Mehdi Sahmani1, Siavash Azari2, Majid Tebianian3, Nematollah Gheibi4, Farzaneh Pourasgari3. 1. Department of Clinical Biochemistry and Genetics, Cellular and Molecular Research Center, Qazvin University of Medical Sciences, Qazvin, Iran. 2. Department of Biotechnology, School of Paramedical Sciences, Qazvin University of Medical Sciences, Qazvin, Iran. 3. Department of Biotechnology, Razi Vaccine and Serum Research Institute, Karaj, Iran. 4. Cellular and Molecular Research Center, Qazvin University of Medical Sciences, Qazvin, Iran.
Abstract
BACKGROUND: Rotavirus group A (RVA) is recognized as a major cause of severe gastroenteritis in children and new-born animals. Nonstructural protein 4 (NSP4) is responsible for the enterotoxic activity of these viruses in the villus epithelial cells. Amino acids 114-135 of NSP4 are known to form the diarrhea-inducing region of this viral enterotoxin. Therefore, developing an NSP4 lacking the enterotoxin domain could result in the introduction of a new subunit vaccine against rotaviruses in both humans and animals. OBJECTIVES: The aim of this study is the evaluation of rotavirus A NSP4 expression in E. coli expression system before and after removal of the diarrhea-inducing domain, which is the first step towards further immunological studies of the resulting protein. MATERIALS AND METHODS: Splicing by overlap extension (SOEing) PCR was used to remove the diarrhea-inducing sequence from the NSP4 cDNA. Both the full-length (FL-NSP4) and the spliced (S-NSP4) cDNA amplicons were cloned into pET-32c and pGEX-6P-2. Expression levels of the recombinant proteins were evaluated in E. coli BL21 (DE3) by Western blot analysis. In addition, the toxicity of pET plasmids bearing the S-NSP4 and FL-NSP4 fragments was investigated by plasmid stability test. RESULTS: For FL-NSP4, protein expression was detected for the strain containing the pGEX:FL-NSP4 plasmid, but not for the strain carrying pET:FL-NSP4. Hourly sampling up to 3 h showed that the protein production decreased by time. In contrast, expression of S-NSP4 was detected for pET:S-NSP4 strain, but not for pGEX:S-NSP4. Plasmid stability test showed that pET:S-NSP4 recombinant plasmid was almost stable, while pET:FL-NSP4 was unstable. CONCLUSIONS: This is the first report of production of rotavirus NSP4 lacking the diarrhea-inducing domain (S-NSP4). SNSP4 shows less toxicity in this expression system and potentially could be a promising goal for rotavirus immunological and vaccine studies in the future.
BACKGROUND:Rotavirus group A (RVA) is recognized as a major cause of severe gastroenteritis in children and new-born animals. Nonstructural protein 4 (NSP4) is responsible for the enterotoxic activity of these viruses in the villus epithelial cells. Amino acids 114-135 of NSP4 are known to form the diarrhea-inducing region of this viral enterotoxin. Therefore, developing an NSP4 lacking the enterotoxin domain could result in the introduction of a new subunit vaccine against rotaviruses in both humans and animals. OBJECTIVES: The aim of this study is the evaluation of rotavirus ANSP4 expression in E. coli expression system before and after removal of the diarrhea-inducing domain, which is the first step towards further immunological studies of the resulting protein. MATERIALS AND METHODS: Splicing by overlap extension (SOEing) PCR was used to remove the diarrhea-inducing sequence from the NSP4 cDNA. Both the full-length (FL-NSP4) and the spliced (S-NSP4) cDNA amplicons were cloned into pET-32c and pGEX-6P-2. Expression levels of the recombinant proteins were evaluated in E. coli BL21 (DE3) by Western blot analysis. In addition, the toxicity of pET plasmids bearing the S-NSP4 and FL-NSP4 fragments was investigated by plasmid stability test. RESULTS: For FL-NSP4, protein expression was detected for the strain containing the pGEX:FL-NSP4 plasmid, but not for the strain carrying pET:FL-NSP4. Hourly sampling up to 3 h showed that the protein production decreased by time. In contrast, expression of S-NSP4 was detected for pET:S-NSP4 strain, but not for pGEX:S-NSP4. Plasmid stability test showed that pET:S-NSP4 recombinant plasmid was almost stable, while pET:FL-NSP4 was unstable. CONCLUSIONS: This is the first report of production of rotavirusNSP4 lacking the diarrhea-inducing domain (S-NSP4). SNSP4 shows less toxicity in this expression system and potentially could be a promising goal for rotavirus immunological and vaccine studies in the future.
Authors: K Johansen; J Hinkula; F Espinoza; M Levi; C Zeng; U Rudén; T Vesikari; M Estes; L Svensson Journal: J Med Virol Date: 1999-11 Impact factor: 2.327
Authors: G D Bowman; I M Nodelman; O Levy; S L Lin; P Tian; T J Zamb; S A Udem; B Venkataraghavan; C E Schutt Journal: J Mol Biol Date: 2000-12-15 Impact factor: 5.469