Temporal network based analysis of cell specific vein graft transcriptome defines key pathways and hub genes in implantation injury

Temporal network based analysis of cell specific vein graft transcriptome defines key pathways and hub genes in implantation injury

Vein graft failure occurs between 1 and 6 months after implantation due to obstructive intimal hyperplasia, related in part to implantation injury. The cell-specific and temporal response of the transcriptome to vein graft implantation injury was determined by transcriptional profiling of laser capt...

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Bibliographic Details
Published in:PloS one Vol. 7; no. 6; p. e39123
Main Authors: Bhasin, Manoj, Huang, Zhen, Pradhan-Nabzdyk, Leena, Malek, Junaid Y, LoGerfo, Philip J, Contreras, Mauricio, Guthrie, Patrick, Csizmadia, Eva, Andersen, Nicholas, Kocher, Olivier, Ferran, Christiane, LoGerfo, Frank W
Format: Journal Article
Language:English
Published: United States Public Library of Science 15-06-2012
Public Library of Science (PLoS)
Subjects:
Acids
Algorithms
Angiogenesis
Animals
Apoptosis
Back propagation
Bayesian analysis
Bioinformatics
Biology
Biomedical engineering
Cell cycle
Collagen
Dendritic cells
Dogs
Endothelial cells
Extracellular matrix
Gene expression
Genes
Genomics
Glucocorticoids
Graft rejection
Grafting
Grafts
Growth factors
Hyperplasia
Immune response
Implantation
Inflammation
Injury analysis
Injury prevention
Insulin
Interdisciplinary aspects
Interleukin 6
Interleukin 8
Medical schools
Medicine
Microscopy
Mitosis
Muscles
Myeloid cells
NF-κB protein
Pathogenesis
Pathways
Physicians
Principal components analysis
Proteomics
Quality Control
Signaling
Smooth muscle
Surgery
Transcription
Transcriptome
Vascular surgery
Veins & arteries
Veins - transplantation
United States > US
Massachusetts
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Summary:Vein graft failure occurs between 1 and 6 months after implantation due to obstructive intimal hyperplasia, related in part to implantation injury. The cell-specific and temporal response of the transcriptome to vein graft implantation injury was determined by transcriptional profiling of laser capture microdissected endothelial cells (EC) and medial smooth muscle cells (SMC) from canine vein grafts, 2 hours (H) to 30 days (D) following surgery. Our results demonstrate a robust genomic response beginning at 2 H, peaking at 12-24 H, declining by 7 D, and resolving by 30 D. Gene ontology and pathway analyses of differentially expressed genes indicated that implantation injury affects inflammatory and immune responses, apoptosis, mitosis, and extracellular matrix reorganization in both cell types. Through backpropagation an integrated network was built, starting with genes differentially expressed at 30 D, followed by adding upstream interactive genes from each prior time-point. This identified significant enrichment of IL-6, IL-8, NF-κB, dendritic cell maturation, glucocorticoid receptor, and Triggering Receptor Expressed on Myeloid Cells (TREM-1) signaling, as well as PPARα activation pathways in graft EC and SMC. Interactive network-based analyses identified IL-6, IL-8, IL-1α, and Insulin Receptor (INSR) as focus hub genes within these pathways. Real-time PCR was used for the validation of two of these genes: IL-6 and IL-8, in addition to Collagen 11A1 (COL11A1), a cornerstone of the backpropagation. In conclusion, these results establish causality relationships clarifying the pathogenesis of vein graft implantation injury, and identifying novel targets for its prevention.
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Conceived and designed the experiments: LP-N NA CF FWL. Performed the experiments: ZH JYM MC PG EC NA OK. Analyzed the data: MB PL LP-N. Contributed reagents/materials/analysis tools: MB PL OK FWL. Wrote the paper: MB LP-N PL CF FWL.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0039123