Improved therapeutic efficiency of photothermal treatment and nursing care in prostate cancer by DOX loaded PEG coated Cu@Se nano-hybrid vesicle

Cancer is one of the major life threatening diseases, with higher mortality rate and morbidity. It is always a challenge for effective drug delivery and release of drug in specific tumor sites. Therefore to identify the synergistic effect of chemotherapeutic drug and photo thermal agent on tumor area, Doxorubicin (DOX) acts as anticancer agent but it has low aqueous solubility so its clinical application is limited. The present study developed doxorubicin (DOX) were designed to be with the poly ethylene glycol (PEG) functionalized copper and selenium (Cu-Se) nanoparticles (PEG@Cu-Se+DOX) and it is efficiently synthesized and enhance its aqueous formulation and improve the prostate cancer (DU145 and LNCaP) activity. The characteristics like mono dispersity, size stability and constant spectral of as-synthesized nanoparticles are comparably excellent than DOX alone. Also the enhanced cellular uptake and in vitro cytoxicicty suggests these nanoparticles selectively killing prostate cancer. In this present study explained that PEG@Cu-Se+DOX as a safe and hopeful strategy for chemotherapeutics of photothermal therapy and deserve for further clinical evaluations.     

Mdm2 inhibitors as a platform for the design of P-glycoprotein inhibitors

Chemoresistance is thought to be the cause of low treatment efficacy and mortality in more than 90% of patients with advanced cancer. The activation of drug efflux by P-glycoprotein is the key mechanism of resistance. All known P-gp inhibitors are used only in the combination therapy. We propose a new approach based on the multitarget rational design of drugs, which possess both the antitumor and efflux pump inhibitory activity. In this work, the principle possibility of combining the ability to inhibit P-gp and p53-Mdm2 protein-protein interaction in one structure is considered. The biological activity of a number of known and newly synthesized compounds was evaluated using cell lines with different p53 status. The possibility of using computer modeling for the search for P-glycoprotein inhibitors among Mdm2 inhibitors was analyzed; P-gp interaction site and binding modes of substrates and inhibitors were identified. The results obtained in cells that have the native balance of drug resistance and sensitivity showed the ability of the cells to both actively throw out xenobiotics and to lose this ability using P-gp inhibitors. The data obtained indicate that Mdm2 inhibitors are a promising platform for the development of multitarget drugs that can overcome tumor resistance by inhibiting the P-glycoprotein activity.     

Biotin and glucose dual-targeting,ligand-modified liposomes promote breast tumor-specific drug delivery

Breast cancer is the second leading cause of cancer-related deaths in women. Ligand-modified liposomes are used for breast tumor-specific drug delivery to improve the efficacy and reduce the side effects of chemotherapy; however, only a few liposomes with high targeting efficiency have been developed because the mono-targeting, ligand-modified liposomes are generally unable to deliver an adequate therapeutic dose. In this study, we designed biotin-glucose branched ligand-modified, dual-targeting liposomes (Bio-Glu-Lip) and evaluated their potential as a targeted chemotherapy delivery system in vitro and in vivo. When compared with the non-targeting liposome (Lip), Bio-Lip, and Glu-Lip, Bio-Glu-Lip had the highest cell uptake in 4T1 cells (3.00-fold, 1.60-fold, and 1.95-fold higher, respectively) and in MCF-7 cells (2.63-fold, 1.63-fold, and 1.85-fold higher, respectively). The subsequent cytotoxicity and in vivo assays further supported the dual-targeting liposome is a promising drug delivery carrier for the treatment of breast cancer.     

Molecular docking analysis of HER-2 inhibitor from the ZINC database as anticancer agents

The human epidermal growth factor (HER2) is a transmembrane receptor that is highly expressed in breast cancer and in different other cancers. Therefore, it is of interest to identify the new HER2 inhibitors from a selected 300 compounds in the ZINC database. The top two hit compounds (ZINC000014780728 (-11.0 kcal/mol) and ZINC000014762512 (-10.8 kcal/mol)) showed a high affinity with HER2 relative to the reference compound (lapatinib (-10.2 kcal/mol)) for further consideration.     

氮代谢参与植物逆境抵抗的作用机理研究进展

近年来,植物所受到的诸如干旱、盐、高温、低氧、重金属胁迫和营养元素缺乏等环境胁迫越来越多,严重影响了植物的生长发育及作物的质量和产量。氮素是植物生长发育所需的必需营养元素,同时也是核酸、蛋白质和叶绿素的重要组成成分,其代谢过程与植物抵抗逆境的能力息息相关。氮代谢是指植物对氮素的吸收、同化和利用的全过程,是植物体内基础代谢途径之一。氮代谢主要从氮素吸收、同化及氨基酸代谢等方面参与植物的抗逆性,并通过调节离子吸收和转运、稳定细胞形态和蛋白质结构、维持激素平衡和细胞代谢水平、减少体内活性氧(reactive oxygen species,ROS)生成以及促进叶绿素合成等生理机制来影响植物抵抗非生物胁迫的能力。因此,提高植物在逆境下的氮代谢水平是减轻外界胁迫对其损伤的一种潜在途径。该文从氮素同化的基本途径出发,分别阐述了氮代谢在干旱胁迫、盐胁迫和高温胁迫等多个方面的逆境抵抗过程中的作用机理,为氮代谢参与植物抗逆性研究提供了有利参考。     

Rational design,synthesis and biological profiling of new KDM4C inhibitors

The human histone demethylases of the KDM4 family have been related to diseases such as prostate and breast cancer. Majority of currently known inhibitors suffer from the low permeability and low selectivity between the enzyme isoforms. In this study, toxoflavin motif was used to design and synthesize new KDM4C inhibitors with improved biological activity and in vitro ADME properties. Inhibitors displayed good passive cellular permeability and metabolic stability. However, diminishing of redox liability and consequently non-specific influence on cell viability still remains a challenge.     

妇科门诊患者阴道分泌物检测及支原体感染情况和耐药性

目的分析妇科门诊患者阴道分泌物及支原体感染和耐药性情况。方法选取我院2017年7月至2018年7月于妇科门诊就诊的1 200例患者为研究对象,收集患者阴道分泌物并检测支原体感染情况及其耐药性。结果 1 200例患者中患滴虫性阴道炎者13例(1.08%),霉菌性阴道炎139例(11.58%),细菌性阴道病97例(8.08%)。阴道清洁度Ⅲ～Ⅳ度的患者滴虫性阴道炎、霉菌性阴道炎、细菌性阴道病的发生率显著高于清洁度Ⅰ～Ⅱ度的患者(均P0.05)。不同年龄段患者滴虫性阴道炎、霉菌性阴道炎和细菌性阴道病的发生率差异无统计学意义(均P0.05)。25岁的患者解脲支原体(Un)感染率最高(58.10%),35～44岁患者人型支原体(Mh)感染率最高(5.09%),25岁患者Un合并Mh感染率最高(21.91%)。支原体总敏感率较高的抗生素为美满霉素(95.86%)、强力霉素(95.15%)和交沙霉素(97.05%),敏感率较低的为甲砜霉素(19.15%),克林霉素(14.66%)和司帕沙星(27.77%)。结论阴道清洁度与阴道炎的发生具有相关性。患者阴道分泌物中支原体的检测及药敏试验可为临床治疗提供参考依据。