Integrated approach to elucidate metal-implant related adverse outcome pathways

Integrated approach to elucidate metal-implant related adverse outcome pathways

Exogenous metal particles and ions from implant devices are known to cause severe toxic events with symptoms ranging from adverse local tissue reactions to systemic toxicities, potentially leading to the development of cancers, heart conditions, and neurological disorders. Toxicity mechanisms, also...

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Bibliographic Details
Published in:Regulatory toxicology and pharmacology Vol. 136; p. 105277
Main Authors: Beasley, Jon-Michael T., Korn, Daniel R., Popov, Konstantin I., Dumproff, Reagan L., Sessions, Zoe L., Rath, Marielle K., Alves, Vinicius M., Causey, Kevin, Rua, Diego, Muratov, Eugene N., Tropsha, Alexander
Format: Journal Article
Language:English
Published: Elsevier Inc 01-12-2022
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Summary:Exogenous metal particles and ions from implant devices are known to cause severe toxic events with symptoms ranging from adverse local tissue reactions to systemic toxicities, potentially leading to the development of cancers, heart conditions, and neurological disorders. Toxicity mechanisms, also known as Adverse Outcome Pathways (AOPs), that explain these metal-induced toxicities are severely understudied. Therefore, we deployed in silico structure- and knowledge-based approaches to identify proteome-level perturbations caused by metals and pathways that link these events to human diseases. We captured 177 structure-based, 347 knowledge-based, and 402 imputed metal-gene/protein relationships for chromium, cobalt, molybdenum, nickel, and titanium. We prioritized 72 proteins hypothesized to directly contact implant surfaces and contribute to adverse outcomes. Results of this exploratory analysis were formalized as structured AOPs. We considered three case studies reflecting the following possible situations: (i) the metal-protein-disease relationship was previously known; (ii) the metal-protein, protein-disease, and metal-disease relationships were individually known but were not linked (as a unified AOP); and (iii) one of three relationships was unknown and was imputed by our methods. These situations were illustrated by case studies on nickel-induced allergy/hypersensitivity, cobalt-induced heart failure, and titanium-induced periprosthetic osteolysis, respectively. All workflows, data, and results are freely available in https://github.com/DnlRKorn/Knowledge_Based_Metallomics/. An interactive view of select data is available at the ROBOKOP Neo4j Browser at http://robokopkg.renci.org/browser/. •Adverse Outcome Pathways explaining metal-induced toxicities are understudied.•In silico approaches linked protein perturbation to metal-induced diseases.•Metal-gene/protein relationships for Cr, Co, Mo, Ni, Ti were imputed.•Results of this exploratory analysis were formalized as structured AOPs.
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content type line 23
ISSN:0273-2300
1096-0295
DOI:10.1016/j.yrtph.2022.105277