Overexpression of membrane proteins from higher eukaryotes in yeasts

Heterologous expression and characterisation of the membrane proteins of higher eukaryotes is of paramount interest in fundamental and applied research. Due to the rather simple and well-established methods for their genetic modification and cultivation, yeast cells are attractive host systems for recombinant protein production. This review provides an overview on the remarkable progress, and discusses pitfalls, in applying various yeast host strains for high-level expression of eukaryotic membrane proteins. In contrast to the cell lines of higher eukaryotes, yeasts permit efficient library screening methods. Modified yeasts are used as high-throughput screening tools for heterologous membrane protein functions or as benchmark for analysing drug–target relationships, e.g., by using yeasts as sensors. Furthermore, yeasts are powerful hosts for revealing interactions stabilising and/or activating membrane proteins. We also discuss the stress responses of yeasts upon heterologous expression of membrane proteins. Through co-expression of chaperones and/or optimising yeast cultivation and expression strategies, yield-optimised hosts have been created for membrane protein crystallography or efficient whole-cell production of fine chemicals.     

Protein profile in Aspergillus nidulans recombinant strains overproducing heterologous enzymes

Filamentous fungi are robust cell factories and have been used for the production of large quantities of industrially relevant enzymes. However, the production levels of heterologous proteins still need to be improved. Therefore, this article aimed to investigate the global proteome profiling of Aspergillus nidulans recombinant strains in order to understand the bottlenecks of heterologous enzymes production. About 250, 441 and 424 intracellular proteins were identified in the control strain Anid_pEXPYR and in the recombinant strains Anid_AbfA and Anid_Cbhl respectively. In this context, the most enriched processes in recombinant strains were energy pathway, amino acid metabolism, ribosome biogenesis, translation, endoplasmic reticulum and oxidative stress, and repression under secretion stress (RESS). The global protein profile of the recombinant strains Anid_AbfA and Anid_Cbhl was similar, although the latter strain secreted more recombinant enzyme than the former. These findings provide insights into the bottlenecks involved in the secretion of recombinant proteins in A. nidulans, as well as in regard to the rational manipulation of target genes for engineering fungal strains as microbial cell factories.     

Efficient secretory production of large-size heterologous enzymes in Bacillus subtilis: A secretory partner and directed evolution

Secretory production of recombinant proteins provides a simple approach to the production and purification of target proteins in the enzyme industry. We developed a combined strategy for the secretory production of three large-size heterologous enzymes with a special focus on 83-kDa isoamylase (IA) from an archaeon Sulfolobus tokodaii in a bacterium Bacillus subtilis. First, a secretory protein of the B. subtilis family 5 glycoside hydrolase endoglucanase (Cel5) was used as a fusion partner, along with the NprB signal peptide, to facilitate secretory production of IA. This secretory partner strategy was effective for the secretion of two other large enzymes: family 9 glycoside hydrolase from Clostridium phytofermentas and cellodextrin phosphorylase from Clostridium thermocellum. Second, the secretion of Cel5-IA was improved by directed evolution with two novel double-layer Petri-dish-based high-throughput screening (HTS) methods. The high-sensitivity HTS relied on the detection of high-activity Cel5 on the carboxymethylcellulose/Congo-red assay. The second modest-sensitivity HTS focused on the detection of low-activity IA on the amylodextrin-I₂ assay. After six rounds of HTS, a secretory Cel5-IA level was increased to 234 mg/L, 155 times the wild-type IA with the NprB signal peptide only. This combinatory strategy could be useful to enhance the secretory production of large-size heterologous proteins in B. subtilis.     

