High-level cell-free expression and functional characterization of a novel aquaporin from Photobactetrium profundum SS9

AqpSS9 is a novel aquaporin derived from the deep sea bacterium Photobactetrium profundum SS9 and has attracted many attentions in developing water filtration biomimetic membranes. Functional characterization of AqpSS9 was carried out first by its expression in E. coli MM1211 (aqpZ⁻). Results showed that it was similar to bacterial aquaporin Z (AqpZ) and functioned as a real aquaporin. In-vitro expression of AqpSS9 were systematically investigated using three different modes: precipitate-based cell-free (P-CF) mode, the detergent-based cell-free (D-CF) mode and lipid-based cell-free expression mode (L-CF). D-CF mode showed more superiority than P-CF and L-CF mode, and the highest expression level of 571 mg/l was achieved by adding 0.7% Brij-78. Then AqpSS9 was purified by affinity chromatograph and incorporated into DOPC liposomes. Osmotic water permeability values (P_f) of reconstituted AqpSS9 proteoliposomes was measured as 310.7 ± 3.2 μm/s, which was about 3.5 times of empty control liposomes and comparable to reported Aqps. The AqpSS9 embedded layer-by-layer (LbL) membrane was fabricated and tested, which showed enhanced water permeability and salt rejection in comparison with the control membrane. This work demonstrated the good performance of AqpSS9 as a water channel protein, which may become an alternative candidate for biomimetic membrane construction for water filtration.     

Synthesis of metallothionein in a polysomal cell-free system.

A new covalent chromatography system utilizing Activated Thiol Sepharose 4B was employed to quantitate the content of thionein chains synthesized in a polysomal cell-free system. Liver polysomes from zinc injected rats directed the translation of more thionein-like polypeptide chains than polysomes from control rats. The increase was similar to the stimulation in MT synthesis $\text{in vivo}$ following a zinc injection. This evidence supports the concept that metallothionein synthesis is regulated by changes in the pool of translatable thionein mRNA.     

Fusion of newly formed phagosomes with endosomes in intact cells and in a cell-free system

Phagosomes are membrane-bound vesicles, formed by the receptor-mediated internalization of particulate ligands, which exchange soluble and membrane proteins with other endocytic compartments as a part of their maturation process. This exchange of material is undoubtedly mediated by fusion of phagosomes with other membrane-bound compartments of the endocytic pathway. By using a particulate probe (fixed Staphylococcus aureus coated with mouse anti-dinitrophenol monoclonal antibody) localized in phagosomes and a soluble probe (dinitrophenol-derivitized beta-glucuronidase) internalized by receptor-mediated endocytosis, we have studied phagosome-endosome and phagosome-lysosome fusion in intact cells and in a cell-free system. Vesicle fusion was assessed by measuring beta-glucuronidase activity associated with S. aureus particles after lysis of the membranes. In intact macrophages, newly formed phagosomes fused with early endosomes and with lysosomes. Fusion with lysosomes was observed to commence after a short lag period of about 5 min. In broken-cell preparations, phagosomes were able to fuse with early endosomes. It was not possible to reconstitute phagosome-lysosome fusion in vitro. In vitro phagosome-endosome fusion required energy and cytosolic- and membrane-associated proteins. A nonhydrolyzable analog of GTP stimulated fusion at low cytosol concentrations and inhibited fusion at high cytosol concentrations. These observations indicate that the mechanisms mediating phagosome-endosome fusion are similar to those described for endosome-endosome fusion. Our results suggest that exchange of material with endosomes is an important step in the process of phagosome maturation.     

Synthesis of glycinin in a wheat germ cell-free system.

Polyribosomes isolated from the cotyledons of developing soybean seeds were translated in a wheat germ cell-free system. When the radioactive translation products synthesized in the cell-free system were fractionated by centrifugation on sucrose density gradient, a radioactive peak which overlapped an authentic glycinin was detected. This radioactive co-sedimentable material was judged to be also a glycinin by its behavior toward polyacrylamide gel electrophoresis and immunoprecipitation.     

无细胞蛋白合成体系实现胰岛素原可溶性表达

胰岛素原(Proinsulin,Pins)是胰岛素的合成前体。在大肠杆菌表达系统中,其一般以包涵体的形式存在,需要经过变性复性等后续加工过程才能得到有活性的胰岛素。而无细胞蛋白合成体系(Cell-free protein synthesis,CFPS)作为一种新型体外蛋白合成手段,突破了细胞的生理限制,已成功应用于多种重组蛋白药物的生产。为了探索胰岛素合成的新方法以满足其在新型给药途径研发中的需求,本研究运用CFPS体系进行胰岛素原的可溶性表达。通过将胰岛素原与荧光蛋白进行融合来增加其可溶性,成功在CFPS体系中表达了胰岛素原融合蛋白。最后使用Western blotting对融合红色荧光蛋白的胰岛素原(Pins-mCherry)进行鉴定,利用酶标仪对融合绿色荧光蛋白的胰岛素原(Pins-eGFP)在上清中的表达进行定量分析,结果表明Pins-eGFP部分可溶,其表达量为(12.28±3.45)μg/m L。本研究首次实现了融合胰岛素原在CFPS系统中的可溶性表达,其融合荧光蛋白的策略显著提升了胰岛素原的可溶性,该结果为探究胰岛素合成新方法及开发基于CFPS系统的新型胰岛素给药途径奠定了基础。     

Synthesis and maturation of green fluorescent protein in a cell-free translation system

Summary A cell-free translation system producing mature green fluorescent protein (GFP) can be a useful tool for studying the mechanism and kinetics of GFP chromophore formation, as well as for fast protein engineering. We report here that the mature GFP can be formed in the cell-free translation system from E.coli. The synthesis of GFP in the cell-free system reaches a plateau in 30 to 40 min whereas its maturation is completed in 4 h from the beginning of translation. The delay between the GFP synthesis and the chromophore formation in the cell-free system provides the possibility to isolate and to analyse maturation intermediates for elucidation of the modification pathway.     

