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41.
目的:探究慢性心力衰竭(CHF)患者血清B型脑钠肽(BNP)、糖类抗原125(CA125)和甲状腺激素(TH)水平与心功能的相关性。方法:选取2015年12月-2017年12月我院收治的120例CHF患者作为本次研究的对象,患者的心功能分级状况为纽约心脏病协会(NYHA)Ⅰ/Ⅱ级51例、NYHAⅢ级39例、NYHAⅣ级30例,另选取同期在我院接受体检的健康志愿者40例作为对照组。检测所有研究对象的血清BNP、CA125和TH水平,并分析其与患者左心室射血分数(LVEF)、左室舒张末内径(LVEDD)间的关系。结果:不同心功能分级患者血清BNP、CA125水平均显著高于对照组,且BNP、CA125水平随NYHA分级升高而逐渐升高(P0.05)。NYHAⅢ级、NYHAⅣ级患者的血清T3水平显著低于对照组,且T3水平随NYHA分级升高而逐渐降低,各组间比较差异有统计学意义(P0.05)。Pearson分析结果显示,CHF患者血清BNP、CA125水平与LVEF呈负相关(P0.05),而与LVEDD呈正相关(P0.05);血清T3水平与LVEF呈正相关(P0.05),与LVEDD呈负相关(P0.05)。结论:CHF患者血清BNP、CA125及T3水平均与心功能存在密切联系,三者联合检测对CHF的临床诊断与病情判断有重要价值。 相似文献
42.
BackgroundGas Permeable Rapid Expansion (G-Rex) bioreactors have been shown to efficiently expand immune cells intended for therapeutic use, but do not address the complexity of the viral transduction step required for many engineered T-cell products. Here we demonstrate a novel method for transduction of activated T cells with Vectofusin-1 reagent. Transduction is accomplished in suspension, in G-Rex bioreactors. The simplified transduction step is integrated into a streamlined process that uses a single bioreactor with limited operator intervention.MethodsPeripheral blood mononuclear cells (PBMCs) from healthy donors were thawed, washed and activated with soluble anti-CD3 and anti-CD28 antibodies either in cell culture bags or in G-Rex bioreactors. Cells were cultured in TexMACS GMP medium with interleukin (IL)-7 and IL-15 and transduced with RetroNectin in bags or Vectorfusin-1 in the G-Rex. Total viable cell number, fold expansion, viability, transduction efficiency, phenotype and function were compared between the two processes.ResultsThe simplified process uses a single vessel from activation through harvest and achieves 56% transduction with 29-fold expansion in 11 days. The cells generated in the simplified process do not differ from cells produced in the conventional bag-based process functionally or phenotypically.DiscussionThis study demonstrates that T cells can be transduced in suspension. Further, the conventional method of generating engineered T cells in bags for clinical use can be streamlined to a much simpler, less-expensive process without compromising the quality or function of the cell product. 相似文献
43.
T-cell lymphomas represent a subpopulation of non-Hodgkin lymphomas with poor outcomes when treated with conventional chemotherapy. A variety of novel agents have been introduced as new treatment strategies either as first-line treatment or in conjunction with chemotherapy. Immunotherapy has been demonstrated to be a promising area for new therapeutics, including monoclonal antibodies and adoptive cellular therapeutics. T-cell therapeutics have been shown to have significant success in the treatment of B-cell malignancies and are rapidly expanding as potential treatment options for other cancers including T-cell lymphomas. Although treating T-cell lymphomas with T-cell therapeutics has unique challenges, multiple targets are currently being studied both preclinically and in clinical trials. 相似文献
44.
《DNA Repair》2019
DNA replication stress, defined as the slowing or stalling of replication forks, is considered an emerging hallmark of cancer and a major contributor to genomic instability associated with tumorigenesis (Macheret and Halazonetis, 2015). Recent advances have been made in attempting to target DNA repair factors involved in alleviating replication stress to potentiate genotoxic treatments. Various inhibitors of ATR and Chk1, the two major kinases involved in the intra-S-phase checkpoint, are currently in Phase I and II clinical trials [2]. In addition, currently approved inhibitors of Poly-ADP Ribose Polymerase (PARP) show synthetic lethality in cells that lack double-strand break repair such as in BRCA1/2 deficient tumors [3]. These drugs have also been shown to exacerbate replication stress by creating a DNA-protein crosslink, termed PARP ‘trapping’, and this is now thought to contribute to the therapeutic efficacy. Translesion synthesis (TLS) is a mechanism whereby special repair DNA polymerases accommodate and tolerate various DNA lesions to allow for damage bypass and continuation of DNA replication (Yang and Gao, 2018). This class of proteins is best characterized by the Y-family, encompassing DNA polymerases (Pols) Kappa, Eta, Iota, and Rev1. While best studied for their ability to bypass physical lesions on the DNA, there is accumulating evidence for these proteins in coping with various natural replication fork barriers and alleviating replication stress. In this mini-review, we will highlight some of these recent advances, and discuss why targeting the TLS pathway may be a mechanism of enhancing cancer-associated replication stress. Exacerbation of replication stress can lead to increased genome instability, which can be toxic to cancer cells and represent a therapeutic vulnerability. 相似文献
45.
谭健安 《基因组学与应用生物学》2019,(1):484-488
本研究将CD47-si RNA转染至食道癌细胞,采用蛋白免疫印迹检测食道癌细胞中CD47蛋白的表达,MTT法检测CD47-siRNA转染组和空质粒转染组(对照组)食道癌细胞增殖状态,蛋白免疫印迹检测CD47-siRNA转染组和空质粒转染组(对照组)食道癌细胞中PCNA蛋白表达,DCFDA染色流式细胞仪检测食道癌细胞CD47-siRNA转染组和空质粒转染组(对照组)中ROS水平,以探究CD47基因对食道癌发生发展的影响。研究结果表明,CD47-si RNA转染组食道癌细胞中CD47蛋白明显低于对照组;CD47-siRNA转染组食道癌细胞增殖率显著低于对照组(p<0.05);CD47-siRNA转染组细胞增殖相关蛋白PCNA低于对照组(p<0.01);CD47-siRNA转染组食道癌细胞中ROS水平明显高于对照组(p<0.05)。本研究初步认为:CD47-siRNA可降低食道癌细胞中CD47蛋白表达,抑制食道癌细胞的增殖并增加食道癌细胞中ROS水平。 相似文献
46.
47.
Alexey E. Machulkin Dmitry A. Skvortsov Yan A. Ivanenkov Anton P. Ber Mikhail V. Kavalchuk Anastasia V. Aladinskaya Anastasia A. Uspenskaya Radik R. Shafikov Ekaterina A. Plotnikova Raisa I. Yakubovskaya Ekaterina A. Nimenko Nikolay U. Zyk Elena K. Beloglazkina Nikolay V. Zyk Victor E Koteliansky Alexander G. Majouga 《Bioorganic & medicinal chemistry letters》2019,29(16):2229-2235
Prostate cancer (PC) is the second most commonly occurring cancer in men. Conventional chemotherapy has wide variety of disadvantages such as high systemic toxicity and low selectivity. Targeted drug delivery is a promising approach to decrease side effects of therapy. Prostate specific membrane antigen (PSMA) is overexpressed in prostate cancer cells while low level of expression is observed in normal cells. In this study we describe the development of Glu-urea-Lys based PSMA-targeting conjugates with paclitaxel. A series of new PSMA targeting conjugates with paclitaxel was designed and synthesized. The cytotoxicity of conjugates was evaluated against prostate (LNCaP, 22Rv1 and PC-3) and non-prostate (Hek293T, VA13, A549 and MCF-7) cell lines. The most promising conjugate 21 was examined in vivo using 22Rv1 xenograft mice model. It demonstrated good efficiency comparable with paclitaxel, while reduced toxicity. 3D molecular docking study was also performed to understand underlying mechanism of binding and further optimization of the linker substructure and conjugates structure for improving the target affinity. These conjugates may be useful for further design of novel PSMA targeting delivery systems for PC. 相似文献
48.
