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.

PEGylation of antibody fragments for half-life extension.

Antibody fragments (Fab's) represent important structure for creating new therapeutics. Compared to full antibodies Fab' fragments possess certain advantages, including higher mobility and tissue penetration, ability to bind antigen monovalently and lack of fragment crystallizable (Fc) region-mediated functions such as antibody-dependent cell mediated cytotoxicity (ADCC) or complement-dependent cytotoxicity (CDC). The main drawback for the use of Fab's in clinical applications is associated with their short half-life in vivo, which is a consequence of no longer having the Fc region.

Reprint of: Influence of the protein oligomericity on final yield after affinity tag removal in purification of recombinant proteins.

The new aspect concerning the applicability of histidine and other affinity tags for the purification of oligomeric proteins, with particular emphasis on cleavage efficiency and final yield, is presented in this study. The final yield depends on both the cleavage efficiency and the degree of oligomerization of the protein. Cleavage procedures that are good enough for monomeric proteins can be problematic for oligomeric proteins.

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.

Identification of the heparin-binding domain of TNF-alpha and its use for efficient TNF-alpha purification by heparin-Sepharose affinity chromatography.

The N-terminus of the trimeric TNF-alpha molecule comprises two basic arginines within the short amino-acid sequence VRSSSR, which is here shown to be essential for binding of TNF-alpha to heparin-Sepharose. Mixed trimers containing full-length and DeltaN6-truncated subunits revealed a single VRSSSR sequence to be sufficient to achieve binding. On the basis of this newly identified heparin-binding domain, a new method for efficient purification of TNF-alpha is described.

Influence of the protein oligomericity on final yield after affinity tag removal in purification of recombinant proteins.

The new aspect concerning the applicability of histidine and other affinity tags for the purification of oligomeric proteins, with particular emphasis on cleavage efficiency and final yield, is presented in this study. The final yield depends on both the cleavage efficiency and the degree of oligomerization of the protein. Cleavage procedures that are good enough for monomeric proteins can be problematic for oligomeric proteins.

Improvement of potential therapeutic value of tumor necrosis-alpha (TNF-alpha) by charge modulation in the tip region.

Analysis of published data reveals that the introduction of more basic amino acid residues in the flexible N-terminal region of the human tumour necrosis factor alpha (TNF) molecule indicates a weak but consistent trend towards increased in vitro cytotoxicity, especially when the effect of N-terminal length is taken into account. In our laboratory, a series of TNF analogues with a charge modification in the tip region of the molecule was prepared, and cytotoxicity measured. Similar trends in cytotoxicity with increasing basicity of the TNF analogue were found in this study for two mouse cell lines, L929 and WEHI-164 clone 13-1, as well as for the human line KYM-1D4.

Attachment of histidine tags to recombinant tumor necrosis factor-alpha drastically changes its properties.

When studying two different histidine tags attached to the N-termini of the trimeric cytokine tumor necrosis factor alpha (TNF), the biological activity--measured as cytotoxicity on the L-929 cell line--of both tagged proteins was drastically reduced. The longer His10 tag reduced cytotoxicity to approximately 16% and the shorter His7 tag to 6% of the activity of their nontagged counterparts. After removal of the tags, biological activities reverted to the expected normal values, which clearly shows the key role of the attached histidine tags in diminishing biological activity.

Increased in vitro cytotoxicity of TNF-alpha analog LK-805 is based on the interaction with cell surface heparan sulfate proteoglycan.

Our tumor necrosis factor-alpha (TNF-alpha) analog LK-805 (E107K) exhibited twofold higher specific cytotoxicity on the mouse fibroblast L-929 cell line than its native counterpart. In addition, significantly lowered systemic toxicity was observed in tumor-bearing mouse models treated with this analog. Due to a charge reversal and clustering of three lysines in the exposed tip region of LK-805, we assumed that additional ionic interactions between the positively charged TNF analog and the negatively charged components of the cell surface were created, which might contribute to improved properties of LK-805.