Recombinant Hansenula polymorpha as a biocatalyst: coexpression of the spinach glycolate oxidase (GO) and the S. cerevisiae catalase T (CTT1) gene

 The methylotrophic yeast Hansenula polymorpha has been developed as an efficient production system for heterologous proteins. The system offers the possibility to cointegrate heterologous genes in anticipated fixed copy numbers into the chromosome. As a consequence coproduction of different proteins in stoichiometric ratios can be envisaged. This provides options to design this yeast as an industrial biocatalyst in procedures where several enzymes are required for the efficient conversion of a given inexpensive compound into a valuable product. To this end recombinant strains have been engineered with multiple copies of expression cassettes containing the glycolate oxidase (GO) gene from spinach and the catalase T (CTT1) gene from S. cerevisiae. The newly created strains produce high levels of the peroxisomal glycolate oxidase and the cytosolic catalase T. The strains efficiently convert glycolate into glyoxylic acid, oxidizing the added substrate and decomposing the peroxide formed during this reaction into water and oxygen. Received: 31 October 1995/Received last revision: 23 February 1996/Accepted: 4 March 1996     

Comparison of two expression platforms in respect to protein yield and quality: Pichia pastoris versus Pichia angusta

The methylotrophic yeasts Pichia pastoris and Pichia angusta (Hansenula polymorpha) were used for the comparative heterologous production of two model mammalian proteins of pharmaceutical interest, the NK1-fragment (22 kDa) of human hepatocyte growth factor and the extracellular domain (28 kDa) of mouse tissue factor (MTF). Both recombinant proteins were engineered to contain an N-terminal Strep- (WSHPQFEK) and a C-terminal His₆-tag. In addition, both proteins contained the pre-pro-sequence of Saccharomyces cerevisiae mating factor alpha to allow secretion. Following vector construction, transformation and zeocin amplification, the best Pichia producers were identified in a screening procedure using Western blot and a Luminex xMAP™ based high-throughput method. Recombinant NK1-fragment and MTF were purified from culture supernatants of the best producers by affinity chromatography (Ni–nitrilotriacetic acid columns). Using P. pastoris as a host for the synthesis of NK1-fragment a protein yield of 5.7 mg/l was achieved. In comparable expression experiments P. angusta yielded 1.6 mg/l of NK1-fragment. NK1-fragment apparently was not glycosylated in either system. For the production of MTF, P. pastoris was also the superior host yielding 1.2 mg/l glycosylated recombinant protein whereas P. angusta was clearly less efficient (<0.2 mg/l MTF). For both expression systems no correlation between the amount of recombinant protein and the copy number of the chromosomally integrated heterologous genes was found. In P. pastoris strains less degradation of the two model recombinant proteins was observed. Altogether, this paper provides a structured protocol for rapidly identifying productive Pichia strains for the synthesis of full-length recombinant proteins.     

Heterologous interferons synthesis in yeast <Emphasis Type="Italic">Pichia pastoris</Emphasis>

The HuIFNA16, HuIFNB1, and BoIFNG genes encoding human α16, β-interferons and bovine γ-interferon were cloned under the control of the yeast Pichia pastoris AOX1 gene promoter. The yeast strains producing heterologous interferons intracellularly and extracellularly were constructed. There was no effect of high level of heterologous protein synthesis on the yeast P. pastoris cell growth, unlike yeast Saccharomyces cerevisiae. The considerable part of the heterologous interferons was detected in the yeast P. pastoris soluble protein fraction but not in the “inclusion bodies.” The treatment of human β-interferon with endoglycosidase H showed that protein was expressed in glycosylated and unglycosylated forms. On the strength of these data, the hypothesis was suggested that the more effective heterologous gene expression in yeast P. pastoris and enhanced resistance of the methylotrophic yeast to negative effects of recombinant proteins was due to the special features of its metabolism.     

Recombinant Protein Expression in <Emphasis Type="Italic">Leishmania tarentolae</Emphasis>

A variety of recombinant protein expression systems have been developed for heterologous genes in both prokaryotic and eukaryotic systems such as bacteria, yeast, mammals, insects, transgenic animals, and plants. Recently Leishmania tarentolae, a trypanosomatid protozoan parasite of the white-spotted wall gecko (Tarentola annularis), has been suggested as candidate for heterologous genes expression. Trypanosomatidae are rich in glycoproteins, which can account for more than 10% of total protein; the oligosaccharide structures are similar to those of mammals with N-linked galactose, and fucose residues. To date several heterologous proteins have been expressed in L. tarentolae including both cytoplasmic enzymes and membrane receptors. Significant advances in the development of new strains and vectors, improved techniques, and the commercial availability of those tools coupled with a better understanding of the biology of Leishmania species will lead to value and power in commercial and research labs alike.     

