Selection of cell‐type specific antibodies on tissue‐sections using phage display

With the advent of modern technologies enabling single cell analysis, it has become clear that small sub‐populations of cells or even single cells can drive the phenotypic appearance of tissue, both diseased and normal. Nucleic acid based technologies allowing single cell analysis has been faster to...

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Bibliographic Details
Published in:Journal of cellular and molecular medicine 2015-08, Vol.19 (8), p.1939-1948
Main Authors: Larsen, Simon Asbjørn, Meldgaard, Theresa, Lykkemark, Simon, Mandrup, Ole Aalund, Kristensen, Peter
Format: Article
Language:English
Subjects:
Adult
Angiogenesis
Antibody libraries
Antibody Specificity - immunology
Antigens
Bioindicators
Biomarkers
Cardiovascular disease
Cell Line
Cloning
Diabetic retinopathy
E coli
Endothelial cells
Enzyme-Linked Immunosorbent Assay
Experiments
Formaldehyde
Genomes
Humans
Immunoglobulin Fragments - immunology
Immunoglobulins
Immunohistochemistry
Microenvironments
Morphology
Original
Paraffin Embedding
Peptide Library
Phage display
Phages
Proteomes
rare cells
recombinant antibody selection
Reproducibility of Results
Smooth muscle
Stem cells
Technology
tissue
Tissue analysis
Tissue Fixation - methods
Tissues
Ultraviolet radiation
vascular targeting
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Summary:With the advent of modern technologies enabling single cell analysis, it has become clear that small sub‐populations of cells or even single cells can drive the phenotypic appearance of tissue, both diseased and normal. Nucleic acid based technologies allowing single cell analysis has been faster to mature, while technologies aimed at analysing the proteome at a single cell level is still lacking behind, especially technologies which allow single cell analysis in tissue. Introducing methods, that allows such analysis, will pave the way for discovering new biomarkers with more clinical relevance, as these may be unique for microenvironments only present in tissue and will avoid artifacts introduced by in vitro studies. Here, we introduce a technology enabling biomarker identification on small sub‐populations of cells within a tissue section. Phage antibody libraries are applied to the tissue sections, followed by washing to remove non‐bound phage particles. To eliminate phage antibodies binding to antigens ubiquitously expressed and retrieve phage antibodies binding specifically to antigens expressed by the sub‐population of cells, the area of interest is protected by a ‘shadow stick’. The phage antibodies on the remaining areas on the slide are exposed to UV light, which introduces cross‐links in the phage genome, thus rendering them non‐replicable. In this work we applied the technology, guided by CD31 expressing endothelial cells, to isolate recombinant antibodies specifically binding biomarkers expressed either by the cell or in the microenvironment surrounding the endothelial cell.
ISSN:1582-1838
1582-4934
DOI:10.1111/jcmm.12568