Abstract
Protein microarrays have been successfully used for detection of allergen-specific IgE in patient sera. Here, we demonstrate proof-of-concept of a solid-phase technique coupling the high-throughput potential of protein microarrays with the biologically relevant readout provided by IgE reporter cells, creating a novel allergic sensitization detection system. Three proteins (κ-casein, timothy grass pollen extract, polyclonal anti-human IgE) were printed onto three different polymer-coated surfaces (aldehyde-, epoxy- and NHS ester-coated). ToF–SIMs analysis was performed to assess printed protein stability and retention during washing steps. NFAT-DsRed rat basophil leukemia cell attachment and retention during washing steps was assessed after treatment with various extracellular matrix proteins. NFAT-DsRed IgE reporter cells were sensitized with serum of an allergic donor, incubated on the printed slides, and cell activation determined using a microarray laser scanner. NFAT DsRed IgE reporter cell binding was significantly increased on all polymer surfaces after incubation with fibronectin and vitronectin, but not collagen or laminin. All surfaces supported printed protein stability during washing procedure, with epoxy- and NHS ester-coated surfaces showing best protein retention. Cell activation was significantly higher in NHS ester-coated slides after timothy grass pollen extract stimulation appearing a suitable substrate for further development of an automated allergy diagnosis system.
Highlights
Protein microarrays have been successfully used for detection of allergen-specific Immunoglobulin E (IgE) in patient sera
Allergies are typically diagnosed initially by the taking of a detailed medical history, followed by a physical examination. This is complemented by specific skin prick tests (SPT) and serum immunoassays, which are performed to detect and quantitatively measure allergen-specific IgE antibodies in human s erum[4]
NHS ester-coated slides showed the lowest levels of cell attachment even in the presence of vitronectin and fibronectin
Summary
Protein microarrays have been successfully used for detection of allergen-specific IgE in patient sera. Three proteins (κ-casein, timothy grass pollen extract, polyclonal anti-human IgE) were printed onto three different polymer-coated surfaces (aldehyde-, epoxy- and NHS ester-coated). NFAT-DsRed IgE reporter cells were sensitized with serum of an allergic donor, incubated on the printed slides, and cell activation determined using a microarray laser scanner. Cell activation was significantly higher in NHS ester-coated slides after timothy grass pollen extract stimulation appearing a suitable substrate for further development of an automated allergy diagnosis system. Allergies are typically diagnosed initially by the taking of a detailed medical history, followed by a physical examination This is complemented by specific skin prick tests (SPT) and serum immunoassays, which are performed to detect and quantitatively measure allergen-specific IgE (sIgE) antibodies in human s erum[4]. Standardization was difficult, due to inconsistencies in source materials and production processes, which led to considerable variation in r esults[6,7]
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