Study of the persistence and dynamics of recombinant mCherry-producing Yarrowia lipolytica strains in the mouse intestine using fluorescence imaging

Yarrowia lipolytica is a dimorphic oleaginous non-conventional yeast widely used as a powerful host for expressing heterologous proteins, as well as a promising source of engineered cell factories for various applications. This microorganism has a documented use in Feed and Food and a GRAS (generally recognized as safe) status. Moreover, in vivo studies demonstrated a beneficial effect of this yeast on animal health. However, despite the focus on Y. lipolytica for the industrial manufacturing of heterologous proteins and for probiotic effects, its potential for oral delivery of recombinant therapeutic proteins has seldom been evaluated in mammals. As the first steps towards this aim, we engineered two Y. lipolytica strains, a dairy strain and a laboratory strain, to produce the model fluorescent protein mCherry. We demonstrated that both Y. lipolytica strains transiently persisted for at least 1 week after four daily oral administrations and they maintained the active expression of mCherry in the mouse intestine. We used confocal microscopy to image individual Y. lipolytica cells of freshly collected intestinal tissues. They were found essentially in the lumen and they were rarely in contact with epithelial cells while transiting through the ileum, caecum and colon of mice. Taken as a whole, our results have shown that fluorescent Y. lipolytica strains constitute novel tools to study the persistence and dynamics of orally administered yeasts which could be used in the future as oral delivery vectors for the secretion of active therapeutic proteins in the gut.     

Bovine gamma-interferon nuclear localization sequence provides translocation of recombinant protein to yeast <Emphasis Type="Italic">Pichia pastoris</Emphasis> cell nucleus

It is known that the expression of heterologous protein production in microorganisms has a negative influence on the host cell. Therefore, to utilize microorganisms for production of recombinant proteins it is necessary the follow the fate of recombinant proteins in cells. In this study, we constructed a modified bovine IFNG gene that encodes interferon with ten amino-acid deletions at the C-terminal. We also generated genetic constructs that ensured the expression of native and modified bovine IFNG fused with GFP gene in yeast Pichia pastoris. The expression of IFN-γ/GFP and IFN-γ(Δ10)/GFP chimeric proteins showed that bovine IFN-γ nuclear localization signal was functioned in yeast cells. The absence of these proteins leads to the cytoplasmic accumulation of recombinant protein.     

快速筛选高效表达重组蛋白毕赤酵母菌株新方法的建立及评价

毕赤酵母是当前应用最为广泛的重组蛋白表达系统之一,文中建立了一种快速筛选高效表达重组蛋白的毕赤酵母菌株的新方法。首先,对内质网转膜蛋白Sec63融合表达增强型绿色荧光蛋白EGFP的改造菌株GS115-E表达重组蛋白的能力进行检测;之后将携带不同拷贝数的植酸酶phy基因或木聚糖酶xyn基因的质粒转化进入GS115-E中,得到具有不同植酸酶或木聚糖酶表达水平的重组菌株,分别检测不同菌株的EGFP与重组蛋白的表达水平;最后,利用分选型流式细胞仪,根据绿色荧光值的高低对包含不同植酸酶表达水平的重组菌株的菌群进行分选。结果显示重组菌株中EGFP的荧光值与重组蛋白的活性表达水平之间具有良好的线性相关性(0.8|R|1),且利用流式细胞仪可高效地从混合菌群中筛选得到高产菌株,所分选得到的高荧光菌株在摇瓶发酵120 h时植酸酶表达水平是低荧光菌株的4.09倍。本方法通过检测菌株的EGFP荧光值代替检测重组蛋白的表达水平和活性,从而实现高表达菌株的筛选,大大提高了其应用的便捷性及通用性。与流式细胞仪、液滴微流控等高通量筛选仪器或技术结合将进一步提高筛选的速度与通量,为筛选获得高效表达重组蛋白的毕赤酵母菌株提供了简便、快速的新途径。     

Disruption of genes involved in CORVET complex leads to enhanced secretion of heterologous carboxylesterase only in protease deficient Pichia pastoris

