Development and application of a droplet-based microfluidic high-throughput screening of Pichia pastoris / 生物工程学报

Pichia pastoris is one of the most convenient and widely used heterologous protein expression systems. To further improve its ability to express heterologous proteins, we developed a high-throughput P. pastoris screening method based on droplet microfluidic and demonstrated the method by screening and obtaining mutants with enhanced xylanase expression and secretion abilities. We used PCR (Polymerase Chain Reaction) amplification to obtain a fusion fragment of xylanase xyn5 gene and green fluorescent protein gfp gene, and cloned this fragment into pPIC9K, the expression vector of Pichia pastoris, to construct the plasmid pPIC9K-xyn5-gfp that recombined the DNA fragments of xylanase and green fluorescent protein. After this plasmid entered P. pastoris GS115 by electroporation, the P. pastoris SG strain that could express xylanase and green fluorescent protein was obtained. The above-said strains were then mutagenized by atmospheric room temperature plasma and subsequently encapsulated to form single-cell droplets. After 24-hour cultivation of the droplets, microfluidic screening was carried out to obtain the mutant strain with high xylanase expression for further construction and screening of the next mutagenesis library. After five rounds of droplet microfluidic screening, a highly productive strain P. pastoris SG-m5 was obtained. The activity of the expressed xylanase was 149.17 U/mg, 300% higher than that of those expressed by the original strain SG. This strain's ability to secrete heterologous protein was 160% higher than that of the original strain. With a screening throughput of 100 000 strains per hour, the high-throughput P. pastoris screening system based on single-cell droplet microfluidic developed by the present study screens a library with million strains in only 10 hours and consumes only 100 μL of fluorescent reagent, thus reducing the reagent cost by millions of times compared with the traditional microplate screening and more importantly, providing a novel method to obtain P. pastoris with high abilities to express and secret heterologous proteins by efficient and low-cost screening.

Construction of hTNFα/CHO genetic engineered cell and verification of its protein secretion function / 局解手术学杂志

Objective To construct the genetic engineered cell line which can continuously secrete human tumor necrosis factor ( hTNFα) in Chinese Hamster Ovary cells( CHO cells) ,and observe the change of its protein secretion function.Methods Constructed plas-mid which carries hTNFαgene expression through vector GV141.Selected stable transfection cell lines by G418 and transfection with lipo-fectamine.Identified its gene expression with Real-Time PCR,and identified its protein secretion by ELISA.Results GV141-hTNFαexpres-sion vectors were constructed successfully which were proved by sequence alignment.Real-Time PCR proved that it contained hTNFαgene in hTNFα/CHO cell line.ELIAS identification results showed that the cell lines can continuously secrete hTNFαwithin a certain cell propaga-tion.Conclusion The hTNFα/CHO cell line can continuously secrete human tumor necrosis factor within a certain cell propagation.

Study of the platelet activating factor acetylhydrolase activity of a gene product encoded by LA2144 gene of Leptospira interrogans / 中华微生物学和免疫学杂志

