Escherichia coli surface display for the selection of nanobodies.

Nanobodies (Nbs) are the smallest functional antibody fragments known in nature and have multiple applications in biomedicine or environmental monitoring. Nbs are derived from the variable segment of camelid heavy chain-only antibodies, known as VHH. For selection, libraries of VHH gene segments from naïve, immunized animals or of synthetic origin have been traditionally cloned in E. coli phage display or yeast display systems, and clones binding the target antigen recovered, usually from plastic surfaces with the immobilized antigen (phage display) or using fluorescence-activated cell sorting (FACS; yeast display). This review briefly describes these conventional approaches and focuses on the distinct properties of an E. coli display system developed in our laboratory, which combines the benefits of both phage display and yeast display systems. We demonstrate that E. coli display using an N-terminal domain of intimin is an effective platform for the surface display of VHH libraries enabling selection of high-affinity Nbs by magnetic cell sorting and direct selection on live mammalian cells displaying the target antigen on their surface. Flow cytometry analysis of E. coli bacteria displaying the Nbs on their surface allows monitoring of the selection process, facilitates screening, characterization of antigen-binding clones, specificity, ligand competition and estimation of the equilibrium dissociation constant (KD).Spanish Ministerio de Economía y CompetitividadEuropean Research CouncilPeer reviewe

Construction and characterization of a bispecific diabody for retargeting T cells to human carcinomas

We describe the construction of a recombinant bispecific antibody fragment in the diabody format with specificity for both the well-established human pancarcinoma associated target antigen EGP2 (epithelial glycoprotein 2, also known as the CO 17-1A antigen or KSA) and the CD3 epsilon chain of human TCR/CD3 complex. The murine anti-ECP2 (MOC31) single chain variable fragment (scFv) and the humanized anti-CD3 (Ucht1v9) scFv were cast into a diabody format (designated Dia5v9) using a short 5 amino acid Gly-Ser linker between immunoglobulin heavy-chain and light-chain variable domains. Purification of the poly-histidine tagged Dia5v9 was achieved from extracts of protease deficient Escerichia coli by IMAC chromatography. The Dia5v9 diabody showed strong binding to both EGP2 and CD3 in transfected cells. The in vitro efficacy of Dia5v9 in mediating tumor cell lysis by interleukin-2 activated human T cells appeared to be similar to that of the hybrid-hybridoma-derived BsF(ab')(2) Bis1 (anti-EGP2/anti-CD3) in a standard 4-hr Cr-51-release assay. This small and partially humanized recombinant bispecific antibody fragment may be valuable for T-cell-based immuno-therapeutical treatment protocols, retargeting activated peripheral blood T lymphocytes to lyse various human carcinomas in vivo. (C) 1998 Wiley-Liss, Inc.</p

Diverting a protein from its cellular location by intracellular antibodies: The case of p21Ras

We describe the use of phage libraries to derive new antibodies against p21Ras to be used for intracellular expression in mammalian cells. A panel of single-chain antibody fragments, binding to Ras, were analyzed and characterized for their capacity to interfere in vitro with (a) the intrinsic GTPase activity of Ras and (b) the binding of Ras to its effector Raf, and were found not to neutralize its function, according to these biochemical criteria. When expressed intracellularly in mouse 3T3 K-Ras transformed cells all the anti-Ras single-chain variable fragments (scFv) tested inhibited cell proliferation, as assessed by bromodeoxyuridine incorporation. Double immunofluorescence analysis of transfected cells using confocal microscopy confirmed that anti-Ras antibody fragments colocalize with endogenous Ras, at subcellular locations where the protein Ras is not normally found. These data suggest that the ability of phage-derived anti-Ras scFv fragments to inhibit the function of Ras in vivo is a rather general and frequent property and that the range of antibodies that can be successfully used for intracellular inhibition studies is much greater than anticipated, exploiting the mode of action of diverting protein traffic

Intrathymic function of the human cortical epithelial cell surface antigen gp200-MR6: single-chain antibodies to evolutionarily conserved determinants disrupt mouse thymus development

The mouse monoclonal antibody MR6 recognizes a 200 000 MW protein (gp200-MR6), which is expressed highly on human thymic cortical epithelial cells. The antigen is also expressed on some epithelial tumours and we have previously shown that MR6 inhibits the proliferation of the colon carcinoma cell lines HT29. However, the role of this molecule in the thymus is not known. In order to generate reagents that could be used in murine thymic functional studies we isolated antibodies specific to human gp200-MR6, using a phage display library expressing single-chain (sFv) antibodies. Three independent clones were isolated by panning with purified protein and their specificity was confirmed by immunohistochemistry, Western blotting and flow cytometry. In addition to human thymus, these phage antibodies also recognized the homologous antigen in mouse, pig and other species. Expressed as soluble sFv one of these clones inhibited the proliferation of HT29 cells and a mouse thymic epithelial cell line, suggesting that this antibody exhibits similar functional activity to MR6. In fetal thymic organ culture, thymocytes recovered from thymic lobes cultured in the presence of this sFv, were reduced in number fivefold compared with the control and the majority remained at the double-negative stage of development. These data indicate that gp200-MR6 plays an important role in thymocyte development. In addition, this is the first report to demonstrate that specific sFv can be used to study, and alter, thymic development. This work also highlights the advantage of phage antibody technology in selecting such reagents for functional assays