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91.
92.
Weiduan Xu Jianmin Chen Glenn Yamasaki John E. Murphy Baisong Mei 《Molecular biotechnology》2010,45(3):248-256
Many therapeutic proteins require appropriate glycosylation for their biological activities and plasma half life. Coagulation
factor VIII (FVIII) is a glycoprotein which has extensive post-translational modification by N-linked glycosylation. The terminal
sialic acid in the N-linked glycans of FVIII is required for maximal circulatory half life. The extent of FVIII sialylation
can be determined by high pH anion-exchange chromatography coupled with a pulse electrochemical detector (HPAEC-PED), but
this requires a large amount of purified protein. Using FVIII as a model, the objective of the present study was to develop
assays that enable detection and prediction of sialylation deficiency at an early stage in the process and thus prevent downstream
product quality excursions. Lectin ECA (Erythrina Cristagalli) binds to unsialylated Galβ1-4 GlcNAc and the ECA-binding level (i.e., terminal Gal(β1-4) exposure) is inversely proportional
to the level of sialylation. By using ECA, a cell-based assay was developed to measure the global sialylation profile in FVIII
producing cells. To examine the Galβ1-4 exposure on the FVIII molecule in bioreactor tissue culture fluid (TCF), an ELISA-based
ECA-FVIII binding assay was developed. The ECA-binding specificity in both assays was assessed by ECA-specific sugar inhibitors
and neuraminidase digestion. The ECA-binding specificity was also independently confirmed by a ST3GAL4 siRNA knockdown experiment.
To establish the correlation between Galβ1-4 exposure and the HPAEC-PED determined FVIII sialylation value, the FVIII containing
bioreactor TCF and the purified FVIII samples were tested with ECA ELISA binding assay. The results indicated an inverse correlation
between ECA binding and the corresponding HPAEC-PED sialylation value. The ECA-binding assays are cost effective and can be
rapidly performed, thereby making them effective for in-process monitoring of protein sialylation. 相似文献
93.
Focal adhesion kinase (FAK) functions as a key enzyme in the integrin-mediated adhesion-signalling pathway. Here, we aimed to investigate the effects of FAK on adhesion of human dental pulp (HDP) cells. We transfected lentiviral vectors to silence or overexpress FAK in HDP cells ex vivo. Early cell adhesion, cell survival and focal contacts (FCs)-related proteins (FAK and paxillin) were examined. By using immunofluorescence, the formation of FCs and cytoskeleton was detected, respectively. We found that both adhesion and survival of HDP cells were suppressed by FAK inhibition. However, FAK overexpression slightly inhibited cell adhesion and exhibited no change in cell survival compared with the control. A thick rim of cytoskeleton accumulated and smaller dot-shaped FCs appeared in FAK knockdown cells. Phosphorylation of paxillin (p-paxillin) was inhibited in FAK knockdown cells, verifying that the adhesion was inhibited. Less cytoskeleton and elongated FCs were observed in FAK-overexpressed cells. However, p-paxillin had no significant difference compared with the control. In conclusion, the data suggest that FAK maintains cell adhesion, survival and cytoskeleton formation, but excessive FAK has no positive effects on these aspects. 相似文献
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Before cell division in many bacteria, the ParBs spread on a large segment of DNA encompassing the origin-proximal parS site(s) to form the partition assembly that participates in chromosome segregation. Little is known about the structural organization of chromosomal partition assembly. We report solution X-ray and neutron scattering data characterizing the size parameters and internal organization of a nucleoprotein assembly formed by the mycobacterial chromosomal ParB and a 120-meric DNA containing a parS-encompassing region from the mycobacterial genome. The cross-sectional radii of gyration and linear mass density describing the rod-like ParB-DNA assembly were determined from solution scattering. A “DNA outside, protein inside” mode of partition assembly organization consistent with the neutron scattering hydrogen/deuterium contrast variation data is discussed. In this organization, the high scattering DNA is positioned towards the outer region of the partition assembly. The new results presented here provide a basis for understanding how ParBs organize the parS-proximal chromosome, thus setting the stage for further interactions with the DNA condensins, the origin tethering factors and the ParA. 相似文献
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Boquan Wu Shilong You Hao Qian Shaojun Wu Saien Lu Ying Zhang Yingxian Sun Naijin Zhang 《Journal of cellular and molecular medicine》2021,25(14):6470-6478
At present, cardiovascular disease is one of the important factors of human death, and there are many kinds of proteins involved. Sirtuins family proteins are involved in various physiological and pathological activities of the human body. Among them, there are more and more studies on the relationship between sirtuin2 (SIRT2) protein and cardiovascular diseases. SIRT2 can effectively inhibit pathological cardiac hypertrophy. The effect of SIRT2 on ischaemia-reperfusion injury has different effects under different conditions. SIRT2 can reduce the level of reactive oxygen species (ROS), which may help to reduce the severity of diabetic cardiomyopathy. SIRT2 can affect a variety of cardiovascular diseases, energy metabolism and the ageing of cardiomyocytes, thereby affecting heart failure. SIRT2 also plays an important role in vascular disease. For endothelial cell damage used by oxidative stress, the role of SIRT2 is bidirectional, which is related to the degree of oxidative stress stimulation. When the degree of stimulation is small, SIRT2 plays a protective role, and when the degree of stimulation increases to a certain level, SIRT2 plays a negative role. In addition, SIRT2 is also involved in the remodelling of blood vessels and the repair of skin damage. 相似文献
100.
微生态药物在许多复杂性和慢性疾病中显示出极大的潜力,逐渐成为国际制药行业的新趋势。基于科睿唯安旗下的Cortellis数据库,采用定量分析和专家智慧相结合的方法,从总体研发现状、主要国家/地区、主要适应症、重点企业研发管线、重点在研药物、商业化交易多个维度展现全球微生态药物的研发和商业化全景。分析结果显示:全球共有142个在研微生态药物,其中49个药物处于临床阶段。美国在微生态药物研发和商业化方面遥遥领先,其数量占在研药物总量的70%。在研药物的适应症主要集中于炎症性肠病、艰难梭菌感染、溃疡性结肠炎等肠道感染性疾病。4D pharma公司的在研药物数量最多,微生态药物重点研发企业均建立起核心技术平台。处于临床3期的微生态药物共有7个,全球微生态药物商业化交易共有303起,最大的交易金额是27.8亿美元。未来,微生态药物有望在更难被人类征服的肿瘤和神经系统疾病方面取得突破性进展。 相似文献