Daniel L. Hofmeister James B. Thoden Hazel M. Holden 《Protein science : a publication of the Protein Society》2019,28(4):707-716
Pantoea ananatis is a Gram‐negative bacterium first recognized in 1928 as the causative agent of pineapple rot in the Philippines. Since then various strains of the organism have been implicated in the devastation of agriculturally important crops. Some strains, however, have been shown to function as non‐pathogenic plant growth promoting organisms. To date, the factors that determine pathogenicity or lack thereof between the various strains are not well understood. All P. ananatis strains contain lipopolysaccharides, which differ with respect to the identities of their associated sugars. Given our research interest on the presence of the unusual sugar, 4‐formamido‐4,6‐dideoxy‐d ‐glucose, found on the lipopolysaccharides of Campylobacter jejuni and Francisella tularensis, we were curious as to whether other bacteria have the appropriate biosynthetic machinery to produce these unique carbohydrates. Four enzymes are typically required for their biosynthesis: a thymidylyltransferase, a 4,6‐dehydratase, an aminotransferase, and an N‐formyltransferase. Here, we report that the gene SAMN03097714_1080 from the P. ananatis strain NFR11 does, indeed, encode for an N‐formyltransferase, hereafter referred to as PA1080c. Our kinetic analysis demonstrates that PA1080c displays classical Michaelis–Menten kinetics with dTDP‐4‐amino‐4,6‐dideoxy‐d ‐glucose as the substrate and N10‐formyltetrahydrofolate as the carbon source. In addition, the X‐ray structure of PA1080c, determined to 1.7 Å resolution, shows that the enzyme adopts the molecular architecture observed for other sugar N‐formyltransferases. Analysis of the P. ananatis NFR11 genome suggests that the three other enzymes necessary for N‐formylated sugar biosynthesis are also present. Intriguingly, those strains of P. ananatis that are non‐pathogenic apparently do not contain these genes. 相似文献
49.
Dhimant Desai Matthew Lauver Alexandria Ostman Linda Cruz Kevin Ferguson Ge Jin Brianne Roper Daniel Brosius Aron Lukacher Shantu Amin Nick Buchkovich 《Bioorganic & medicinal chemistry》2019,27(9):1795-1803
Opportunistic viruses are a major problem for immunosuppressed individuals, particularly following organ or stem cell transplantation. Current treatments are non-existent or suffer from problems such as high toxicity or development of resistant strains. We previously published that a trafficking inhibitor that targets a host protein greatly reduces the replication of human cytomegalovirus. This inhibitor was also shown to be moderately effective against polyomaviruses, another family of opportunistic viruses. We have developed a panel of analogues for this inhibitor and have shown that these analogues maintain their high efficacy against HCMV, while substantially lowering the concentration required to inhibit polyomavirus replication. By targeting a host protein these compounds are able to inhibit the replication of two very different viruses. These observations open up the possibility of pan-viral inhibitors for immunosuppressed individuals that are effective against multiple, diverse opportunistic viruses. 相似文献
50.
黏膜是阻止病原入侵的第一道防线,黏膜免疫系统在抵抗感染方面起着至关重要的作用。通过黏膜途径接种疫苗可以同时诱导黏膜和全身免疫反应,因此,理论上针对黏膜的免疫策略是最合理和有效的。但黏膜免疫系统的复杂性和屏障作用造成抗原诱导的免疫应答水平低下,制约了黏膜疫苗的发展。M细胞(Microfoldcells)是黏膜免疫系统所独有的,其具有捕获腔内抗原和启动抗原特异性免疫应答的功能。M细胞摄取抗原的多少直接关系到黏膜疫苗的免疫效力,而利用M细胞配体可将抗原靶向递呈给M细胞,从而实现高效的黏膜免疫应答。靶向M细胞的抗原递送策略及其应用可以提高黏膜免疫应答水平,促进黏膜疫苗的研制。尽管如此,要成功研制安全高效的黏膜疫苗,今后依然有漫长的路要走,这可能有赖于进一步探究M细胞的特性和功能及黏膜免疫机制。 相似文献