Ailsa J. Dalgliesh scite author profile

Removal of antigenic components from candidate xenogeneic biomaterials is the primary success criteria for development of extracellular matrix (ECM) scaffolds in tissue engineering applications. Currently, the threshold level of residual biomaterial antigenicity required to overcome recipient graft-specific adaptive immune responses is unknown. Additionally, the extent to which the innate immune response tolerates changes to the native ECM, resulting from the ECM scaffold production process, has yet to be determined. This manuscript not only establishes the threshold for tolerable residual antigenicity, but also demonstrates that deviations in protein organization are tolerated by the innate immune system, provided macromolecular structure remains intact. In doing so, we provide the foundation of an immunologically-acceptable unfixed xenogeneic biomaterial for use in clinical applications.

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Cardiac extracellular matrix proteomics: Challenges, techniques, and clinical implications

Chang

Dalgliesh

López

et al. 2015

Proteomics Clinical Apps

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Extracellular matrix (ECM) has emerged as a dynamic tissue component, providing not only structural support, but also functionally participating in a wide range of signaling events during development, injury and disease remodeling. Investigation of dynamic changes in cardiac ECM proteome is challenging due to the relative insolubility of ECM proteins, which results from their macromolecular nature, extensive post-translational modifications and tendency to form protein complexes. Finally, the relative abundance of cellular and mitochondrial proteins in cardiac tissue further complicates cardiac ECM proteomic approaches. Recent developments of various techniques to enrich and analyze ECM proteins are playing a major role in overcoming these challenges. Application of cardiac ECM proteomics in disease tissues can further provide spatial and temporal information relevant to disease diagnosis, prognosis, treatment and engineering of therapeutic candidates for cardiac repair and regeneration.

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Antigenicity of Bovine Pericardium Determined by a Novel Immunoproteomic Approach

Gates

Dalgliesh

Griffiths

2017

Sci Rep

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Despite bovine pericardium (BP) being the primary biomaterial used in heart valve bioprostheses, recipient graft-specific immune responses remain a significant cause of graft failure. Consequently, tissue antigenicity remains the principal barrier for expanding use of such biomaterials in clinical practice. We hypothesize that our understanding of BP antigenicity can be improved by application of a combined affinity chromatography shotgun immunoproteomic approach to identify antigens that have previously been overlooked. Liquid Chromatography Tandem Mass Spectrometry (LC-MS/MS) analysis of affinity chromatography purified antigens resulted in identification of 133 antigens. Most importantly, antigens were identified from all subcellular locations, including 18 integral membrane protein antigens. Critically, isoforms of several protein families were found to be antigenic suggesting the possibility that shared epitope domains may exist. Furthermore, proteins associated with immune, coagulation, and inflammatory pathways were over-represented, suggesting that these biological processes play a key role in antigenicity. This study brings to light important determinants of antigenicity in a clinically relevant xenogeneic biomaterial (i.e. BP) and further validates a rapid, high-throughput method for immunoproteomic antigen identification.

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