The methylotrophic yeast Pichia pastoris (Komagataella spp.) is a popular microbial host for the production of recombinant proteins. Previous studies have shown that mis‐sorting to the vacuole can be a bottleneck during production of recombinant secretory proteins in yeast, however, no information was available for P. pastoris. In this work the authors have therefore generated vps (vacuolar protein sorting) mutant strains disrupted in genes involved in the CORVET (class C core vacuole/endosome tethering) complex at the early stages of endosomal sorting. Both Δvps8 and Δvps21 strains contained lower extracellular amounts of heterologous carboxylesterase (CES) compared to the control strain, which could be attributed to a high proteolytic activity present in the supernatants of CORVET engineered strains due to rerouting of vacuolar proteases. Serine proteases were identified to be responsible for this proteolytic degradation by liquid chromatography‐mass spectrometry and protease inhibitor assays. Deletion of the major cellular serine protease Prb1 in Δvps8 and Δvps21 strains did not only rescue the extracellular CES levels, but even outperformed the parental CES strain (56 and 80% higher yields, respectively). Further deletion of Ybr139W, another serine protease, did not show a further increase in secretion levels. Higher extracellular CES activity and low proteolytic activity were detected also in fed batch cultivation of Δvps21Δprb1 strains, thus confirming that modifying early steps in the vacuolar pathway has a positive impact on heterologous protein secretion.     

过表达PDI对毕赤酵母分泌淀粉样蛋白的影响——以胱抑素为例

[目的] 本研究旨在结合酵母菌蛋白质二硫键异构酶（protein disulfide isomerase,PDI）与其底物蛋白鸡胱抑素C （chicken cystatin C,cC）在酵母中的共表达,理解PDI影响外源蛋白合成与表达的调控规律。运用转录组深度测序技术（RNA-Seq）筛选差异基因,调取并鉴定影响cC表达的关键基因,为解析外源蛋白高效表达机制,改造工程菌株提供理论支撑。[方法] 以巴斯德毕赤酵母GS115、GS115-cC为出发菌株,采用电转的方法将携带PDI编码基因的载体pPIC3.5K转入到GS115/GS115-cC菌株,使其在菌株中过表达,研究过表达PDI对cC表达的影响。采用RNA-Seq深度测序方法,研究重组毕赤酵母基因表达差异情况。并结合KEGG注释结果对数据进行分析,挑选差异显著表达基因进行验证,初步明确其在蛋白表达调控方面的功能。[结果] 本研究通过构建过表达PDI重组毕赤酵母菌株,使得外源蛋白cC的表达量显著增加。利用RNA-seq技术分析过表达PDI菌株与正常菌株的差异,最终筛选了373个差异表达基因,其中有122个差异基因注释到KEGG生物通路,包括12个基因注释到蛋白质转运和分解代谢途径,21个基因注释到蛋白质折叠分选和降解途径,以及24个基因参与蛋白质的翻译途径等。[结论] 在毕赤酵母中过表达PDI能显著增加外源蛋白cC的表达量。通过对过表达与正常表达PDI的毕赤酵母基因的表达谱分析,初步确定了其中一些转录情况变化显著的基因,明确了它们参与的细胞途径和信号通路,为改造具有高效率表达淀粉样蛋白的酵母菌株奠定基础。     

Sugar metabolism, redox balance and oxidative stress response in the respiratory yeast Kluyveromyces lactis

A lot of studies have been carried out on Saccharomyces cerevisiae, an yeast with a predominant fermentative metabolism under aerobic conditions, which allows exploring the complex response induced by oxidative stress. S. cerevisiae is considered a eukaryote model for these studies. We propose Kluyveromyces lactis as a good alternative model to analyse variants in the oxidative stress response, since the respiratory metabolism in this yeast is predominant under aerobic conditions and it shows other important differences with S. cerevisiae in catabolic repression and carbohydrate utilization. The knowledge of oxidative stress response in K. lactis is still a developing field. In this article, we summarize the state of the art derived from experimental approaches and we provide a global vision on the characteristics of the putative K. lactis components of the oxidative stress response pathway, inferred from their sequence homology with the S. cerevisiae counterparts. Since K. lactis is also a well-established alternative host for industrial production of native enzymes and heterologous proteins, relevant differences in the oxidative stress response pathway and their potential in biotechnological uses of this yeast are also reviewed.     

