Intrabody construction and expression III: Engineering hyperstable VH domains

PETER WIRTZ; BORIS STEIPE

doi:10.1110/ps.8.11.2245

Abstract

The folding of immunoglobulin domains requires the formation of a conserved structural disulfide. Therefore, as a general rule, they cannot be functionally expressed in the reducing environment of the cellular cytoplasm. We have previously reported that stability engineering can lead to the cytoplasmic expression of functional immunoglobulin VL domains. Here we apply rational stability engineering by consensus sequence analysis to VH domains. Isolated VH domains tend to aggregate more easily than VL domains; they do not refold quantitatively and are generally more difficult to handle in vitro. To overcome these problems, we successfully predicted and experimentally verified several stabilizing point mutations in the VH domain of a designed, catalytic Fv fragment. The effect of single mutations was additive, and they could be combined in a prototype domain with significantly improved stability against chemical denaturation and a 20-fold increased half time of irreversible thermal denaturation, at physiological temperature. This stabilized, isolated VH domain could be expressed solubly in the reducing cellular cytoplasm of Escherichia coli, at a yield of approximately 1.2 mg/L of shake flask culture. It remains fully functional, as evidenced by the successful reconstitution of an esterolytic Fv fragment with the VL domain. This success provides further evidence that consensus sequence engineering is a rational, plannable route to the construction of intrabodies.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Ohage, Ettore C Wirtz, Peter Barnikow, Jan and Steipe, Boris 1999. Intrabody construction and expression. II. A synthetic catalytic Fv fragment. Journal of Molecular Biology, Vol. 291, Issue. 5, p. 1129.

Ohage, Ettore and Steipe, Boris 1999. Intrabody construction and expression. I. The critical role of VL domain stability. Journal of Molecular Biology, Vol. 291, Issue. 5, p. 1119.

Lehmann, M. Pasamontes, L. Lassen, S.F. and Wyss, M. 2000. The consensus concept for thermostability engineering of proteins. Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology, Vol. 1543, Issue. 2, p. 408.

Scott, Emily E. Paster, Eden V. and Olson, John S. 2000. The Stabilities of Mammalian Apomyoglobins Vary over a 600-Fold Range and Can Be Enhanced by Comparative Mutagenesis. Journal of Biological Chemistry, Vol. 275, Issue. 35, p. 27129.

Rath, Arianna and Davidson, Alan R. 2000. The design of a hyperstable mutant of the Abp1p SH3 domain by sequence alignment analysis. Protein Science, Vol. 9, Issue. 12, p. 2457.

Lehmann, Martin and Wyss, Markus 2001. Engineering proteins for thermostability: the use of sequence alignments versus rational design and directed evolution. Current Opinion in Biotechnology, Vol. 12, Issue. 4, p. 371.

Bach, Horacio Mazor, Yariv Shaky, Shelly Shoham-Lev, Atar Berdichevsky, Yevgeny Gutnick, David L and Benhar, Itai 2001. Escherichia coli maltose-binding protein as a molecular chaperone for recombinant intracellular cytoplasmic single-chain antibodies 1 1Edited by R. Huber. Journal of Molecular Biology, Vol. 312, Issue. 1, p. 79.

Wörn, Arne and Plückthun, Andreas 2001. Stability engineering of antibody single-chain Fv fragments. Journal of Molecular Biology, Vol. 305, Issue. 5, p. 989.

Visintin, Michela Settanni, Giovanni Maritan, Amos Graziosi, Sergio Marks, James D and Cattaneo, Antonino 2002. The intracellular antibody capture technology (IACT): towards a consensus sequence for intracellular antibodies. Journal of Molecular Biology, Vol. 317, Issue. 1, p. 73.

Tse, Eric Lobato, M.Natividad Forster, Alan Tanaka, Tomoyuki Chung, Grace T.Y and Rabbitts, Terence H 2002. Intracellular antibody capture technology: application to selection of intracellular antibodies recognising the BCR-ABL oncogenic protein. Journal of Molecular Biology, Vol. 317, Issue. 1, p. 85.

Lehmann, Martin Loch, Claudia Middendorf, Anke Studer, Dominik Lassen, Søren F. Pasamontes, Luis van Loon, Adolphus P.G.M. and Wyss, Markus 2002. The consensus concept for thermostability engineering of proteins: further proof of concept. Protein Engineering, Design and Selection, Vol. 15, Issue. 5, p. 403.

Piatesi, Andrea and Hilvert, Donald 2002. Optimized production of the Diels-Alderase antibody 1E9 as a chimeric Fab. Canadian Journal of Chemistry, Vol. 80, Issue. 6, p. 657.

Hugo, Nicolas Lafont, Virginie Beukes, Mervyn and Altschuh, Danièle 2002. Functional aspects of co‐variant surface charges in an antibody fragment. Protein Science, Vol. 11, Issue. 11, p. 2697.

Bradbury, Andrew Velappan, Nileena Verzillo, Vittorio Ovecka, Milan Chasteen, Leslie Sblattero, Daniele Marzari, Roberto Lou, Jianlong Siegel, Robert and Pavlik, Peter 2003. Antibodies in proteomics I: generating antibodies. Trends in Biotechnology, Vol. 21, Issue. 6, p. 275.

Ewert, Stefan Huber, Thomas Honegger, Annemarie and Plückthun, Andreas 2003. Biophysical Properties of Human Antibody Variable Domains. Journal of Molecular Biology, Vol. 325, Issue. 3, p. 531.

Bradbury, Andrew Velappan, Nileena Verzillo, Vittorio Ovecka, Milan Chasteen, Leslie Sblattero, Daniele Marzari, Roberto Lou, Jianlong Siegel, Robert and Pavlik, Peter 2003. Antibodies in proteomics II: screening, high-throughput characterization and downstream applications. Trends in Biotechnology, Vol. 21, Issue. 7, p. 312.

Jespers, Laurent Schon, Oliver James, Leo C. Veprintsev, Dmitri and Winter, Greg 2004. Crystal Structure of HEL4, a Soluble, Refoldable Human VH Single Domain with a Germ-line Scaffold. Journal of Molecular Biology, Vol. 337, Issue. 4, p. 893.

Steipe, Boris 2004. Protein Engineering. Vol. 388, Issue. , p. 176.

Bonnin, Emmanuelle and Teillaud, Jean-Luc 2004. Antibodies. p. 169.

Nygren, Per-Åke and Skerra, Arne 2004. Binding proteins from alternative scaffolds. Journal of Immunological Methods, Vol. 290, Issue. 1-2, p. 3.

Download full list

Article contents

Intrabody construction and expression III: Engineering hyperstable VH domains

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Intrabody construction and expression III: Engineering hyperstable VH domains

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests