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Key driver genes as potential therapeutic targets in renal allograft rejection

Zhengzi Yi, Karen Keung, Li Li, Min Hu, Bo Lü, Leigh Nicholson, Elvira Jimenez‐Vera, Madhav C. Menon, Chengguo Wei, Stephen I. Alexander, Barbara Murphy, Philip J. O’Connell, Weijia Zhang

2020JCI Insight13 citationsDOIOpen Access PDF

Abstract

Acute rejection (AR) in renal transplantation is an established risk factor for reduced allograft survival. Molecules with regulatory control among immune pathways of AR that are inadequately suppressed, despite standard-of-care immunosuppression, could serve as important targets for therapeutic manipulation to prevent rejection. Here, an integrative, network-based computational strategy incorporating gene expression and genotype data of human renal allograft biopsy tissue was applied, to identify the master regulators - the key driver genes (KDGs) - within dysregulated AR pathways. A 982-meta-gene signature with differential expression in AR versus non-AR was identified from a meta-analysis of microarray data from 735 human kidney allograft biopsy samples across 7 data sets. Fourteen KDGs were derived from this signature. Interrogation of 2 publicly available databases identified compounds with predicted efficacy against individual KDGs or a key driver-based gene set, respectively, which could be repurposed for AR prevention. Minocycline, a tetracycline antibiotic, was chosen for experimental validation in a murine cardiac allograft model of AR. Minocycline attenuated the inflammatory profile of AR compared with controls and when coadministered with immunosuppression prolonged graft survival. This study demonstrates that a network-based strategy, using expression and genotype data to predict KDGs, assists target prioritization for therapeutics in renal allograft rejection.

Topics & Concepts

ImmunosuppressionMedicineTransplantationKidney transplantationMicroarray analysis techniquesGene expressionBioinformaticsGeneImmunologyBiologyInternal medicineBiochemistryRenal Transplantation Outcomes and TreatmentsHIV Research and TreatmentCytomegalovirus and herpesvirus research
Key driver genes as potential therapeutic targets in renal allograft rejection | Litcius