毕赤酵母液滴微流控高通量筛选方法的建立与应用

巴斯德毕赤酵母是当前应用最为方便和广泛的外源蛋白表达系统之一,为了进一步提高其表达外源蛋白的能力,文中建立了基于液滴微流控的毕赤酵母高通量筛选方法,并以木聚糖酶融合荧光蛋白为例,筛选获得木聚糖酶表达和分泌能力提高的突变株。通过PCR扩增得到木聚糖酶xyn5基因和绿色荧光蛋白gfp基因融合片段,并克隆到毕赤酵母表达载体pPIC9K中构建出木聚糖酶融合绿色荧光蛋白的质粒pPIC9K-xyn5-gfp,电转化至毕赤酵母GS115中得到表达木聚糖酶和绿色荧光蛋白的毕赤酵母SG菌株。该菌株经过常压室温等离子体诱变后进行单细胞液滴包埋,液滴培养24h后进行微流控筛选,获得高表达木聚糖酶的突变菌株,进而用于下一轮的诱变突变库构建和筛选。以此类推,经过5轮液滴微流控筛选,获得一株高产菌株SG-m5,其木聚糖酶活为149.17U/mg,较出发菌株提升300%,分泌外源蛋白的能力较出发菌株提高160%。文中建立的毕赤酵母单细胞液滴微流控高通量筛选方法能达到每小时10万菌株的筛选通量,筛选百万级别的菌株库仅需10h,消耗荧光试剂体积100μL,对比传统的微孔板筛选方法降低试剂成本近百万倍,为高效、低成本筛选获得表达和分泌外源蛋白能力提高的毕赤酵母提供了一条新途径。     

Pichia surface display: display of proteins on the surface of glycoengineered Pichia pastoris strains

Expression of proteins on the surface of yeasts has a wide range of applications in biotechnology, such as directed evolution of proteins for increased affinity and thermal stability, screening of antibody libraries, epitope mapping, and use as whole-cell biocatalysts. However, hyperglycosylation can interfere with overall protein accessibility on the surface. Therefore, the less elaborate hyperglycosylation in wild type Pichia pastoris and the availability of glycoengineered strains make this yeast an excellent alternative for surface display of glycoproteins. Here, we report the implementation of the well-established a-agglutinin-based yeast surface display technology in P. pastoris. Four heterologous proteins were expressed on the surface of a wild type and a glycoengineered strain. Surface display levels were monitored by Western blot, immunofluorescence microscopy, and FACS analysis. The availability of glycoengineered strains makes P. pastoris an excellent alternative for surface display of glycoproteins and paves the way for new applications. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Enhanced heterologous protein production in Pichia pastoris under increased air pressure

Pichia pastoris is a widely used host for the production of heterologous proteins. In this case, high cell densities are needed and oxygen is a major limiting factor. The increased air pressure could be used to improve the oxygen solubility in the medium and to reach the high oxygen demand of methanol metabolism. In this study, two P. pastoris strains producing two different recombinant proteins, one intracellular (β‐galactosidase) and other extracellular (frutalin), were used to investigate the effect of increased air pressure on yeast growth in glycerol and heterologous protein production, using the methanol AOX1‐inducible system. Experiments were carried out in a stainless steel bioreactor under total air pressure of 1 bar and 5 bar. The use of an air pressure raise of up to 5 bar proved to be applicable for P. pastoris cultivation. Moreover, no effects on the kinetic growth parameters and methanol utilization (Mut) phenotype of strains were found, while an increase in recombinant β‐galactosidase‐specific activity (ninefold) and recombinant frutalin production was observed. Furthermore, the air pressure raise led to a reduction in the secreted protease specific activity. This work shows for the first time that the application of an air pressure of 5 bar may be used as a strategy to decrease protease secretion and improve recombinant protein production in P. pastoris. © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 30:1040–1047, 2014     

Screening of engineered Pichia pastoris mutant with enhanced production of a functional rFIP-glu protein and investigating its potential bioactivities

