Fusion of a recombinant antibody fragment with a homo-amino-acid polymer: effects on biophysical properties and prolonged plasma half-life

doi:10.1093/protein/gzm020

PEDS Advance Access published online on June 26, 2007
Protein Engineering Design and Selection, doi:10.1093/protein/gzm020

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Fusion of a recombinant antibody fragment with a homo-amino-acid polymer: effects on biophysical properties and prolonged plasma half-life

Martin Schlapschy¹, Ina Theobald¹, Hildegard Mack¹, Margret Schottelius², Hans-Jürgen Wester² and Arne Skerra¹^,3

¹ Lehrstuhl für Biologische Chemie, Technische Universität München, 85350 Freising-Weihenstephan, Germany ² Nuklearmedizinische Klinik und Poliklinik, Klinikum rechts der Isar, Technische Universität München, 81675 München, Germany

³ To whom correspondence should be addressed. E-mail: skerra{at}wzw.tum.de

Chemical conjugation of small recombinant proteins with polyethyleneglycol (PEG) is an established strategy to extend their typicallyshort circulation times to a therapeutically useful range. Wehave investigated the production of a genetic fusion with aglycine-rich homo-amino-acid polymer (HAP) as an alternativeway to attach a solvated random chain with large hydrodynamicvolume. The anti-HER2 Fab fragment 4D5 was used as a model systemand fused with either 100 or 200 residue polymers of the repetitivesequence (Gly₄Ser)_n to its light chain. Both fusion proteinswere successfully produced in the periplasm of Escherichia coliand obtained as homogeneous preparations after two-step affinitychromatography via the His₆ tag fused to the heavy chain andthe Strep-tag II fused to the extended light chain. Both modifiedFab fragments showed binding activity towards the HER2 antigenindistinguishable from the conventional recombinant Fab fragment.When compared with the unfused Fab fragment, a significantlyincreased hydrodynamic volume, by ca. 120%, was observed duringgel filtration for the 200 residue HAP fusion protein and, toa lesser extent, in the case of the 100 residue HAP. DifferenceCD measurements revealed a characteristic random coil spectrumfor the 100 and 200 residue HAP fusion moieties. Finally, pharmacokineticexperiments were carried out in mice after radioiodination ofthe recombinant Fab fragments. Although the 100 residue HAPfusion showed a behavior very similar to the unfused Fab fragment,with a terminal plasma half-life of ca. 2 h, the 200 residueHAPylated Fab fragment gave rise to a significantly prolongedhalf-life of ca. 6 h. While this moderate effect may so farbe most beneficial for specialized medical applications, suchas in vivo imaging, the genetic engineering of optimized HAPsequences should yield pharmacokinetic properties similar toPEGylation, yet without necessitating in vitro modificationsteps.

Keywords: biopharmaceutical/hydrodynamic volume/kidney filtration/random coil/therapeutic protein

Received April 10, 2007; revised April 10, 2007; accepted April 17, 2007.

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