New assay for quantification of PEGylated proteins during in vitro permeability studies.

One of the major challenges when analyzing very low amounts of PEGylated proteins is finding a sensitive analytical method. Immunoassays are most frequently used, however, conjugation can partially or completely mask protein epitopes, which can substantially lower the response and influence the quantitation range. Here we describe a novel assay that allows quantification of low amounts of PEGylated or differently conjugated proteins. The basic principle is similar to the classic sandwich ELISA but there are no antibodies used neither for capture nor for detection. Instead, Ni(2+) chelation is exploited for capture and affinity between streptavidin and biotin for the detection step. The usefulness of the assay was proven in permeation studies (Caco-2 cell model) using diversely conjugated TNF-a protein. This approach could be extended to numerous other proteins eliminating the need to develop a separate assay for each protein/project.

Cysteine-specific PEGylation of rhG-CSF via selenylsulfide bond.

A new PEGylation reagent enabling selective modification of free thiol groups is described in this article. The reagent was synthesized by attaching linear polyethylene glycol (PEG) N-hydroxysuccinimide to selenocystamine. The reaction was very fast, resulting in over 95% conversion yield. The active group of this new PEG-Se reagent is a diselenide, reacting with thiols via thiol/diselenide exchange reaction. Recombinant human granulocyte colony-stimulating factor (rhG-CSF) with an unpaired cysteine at the position 18 (Cys18) was used as a model protein. It was comparatively PEGylated with the new PEG-Se reagent, as well as with commercially available maleimide (PEG-Mal) and ortho-pyridyl disulfide (PEG-OPSS) PEG reagents. The highest PEGylation yield was obtained with PEG-Mal, followed by PEG-OPSS and PEG-Se. The reaction rates of PEG-Mal and PEG-Se were comparable, while the reaction rate of PEG-OPSS was lower. Purified monoPEGylated rhG-CSF conjugates were characterized and compared. Differences in activity, stability, and in vivo performance were observed, although all conjugates contained a 20 kDa PEG attached to the Cys18. Minor conformational changes were observed in the conjugate prepared with PEG-Mal. These changes were also reflected in low in vitro biological activity and aggregate formation of the maleimide conjugate. The conjugate prepared with PEG-Se had the highest in vitro biological activity, while the conjugate prepared with PEG-OPSS had the best in vivo performance.

The Characterization and Potential use of G-CSF Dimers and their Pegylated Conjugates.

G-CSF successfully prevents chemotherapy-induced neutropenia. Two second-generation drugs with improved therapeutic properties are already available and the development of new forms is still ongoing. For an efficient receptor dimerization two G-CSF molecules have to bind. Development of G-CSF dimers acting as receptor dimerizers was explored and their potential use evaluated. The in vitro biological activities of the prepared dimers were lower than G-CSF monomer activity, presumably due to non-optimal spatial orientation of the molecules. Most likely two dimers had to bind to trigger receptor dimerization instead of one dimer acting as a dimerizer. Although significantly lower in the residual in vitro biological activity, the diPEG-Fdim conjugate exhibited pharmacokinetical (PK) and pharmacodynamical (PD) properties comparable to pegfilgrastim or even better. An interesting PD profile with the second maximum in absolute neutrophil count (ANC) and a balanced elevated ANC profile over the longer time interval was namely observed.

Beta-lactamase reporter system for selecting high-producing yeast clones.

In modern production of protein biopharmaceuticals, a good screening and selection method of high-producing clones can dramatically influence the whole production process and lead to lower production costs. We have created a rapid, simple, and inexpensive method for selecting high-producing clones in the yeast Pichia pastoris that is based on the beta-lactamase reporter system. By integrating the reporter gene and the gene of interest into the same genome locus, it was possible to use beta-lactamase activity as a measure of the expression level of the protein of interest. A novel expression vector with two independent expression cassettes was designed and tested using green fluorescent protein (GFP) as a model. The first cassette contained the GFP gene under the control of a strong, inducible AOX1 promoter, while the second cassette consisted of the beta-lactamase reporter gene under the control of a weak constitutive YPT1 promotor. High-producing GFP clones were selected directly on the plates based on the color change after hydrolysis of the beta-lactamase substrate added to the medium. beta-lactamase activity was found to positively correlate with GFP fluorescence. The reporter system described is widely applicable-it can be easily applied to other, also pharmaceutically relevant proteins and to other yeast expression systems, such as Saccharomyces cerevisiae and Hansenula polymorpha.