Bacterial cell-free system for high-throughput protein expression and a comparative analysis of Escherichia coli cell-free and whole cell expression systems

Sixty-three proteins of Pseudomonas aeruginosa in the size range of 18-159 kDa were tested for expression in a bacterial cell-free system. Fifty-one of the 63 proteins could be expressed and partially purified under denaturing conditions. Most of the expressed proteins showed yields greater than 500 ng after a single affinity purification step from 50 microl in vitro protein synthesis reactions. The in vitro protein expression plus purification in a 96-well format and analysis of the proteins by SDS-PAGE were performed by one person in 4 h. A comparison of in vitro and in vivo expression suggests that despite lower yields and less pure protein preparations, bacterial in vitro protein expression coupled with single-step affinity purification offers a rapid, efficient alternative for the high-throughput screening of clones for protein expression and solubility.     

Synthesis of the arabinose operon regulator protein in a cell-free system

Summary A DNA-directed cell-free system which synthesizes L-ribulokinase coded by the L-arabinose operon, ara OIBAD, has been developed. L-arabinose is required for the expression of this operon and, in addition, cyclic AMP and guanosine-tetraphosphate are needed for optimal synthesis. The ara C gene product is also required and can be supplied either by de novo synthesis in the cell-free system or added back from extracts of whole cells. Evidence is presented that the C gene product is highly susceptible to protease attack.     

Molecular and functional characterization of cynomolgus monkey IgG subclasses

Studies for vaccine and human therapeutic Ab development in cynomolgus monkeys (cynos) are influenced by immune responses, with Ab responses playing a significant role in efficacy and immunogenicity. Understanding the nature of cyno humoral immune responses and characterizing the predominant cyno IgG types produced and the Fc-FcγR interactions could provide insight into the immunomodulatory effects of vaccines. Anti-drug Ab responses against human IgG therapeutic candidates in cynos may affect efficacy and safety assessments because of the formation of immune complexes. There is, however, limited information on the structure and function of cyno IgG subclasses and how they compare with human IgG subclasses in Fc-dependent effector functions. To analyze the functional nature of cyno IgG subclasses, we cloned four cyno IgG C regions by using their sequence similarity to other primate IgGs. The four clones, cyno (cy)IGG1, cyIGG2, cyIGG3, cyIGG4, were then used to construct chimeric Abs. The sequence features of cyno IgG subclasses were compared with those of rhesus monkey and human IgG. Our data show that rhesus monkey and cyno IgG C regions are generally highly conserved, with differences in the hinge and hinge-proximal CH2 regions. Fc-dependent effector functions of cyno IgG subclasses were assessed in vitro with a variety of binding and functional assays. Our findings demonstrate distinctive functional properties of cyno IgG subclasses. It is notable that human IgG1 was less potent than cyno IgG1 in cyno FcγR binding and effector functions, with the differences emphasizing the need to carefully interpret preclinical data obtained with human IgG1 therapeutics.     

Synthesis of alpha 2-macroglobulin in rat hepatocytes and in a cell-free system

The biosynthesis and secretion of alpha 2-macroglobulin was studied in rat hepatocyte primary cultures. After immunoprecipitation of alpha 2-macroglobulin from a cell homogenate and the hepatocyte medium, two forms of alpha 2-macroglobulin with app. Mr of 176000 and 182000, respectively, were identified. A precursor-product relationship for the two alpha 2-macroglobulin forms was demonstrated by a pulse-chase experiment. The cellular form of alpha 2-macroglobulin could be deglycosylated by endoglucosaminidase H, whereas the medium form of alpha 2-macroglobulin remained unaffected. On the other hand, only the medium form of alpha 2-macroglobulin was found to be susceptible to neuraminidase. In vitro translation of rat liver poly(A)+ RNA resulted in a translation product of an app. Mr of 162000.     

Transport of functional messenger RNA from liver nuclei in a reconstituted cell-free system

The reliability of a reconstituted cell-free system for messenger RNA processing and transport, consisting of isolated nuclei in fortified cytosol, has been evaluated in terms of the functionality and regulated release of the transported product. The poly(A) messenger RNA transport in vitro formed appropriate initiation complexes with ribosomes in an optimized translation system and had template activity comparable to that transported in vivo. The intra-nuclear origin of this messenger RNA is supported by pulse-labeling studies, its transport from detergent-treated nuclei and the absence of the release under non-transport conditions. Serum albumin was identified by immunoprecipitation and electrophoresis as one of the products synthesized when the transported RNA was translated in vitro. The transport of messenger RNA in the cell-free system was dependent on specific cytosol (soluble cytoplasmic) proteins. These proteins, which constitutes less than 0.1% of the total cytosol proteins, are precipitated wtih streptomycin with high specificity.