Hepatitis B surface antigen (HBsAg) expression in plant cell culture: Kinetics of antigen accumulation in batch culture and its intracellular form

Smith, Mark L.; Mason, Hugh S.; Shuler, Michael L.

doi:10.1002/bit.10444

Cited by 93 publications

(68 citation statements)

References 42 publications

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“…Dimers are then transported to the post-ER, pre-Golgi compartment where oligomerization and VLP formation occur prior to secretion [56]. For plant systems, HBsAg dimer formation was demonstrated by Western blot of protein extracts from cultured plant cells [53,57] and from infiltrated leaves [58], indicating that plants can provide a suitable environment for correct processing of HBsAg. The ability of plant-produced HBsAg to assemble VLPs was determined by sucrose gradients and electron microscopy.…”

Section: Hepatitis B Surface Antigen (Hbsag)mentioning

confidence: 99%

See 1 more Smart Citation

Virus-like particles production in green plants

Santi¹,

Huang²,

Mason³

2006

Methods

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Viruses like particles (VLPs), assembled from capsid structural subunits of several different viruses, have found a number of biomedical applications such as vaccines and novel delivery systems for nucleic acids and small molecules. Production of recombinant proteins in different plant systems has been intensely investigated and improved upon in the last two decades. Plant derived antibodies, vaccines, and microbicides have received great attention and shown immense promise. In the case of mucosal vaccines, orally delivered plant produced VLPs require minimal processing of the plant tissue, thus offering an inexpensive and safe alternative to more conventional live attenuated and killed virus vaccines. For other applications which require higher level of purification, recent progress in expression levels using plant viral vectors have shown that plants can compete with traditional fermentation systems. In this review the different methods used in the production of VLPs in green plants are described. Specific examples of expression, assembly, and immunogenicity of several plant-derived VLPs are presented.

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Section: Hepatitis B Surface Antigen (Hbsag)mentioning

confidence: 99%

“…Production of HBsAg in plant cell culture systems has also been attempted. The yield of HBsAg approached 22 mg/L in soybean culture while it was one tenth of that in tobacco culture [53]. NT1 cell lines were used to express S gene either with or without a C-terminal ER retention signal [54].…”

Section: Hepatitis B Surface Antigen (Hbsag)mentioning

confidence: 99%

Virus-like particles production in green plants

Santi¹,

Huang²,

Mason³

2006

Methods

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“…In tobacco cell suspension cultures, HBsAg production achieved 2 µg g -1 of HBsAg fresh weight [29]. Cell suspension cultures of soybean were reported to produce a maximum of 20-22 mg L -1 of HBsAg [30]. Constitutive expression of HBsAg in recombinant Saccharomyces cerevisiae generated approximately 10 mg L -1 by fed-batch fermentation [18].…”

Section: Discussionmentioning

confidence: 99%

Two-phase fed-batch modification for 48 hour peak expression of hepatitis B surface antigen in Pichia pastoris shake flask system

Tam¹,

Allaudin²,

Rezaei³

et al. 2014

Open Life Sciences

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A study of the Mut + phenotype for the expression of recombinant hepatitis B surface antigen (HBsAg) in Pichia pastoris strain GS115 using the pPIC3.5K vector with a two-phase fed-batch protocol in a shake flask system is described. Expression levels of HBsAg protein of 6.74 g L -1 Dry Cell Weight (DCW) and 26.07 mg L -1 of HBsAg concentration were achieved 48 h from the induction point which added to a 120 h reduction in production period in comparison with Mut S expression (168 h). The use of the pPIC3.5K-HBsAg plasmid in the Mut + phenotype enhanced the expression of HBsAg by a nearly 13 times higher volumetric productivity in the first 24 h and 35 times higher at peak production concentration. Comparison of AOX expression cassettes relative to the HBsAg gene in the role of mRNA secondary structure during translation initiation revealed that HBsAg possesses lower folding stability with AOX1 Mut + phenotype. The results from this study demonstrated that expression of HBsAg with Mut + AOX1 promoter is adequate as an alternative for the production of HBsAg. In addition, the AOX promoter of the Mut + phenotype was observed to be better suited for HBsAg expression, which correlates with the ease of translation initiation under shake flask conditions.

