Single-chain variable antibody fragments (scFvs) are molecules with immense therapeutic and diagnostic potential. Knowledge of their three-dimensional structure is important for understanding their antigen-binding mode as well as for protein-engineering approaches such as antibody humanization. A major obstacle to the crystallization of single-chain variable antibody fragments is their relatively poor homogeneity caused by spontaneous oligomerization. A new approach to optimization of the crystallizability of single-chain variable antibody fragments is demonstrated using a representative single-chain variable fragment derived from the anti-CD3 antibody MEM-57. A Thermofluor-based assay was utilized to screen for optimal conditions for antibody-fragment stability and homogeneity. Such an optimization of the protein storage buffer led to a significantly improved ability of the scFv MEM-57 to yield crystals.

• Keywords
• Thermofluor assay, crystallizability optimization, crystallization, differential scanning fluorimetry, oligomerization, single-chain antibody fragment,
• MeSH
• Chromatography, Gel MeSH
• Single-Chain Antibodies chemistry   MeSH
• Crystallization * MeSH
• Humans MeSH
• Molecular Sequence Data MeSH
• Amino Acid Sequence MeSH
• Check Tag
• Humans MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• Single-Chain Antibodies MeSH

The design, development and clinical success of HIV protease inhibitors represent one of the most remarkable achievements of molecular medicine. This review describes all nine currently available FDA-approved protease inhibitors, discusses their pharmacokinetic properties, off-target activities, side-effects, and resistance profiles. The compounds in the various stages of clinical development are also introduced, as well as alternative approaches, aiming at other functional domains of HIV PR. The potential of these novel compounds to open new way to the rational drug design of human viruses is critically assessed.

• Keywords
• HAART, HIV protease, alternative inhibitors, pharmacokinetic boosting, protease dimerization, protease inhibitors, resistance development,
• Publication type
• Journal Article MeSH