An engineered Pichia pastoris GS115 with a FIP-glu gene was mutated using ultraviolet (UV) radiation, and a high-throughput screening method was established for screening of high-yield strains. Meanwhile, a preliminary study was conducted to determine the bioactivity of the rFIP-glu. Based on OD₆₀₀ value and the mortality of engineered P. pastoris GS115, the best UV irradiation time was determined. Bradford method and SDS-PAGE method were employed to analyze the concentration and yield of rFIP-glu. Melanoma B16 cells were employed to evaluate the biological activities of rFIP-glu in vitro. Results showed that the protein yield of the best mutant #4-336 screened from 3680 mutant strains increased from 242 to 469 μg ml⁻¹. In vitro assays of biological activity indicated that rFIP-glu had significant toxicity and possessed the ability to affect melanin content and enhance tyrosinase activity in B16 cells. In conclusion, an effective high-throughput screening approach was established for screening mutant strains. The screened mutant possesses a good ability to enhance the production of rFIP-glu, and recombinant proteins display a better biological activity on melanoma B16 cells. The engineered P. pastoris mutant seems promising as a potential source for industrial production of rFIP-glu and should be a candidate industrial strain for further study.     

Expression system of CotA-laccase for directed evolution and high-throughput screenings for the oxidation of high-redox potential dyes

Laccases are useful biocatalysts for many diverse biotechnological applications. In this study we have established efficient and reliable expression systems and high-throughput screenings for the recombinant CotA-laccase from Bacillus subtilis. The expression levels of cotA-laccase were compared in five different Escherichia coli host strains growing in 96-well microtiter plates under different culture conditions. Lower coefficients of variance (around 15%) were achieved using crude cell lysates of BL21 and KRX host strains growing under microaerobic conditions. Reproducible high-throughput screenings for the decolorization of high redox potential azo and anthraquinonic dyes were developed and optimized for identification of variants with increased redox potential. The enzymatic assays developed were tested for the screening of one mutant library from CotA-laccase created by error-prone PCR.     

The fluorescent protein iLOV as a reporter for screening of high-yield production of antimicrobial peptides in Pichia pastoris

The methylotrophic yeast Pichia pastoris is commonly used for the production of recombinant proteins at scale. The identification of an optimally overexpressing strain following transformation can be time and reagent consuming. Fluorescent reporters like GFP have been used to assist identification of superior producers, but their relatively big size, maturation requirements and narrow temperature range restrict their applications. Here, we introduce the use of iLOV, a flavin-based fluorescent protein, as a fluorescent marker to identify P. pastoris high-yielding strains easily and rapidly. The use of this fluorescent protein as a fusion partner is exemplified by the production of the antimicrobial peptide NI01, a difficult target to overexpress in its native form. iLOV fluorescence correlated well with protein expression level and copy number of the chromosomally integrated gene. An easy and simple medium-throughput plate-based screen directly following transformation is demonstrated for low complexity screening, while a high-throughput method using fluorescence-activated cell sorting (FACS) allowed for comprehensive library screening. Both codon optimization of the iLOV_NI01 fusion cassettes and different integration strategies into the P. pastoris genome were tested to produce and isolate a high-yielding strain. Checking the genetic stability, process reproducibility and following the purification of the active native peptide are eased by visualization of and efficient cleavage from the iLOV reporter. We show that this system can be used for expression and screening of several different antimicrobial peptides recombinantly produced in P. pastoris.     

Large-scale purification of the proton pumping pyrophosphatase from Thermotoga maritima: A “Hot-Solve” method for isolation of recombinant thermophilic membrane proteins

Although several proton-pumping pyrophosphatases (H⁺-PPases) have been overexpressed in heterologous systems, purification of these recombinant integral membrane proteins in large amounts in order to study their structure-function relationships has proven to be a very difficult task. In this study we report a new method for large-scale production of pure and stable thermophilic H⁺-PPase from Thermotoga maritima. Following overexpression in yeast, a “Hot-Solve” procedure based on high-temperature solubilization and metal-affinity chromatography was used to obtain a highly purified detergent-solubilized TVP fraction with a yield around 1.5 mg of protein per litre of yeast culture. Electron microscopy showed the monodispersity of the purified protein and single particle analysis provided the first direct evidence of a dimeric structure for H⁺-PPases. We propose that the method developed could be useful for large-scale purification of other recombinant thermophilic membrane proteins.