢菲(2)、3,6,9-三羟基-3,4-二氢蒽-1(2H)-酮(3)、3,5′-二甲氧基-3′,4,9′-三羟基-7′,9-环氧-8,8′-木酚素(4)、5-(4-羟基-3-甲氧基苯乙基)-2-(4-羟基-3-甲氧基苯基)苯并二氢呋喃-3,7-二醇(5)、5-(4′′-羟基-3′′-甲氧基苯乙基)-2-(4′-羟基-5′-甲氧基苯基)-7-甲氧基苯并二氢吡喃-3-醇(6)、丁香脂素(7)、异香草醛(8)、松柏醛(9)、2-甲氧基-5-羟甲基苯酚(10)、二氢松柏醇(11)、4-羟基-3-甲氧基苯乙醇(12)。其中化合物3～5、7～12为首次从美花石斛中分离得到;化合物1、2、6(100μg/mL)有一定的自由基清除活性(>80%);化合物2(10μg/mL)有一定促胶原蛋白分泌活性(>20%)。结果显示从美花石斛的茎中分离得到了12个化合物,3个表现出良好的护肤活性。     

с-Met receptor can be activated by extracellular alkaline medium

Receptor tyrosine kinase (RTK) Met or c-Met is a target of hepatocyte growth factor (HGF) and it plays an important role under normal and pathological conditions. Activation of Met signaling pathway is associated with several cellular processes, such as proliferation, survival, motility, angiogenesis, invasion, and metastasis. In this article, we describe the ability of Met to activate upon a mild alkali treatment. To identify potential alkali-regulated proteins, CAKI-1 cells were treated with alkaline media and further tested for protein phosphorylation changes. By anti-phosphotyrosine antibody precipitation and lectin chromatography, we identified Met as a major cytoplasmic membrane protein that responded to pH changes by its phosphorylation. The activation of Met by alkali occurred at pH >8.0 and was dose-dependent. Specificity of the Met response to alkali was confirmed by the treatment with Met kinase inhibitor SU11274 and also by Met receptor knockout using CRISPR/CAS9 genome editing system. Both approaches completely blocked the Met phosphorylation response in CAKI-1 cells. Similar pH-dependent Met activation was observed in the HeLa cell line. Our data suggest existence of ligand-independent mechanism of Met receptor activation.     

Eimeria tenella ROP kinase EtROP1 induces G0/G1 cell cycle arrest and inhibits host cell apoptosis

Coccidia are obligate intracellular protozoan parasites responsible for human and veterinary diseases. Eimeria tenella, the aetiologic agent of caecal coccidiosis, is a major pathogen of chickens. In Toxoplasma gondii, some kinases from the rhoptry compartment (ROP) are key virulence factors. ROP kinases hijack and modulate many cellular functions and pathways, allowing T. gondii survival and development. E. tenella's kinome comprises 28 putative members of the ROP kinase family; most of them are predicted, as pseudokinases and their functions have never been characterised. One of the predicted kinase, EtROP1, was identified in the rhoptry proteome of E. tenella sporozoites. Here, we demonstrated that EtROP1 is active, and the N‐terminal extension is necessary for its catalytic kinase activity. Ectopic expression of EtROP1 followed by co‐immunoprecipitation identified cellular p53 as EtROP1 partner. Further characterisation confirmed the interaction and the phosphorylation of p53 by EtROP1. E. tenella infection or overexpression of EtROP1 resulted both in inhibition of host cell apoptosis and G0/G1 cell cycle arrest. This work functionally described the first ROP kinase from E. tenella and its noncanonical structure. Our study provides the first mechanistic insight into host cell apoptosis inhibition by E. tenella. EtROP1 appears as a new candidate for coccidiosis control.     