Objective To analyze the platelet activating factor acetylhydrolase ( PAF-AH) activity of a gene product encoded by LA2144 gene of Leptospira interrogans ( L. interrogans) , to investigate the ex-pression and secretion of LA2144 protein in various cell cultures and to further understand its function in in-ducing internal hemorrhage in an animal model. Methods The DNA sample containing LA2144 gene was extracted from L. interrogans serogroup Icterohaemorrhagiae serovar Lai strain Lai and used as the template for gene cloning by PCR. The LA2144 gene without the signal sequence coding region was amplified by PCR and inserted into a prokaryotic expression construct for the protein expression. The expressed recombinant protein, rLep-PAF-AH, was purified by Ni-NTA affinity chromatography. Spectrophotometry was used to measure the hydrolytic activity, hydrolytic efficiency, Km and Kcat values of the rLep-PAF-AH protein in hydrolyzing PAF substrate. Real-time fluorescent quantitative RT-PCR ( qRT-PCR) and Western blot assay were performed to measure the expression of LA2144 gene at mRNA and protein levels in human umbilical vein endothelial cells (HUVEC), human monocytes (THP-1) and murine macrophages (J774A. 1) with L. interrogans strain Lai infection, respectively. Each syrian hamster was intravenously injected with 100 μg of LPS-free rLep-PAF-AH for two times. Hemorrhage in the lungs, livers and kidneys were observed in three days after the injection. Results The constructed prokaryotic expression system for LA2144 gene of L. inter-rogans strain Lai could highly express the rLep-PAF-AH upon the induction of IPTG. The purified rLep-PAF-AH showed high purity with a single protein band in gel as indicated by SDS-PAGE. The efficiency of 5 μg of rLep-PAF-AH in hydrolyzing PAF substrate was 26. 6 U/L with a Km value of 82. 79 μmol/L and a Kcat value of 0. 24 S-1 . The expression of Lep-PAF-AH at mRNA level in HUVEC, THP-1 and J774A. 1 cells were significantly elevated after co-culture with L. interrogans strain Lai for 1 or 2 hours (P<0. 05). A large amount of Lep-PAF-AH were detected in the supernatants from co-cultures of L. interrogans strain Lai with the three cell lines, but not from the culture of the spirochete in EMJH medium. The signs of hemor-rhage were observed in the lung of hamsters injected with rLep-PAF-AH, but not in tissue samples from liver and kidney. Conclusion The LA2144 gene product was characterized by a stronger PAF-AH activity. The expression of LA2144 gene at mRNA and protein levels in various cell lines were enhanced during L. interro-gans infection. Moreover, the rLep-PAF-AH could induce the pulmonary hemorrhage in hamsters. This stud-y indicated that the protein encoded by LA2144 gene was an important virulence factor causing hemorrhage in hosts during L. interrogans infection.

Avaliação da expressão de PrPc na interação neurônio-glia, em astrócitos e os mecanismos de secreção de STI1 / Avaliation of PrPc expression in neuron-glia crosstalk, in astrocytes and the mechanisms of STI1 secretion

As funções fisiológicas da proteína prion (PrPc) estão sob ampla investigação e caracterização, especialmente as funções associadas ao desenvolvimento cerebral. Destaca-se que a associação de PrPc com Stress Inducible Protein 1 (STI1), induz neuritogênese e neuroproteção via proteína cinase extracelular reguladora (ERK) e proteína cinase dependente de AMPc (PKA) respectivamente. O presente estudo avaliou como a expressão de PrP cem astrócitos pode modular a interação neurônioglia e o papel de STI1 como um fator autócrino em astrócitos. PrPc modula a interação neurônio-glia, a produção de fatores tróficos solúveis e a organização da laminina secretada na matriz extracelular pelos astrócitos. Desta forma, a expressão de PrP ctanto em astrócitos quanto em neurônios é essencial para a neuritogênese e sobrevivência neuronal. O papel autócrino de STI1 em astrócitos também foi demonstrado. A interação PrPc-STI1 previne a morte celular por ativação da via de PKA, e ativa a diferenciação astrocitária, de uma forma protoplasmática para uma fibrosa pela indução de ERK1/2. De acordo com estes resultados, um menor grau de diferenciação é encontrado em camundongos deficientes para PrPc...

The physiological functions of PrPc are under intense investigation and characterization, particularly those associated with brain development. In neurons, the association of PrPc with its ligand, STI1, induces neuritogenesis and neuroprotection via ERK and PKA signaling pathways, respectively. The present study evaluated whether PrPc expression in astrocytes modulates neuron-glia crosstalk and the autocrine role of STI1 in astrocytes. PrPc modulates neuron-glia interaction, the production and secretion of soluble factors, and the organization of the laminin in the extracellular matrix. PrPc expression in neurons and astrocytes is essential to neuritogenesis and neuronal survival. The autocrine role of STI1 in astrocytes was also demonstrated. The PrPc-STI1 interaction prevents cell death in a PKA-dependent manner, and induces astrocyte differentiation, from a flat to a process-bearing morphology in an ERK1/2 dependent manner. We showed that PrPccnull astrocytes presented a slower rate of astrocyte maturation than wild-type ones, with reduced expression of GFAP and increased vimentin and nestin expression...