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“…Besides using different plants, Shekhawat et al (2010) (Smith et al, 2002) this study proved promising for further investigations of stable HBsAg expression in suspension cells of sandalwood.…”

Section: Hepatitis Bmentioning

confidence: 99%

“…Since the first reported plant-made HB Ag in A. tumefaciens strain LBA4404-transformated tobacco by Mason et al (1992) there has been a huge research on expressing major HBV viral proteins. Recombinant HBsAg has been expressed in lupine and lettuce (Kapusta et al, 1999), carrot suspension cells (Zhao et al, 2002), soybean (Smith et al, 2002), peanut (Chen et al, 2002), tomato (Ma et al, 2002;Carolina and Francisco, 2004;Wang and Li, 2008;Srinivas et al, 2008), cherry tomatillo (Gao et al, 2003;Guan et al, 2010), potato (Shulga et al, 2004), banana (Sunil-Kumar et al, 2005), apple core and leaves and tomato (Lou et al, 2005), NT-1 cells of tobacco (Sunil-Kumar et al, 2007) and lettuce (Kostrzak et al, 2011). Chen et al (2002) reported a high level expression of HBsAg in peanut, obtained by Agrobacterium-mediated transformation, with the yield of 2.42 µg HBsAg/g of fresh weight.…”

Section: Hepatitis Bmentioning

confidence: 99%

Production of vaccines for treatment of infectious diseases by transgenic plants

Ledl

Luthar

2016

AAS

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Since the first pathogen antigen was expressed in transgenic plants with the aim of producing edible vaccine in early 1990s, transgenic plants have become a well-established expression system for production of alternative vaccines against various human and animal infectious diseases. The main focus of plant expression systems in the last five years has been on improving expression of well-studied antigens such as porcine reproductive and respiratory syndrome (PRRSV), bovine viral diarrhea disease virus (BVDV), footh and mouth disease virus (FMDV), hepatitis B surface antigen (HBsAg), rabies G protein, rotavirus, Newcastle disease virus (NDV), Norwalk virus capsid protein (NVCP), avian influenza virus H5N1, Escherichia coli heat-labile enterotoxin subunit B (LT-B), cholera toxin B (CT-B), human immunodeficiency virus (HIV), artherosclerosis, ebola and anthrax. Significant increases in expression have been obtained using improved expression vectors, different plant species and transformation methods.Key words: transgenic plants; vaccine production; recombinant proteins; antibodies; infectious diseases; risk assessment IZVLEČEK ZDRAVLJENJE NALEZLJIVIH BOLEZNI S CEPIVI PRIDOBLJENIMI S TRANSGENIMI RASTLINAMIPridobivanje aktivnih sestavin za cepiva s transgenimi rastlinami se je začelo v devetdesetih letih prejšnjega stoletja. Od takrat se transgene rastline uveljavljajo kot alternativni ekspresijski sistem za sintezo aktivnih komponent za cepiva proti številnim humanim in živalskim nalezljivim boleznim. V zadnjih petih letih je bil glavni poudarek razvoja namenjen optimizaciji rastlinskih ekspresijskih sistemov za dobro proučene antigene, kot so virus prašičjega respiratornega in reproduktivnega sindroma, virus goveje virusne diareje, virus parkljevke, površinski antigen hepatitisa B, G protein virusa stekline, rotavirus, virus atipične kokošje kuge, plaščni protein Norwalk virusa, sev ptičje gripe H5N1, temperaturno nestabilna B podenota enterotoksina Escherischia coli, kolera toksin B, HIV, arterioskleroza, ebola in antraks. Uporaba optimiziranih transformacijskih metod in ekspresijskih vektorjev v kombinaciji s primerno izbrano rastlinsko vrsto je v večini naštetih primerov vodila do opaznega izboljšanja sinteze posameznih učinkovin.

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Hepatitis B surface antigen (HBsAg) expression in plant cell culture: Kinetics of antigen accumulation in batch culture and its intracellular form

Cited by 93 publications

References 42 publications

Virus-like particles production in green plants

Virus-like particles production in green plants

Two-phase fed-batch modification for 48 hour peak expression of hepatitis B surface antigen in Pichia pastoris shake flask system

Production of vaccines for treatment of infectious diseases by transgenic plants

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