盐及干旱胁迫对油菜抗氧化系统和RbohC、RbohF基因表达的影响

以白菜型油菜‘陇油6号’和‘天油2号’为试验材料,经MAPK抑制剂U0126、H_2O_2清除剂DMTU、NADPH氧化酶抑制剂DPI和IMD预处理后再分别进行盐胁迫、PEG-6000模拟干旱胁迫,研究其对两种油菜幼苗活性氧、抗氧化酶活性和RbohC、RbohF基因表达的影响.结果表明:盐胁迫和PEG-6000模拟干旱胁迫下,两种白菜型油菜中H_2O_2积累量上升,O_2^-·积累量下降,抗氧化酶(超氧化物歧化酶SOD、过氧化氢酶CAT、抗坏血酸过氧化物酶APX和谷胱甘肽还原酶GR)活性和RbohC、RbohF基因表达均升高.与单独胁迫处理相比,两种油菜O_2^-·积累、抗氧化酶活性和RbohC、RbohF基因的表达量均明显降低,经DMTU、DPI和IMD预处理后再分别进行盐和干旱胁迫,H_2O_2积累量下降,但U0126预处理后再进行胁迫处理,H_2O_2积累量上升.说明NADPH氧化酶、MAP激酶级联途径、H_2O_2参与了盐、干旱胁迫下活性氧产生、抗氧化酶活性变化和RbohC、RbohF基因表达的调控.     

长链非编码RNA RLM通过影响AMPK的磷酸化调节HepG2细胞中的脂质沉积

长非编码RNAs（long noncoding RNAs,lncRNAs）是一类长度大于200 nt、不能编码蛋白质的RNA分子,可通过AMPK、胰岛素受体等多种信号通路,调节细胞糖脂代谢。本研究发现,HepG2细胞中一条未报道的长链非编码RNA,命名为lnc-RLM（lnc-regulate lipid metabolism）。通过敲低HepG2细胞中lnc RLM,检测细胞中甘油三脂含量及脂质代谢相关调节因子表达量。结果显示,实验组较对照组甘油三酯含量显著升高（P<0.05）;AMPK磷酸化水平显著下调,脂质合成相关因子SREBP 1c和FAS表达量上调;同时,细胞中乙酰辅酶A羧化酶（ACC）活性较对照组显著上调（P<0.05）。在lnc RLM敲低的HepG2细胞中,利用AMPK激动剂（A-769662）作用细胞24 h,结果显示,降低的AMPK磷酸化水平并不会因AMPK激动剂的作用而显著升高。本研究结果说明,HepG2细胞中敲低lnc-RLM表达量,可通过影响AMPK磷酸化水平,调节HepG2细胞中脂质沉积。这为今后研究AMPK活性调节提供新的可能,也为代谢性疾病的治疗提供了新思路。     

果蝇蛋白质激酶Pitslre通过调控抗菌肽表达参与天然免疫反应

为鉴定新的参与黑腹果蝇(Drosophila melanogaster)天然免疫信号通路调控的分子及作用机制,应用果蝇的Gal4/UAS系统敲低54个蛋白质激酶编码基因,分别利用革兰氏阳性菌（Enterococcus faecalis, E.faecalis）或革兰氏阴性菌（Erwinia carototovovora carototovovora 15, Ecc15）感染基因敲低果蝇,筛选参与果蝇天然免疫反应的蛋白质激酶。结果显示,全身性敲低蛋白质激酶Pitslre的果蝇感染E.faecalis或Ecc15 后,生存率降低,半致死时间LT50分别降低为对照组的66.7%和28.6%。相应的,Pitslre功能缺失导致革兰氏阳性菌和阴性菌分别感染后,Toll及IMD通路下游抗菌肽Drosomycin和Diptercin表达水平明显下降。在脂肪体和血淋巴细胞中特异性敲低Pitslre基因,导致革兰氏阳性菌及阴性菌感染后的果蝇半致死时间LT50分别缩短75%和90%,细菌载量分别升高约10倍。在果蝇S2细胞中,敲低Pitslre基因,导致细胞的抗菌肽Drosomycin、Attacin和Diptercin表达水平分别降低约50%。此外,通过免疫共沉淀实验检测Pitslre与预测存在相互作用的蛋白质TSC1、Rcd5和pbl之间的相互作用。综上所述,蛋白质激酶Pitslre参与果蝇天然免疫反应,在正向调控果蝇天然免疫Toll和IMD通路中发挥重要作用。