Comparing in vitro affinity measurements of antibodies to TfR1: Surface plasmon resonance versus on-cell affinity.

Despite years of utilizing the transferrin receptor 1 (TfR1) to transport large biomolecules into the brain, there is no consensus on how to optimally measure affinity to it. The aim of this study was to compare different methods for measuring the affinities of anti-TfR1 antibodies. Antibodies 15G11, OX26 and 8D3 are known to successfully carry large biologics across the blood-brain barrier in humans, rats, and mice, respectively.

Generation and evaluation of antibody agents for molecular imaging of CD44v6-expressing cancers.

Aim: The aim of this study was to generate and characterize scFv antibodies directed to human CD44v6, as well as to radiolabel and evaluate top candidates and for their potential use in CD44v6-targeted molecular imaging in cancer patients.

Materials And Methods: Phage display selections were used to isolate CD44v6-specific scFvs. A chain shuffling strategy was employed for affinity maturation based on a set of CD44v6-specific first-generation clones.

TRIM28 Controls a Gene Regulatory Network Based on Endogenous Retroviruses in Human Neural Progenitor Cells.

Endogenous retroviruses (ERVs), which make up 8% of the human genome, have been proposed to participate in the control of gene regulatory networks. In this study, we find a region- and developmental stage-specific expression pattern of ERVs in the developing human brain, which is linked to a transcriptional network based on ERVs. We demonstrate that almost 10,000, primarily primate-specific, ERVs act as docking platforms for the co-repressor protein TRIM28 in human neural progenitor cells, which results in the establishment of local heterochromatin.

Generation of anti-Notch antibodies and their application in blocking Notch signalling in neural stem cells.

Notch signalling occurs via direct cell-cell interactions and plays an important role in linking the fates of neighbouring cells. There are four different mammalian Notch receptors that can be activated by five cell surface ligands. The ability to inhibit specific Notch receptors would help identify the roles of individual family members and potentially provide a means to study and control cell differentiation.

Targeted protein pullout from human tissue samples using competitive elution.

One commonly used strategy to gain information on the proteins in a cell is to isolate the proteins of interest by specific binders, often antibodies. Not only the specificity of the capturing antibodies but also the washing and elution conditions are crucial to avoid false-positive protein identifications. Eluting the target protein from the matrix, while avoiding the release of unrelated background proteins, should both provide more correct information on the target protein and its interaction partners, and minimize the effort to perform downstream analyses through the reduced number of eluted proteins.

Approaches for systematic proteome exploration.

With the completion of the human genome project (HUGO) during recent years, gene function, protein abundance and expression patterns in tissues and cell types have emerged as central areas for the scientific community. A mapped human proteome will extend the value of the genome sequence and large-scale efforts aiming at elucidating protein localization, abundance and function are invaluable for biomarker and drug discovery. This research area, termed proteomics, is more demanding than any genome sequencing effort and to perform this on a wide scale is a highly diverse task.

A human protein atlas for normal and cancer tissues based on antibody proteomics.

Antibody-based proteomics provides a powerful approach for the functional study of the human proteome involving the systematic generation of protein-specific affinity reagents. We used this strategy to construct a comprehensive, antibody-based protein atlas for expression and localization profiles in 48 normal human tissues and 20 different cancers. Here we report a new publicly available database containing, in the first version, approximately 400,000 high resolution images corresponding to more than 700 antibodies toward human proteins.

Selective enrichment of monospecific polyclonal antibodies for antibody-based proteomics efforts.

A high stringency protocol, suitable for systematic purification of polyclonal antibodies, is described. The procedure is designed to allow the generation of target protein-specific antibodies suitable for functional annotation of proteins. Antibodies were generated by immunization with recombinantly produced affinity-tagged target proteins.

An improved dual-expression concept, generating high-quality antibodies for proteomics research.

A novel, improved dual bacterial-expression system, designed for large-scale generation of high-quality polyclonal antibody preparations intended for proteomics research, is presented. The concept involves parallel expression of cDNA-encoded proteins, as a fusion with two different tags in two separate vector systems. Both systems enable convenient blotting procedures for expression screening on crude bacterial cell cultures and single-step affinity purification under denaturing conditions.

Single-vector three-frame expression systems for affinity-tagged proteins.

An effort is presented to create expression vectors which would allow expression of an inserted gene fragment in three reading frames in a single vector from a single promoter but with three separate ribosome binding sites (RBS). Each expression frame would generate an in-frame fusion with an affinity tag to allow efficient recovery of the produced fusion proteins. In the first generation vector, three identical polyhistidyl tags (His(6)) were used as affinity tags for the three expression frames.

A novel affinity gene fusion system allowing protein A-based recovery of non-immunoglobulin gene products.

An expression vector system has been developed, taking advantage of a novel, Staphylococcus aureus protein A (SPA)-binding affinity tag Z(SPA-1), enabling straightforward affinity blotting procedures and efficient recovery by affinity purification of expressed gene products on readily available reagents and chromatography media. The 58 amino acid SPA-binding affinity tag Z(SPA-1), was previously selected from a library constructed by combinatorial mutagenesis of a protein domain from SPA. An Escherichia coli expression vector for intracellular T7 promoter (P(T7)) driven production was constructed with an N-terminal dual affinity tag, consisting of a hexahistidyl (His(6)) tag in frame with the Z(SPA-1) tag, thus allowing alternative affinity recovery methods.

A high-stringency proteomics concept aimed for generation of antibodies specific for cDNA-encoded proteins.

A novel dual bacterial expression system, designed for high-throughput generation of antibodies specific for cDNA-encoded proteins, is presented. The concept involves parallel expression of cDNA-encoded proteins, in two vector systems, as fusions with two different tags, both enabling single-step affinity purification under denaturing conditions. One of the fusion tags includes a portion with documented immunopotentiating effect to stimulate antibody production, and the generated fusion proteins are used to elicit antibodies.