Kidney International Reports (Jan 2020)

Predicting and Defining Steroid Resistance in Pediatric Nephrotic Syndrome Using Plasma Proteomics

  • Shipra Agrawal,
  • Michael L. Merchant,
  • Jiro Kino,
  • Ming Li,
  • Daniel W. Wilkey,
  • Adam E. Gaweda,
  • Michael E. Brier,
  • Melinda A. Chanley,
  • Jessica R. Gooding,
  • Susan J. Sumner,
  • Jon B. Klein,
  • William E. Smoyer,
  • John Mahan,
  • Hiren Patel,
  • Richard F. Ransom,
  • Cynthia Pan,
  • Denis F. Geary,
  • Myra L. Chang,
  • Keisha L. Gibson,
  • Franca M. Iorember,
  • Patrick D. Brophy,
  • Tarak Srivastava,
  • Larry A. Greenbaum

Journal volume & issue
Vol. 5, no. 1
pp. 66 – 80

Abstract

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Introduction: Nephrotic syndrome (NS) is a characterized by massive proteinuria, edema, hypoalbuminemia, and dyslipidemia. Glucocorticoids (GCs), the primary therapy for >60 years, are ineffective in approximately 50% of adults and approximately 20% of children. Unfortunately, there are no validated biomarkers able to predict steroid-resistant NS (SRNS) or to define the pathways regulating SRNS. Methods: We performed proteomic analyses on paired pediatric NS patient plasma samples obtained both at disease presentation before glucocorticoid initiation and after approximately 7 weeks of GC therapy to identify candidate biomarkers able to either predict steroid resistance before treatment or define critical molecular pathways/targets regulating steroid resistance. Results: Proteomic analyses of 15 paired NS patient samples identified 215 prevalent proteins, including 13 candidate biomarkers that predicted SRNS before GC treatment, and 66 candidate biomarkers that mechanistically differentiated steroid-sensitive NS (SSNS) from SRNS. Ingenuity Pathway Analyses and protein networking pathways approaches further identified proteins and pathways associated with SRNS. Validation using 37 NS patient samples (24 SSNS/13 SRNS) confirmed vitamin D binding protein (VDB) and APOL1 as strong predictive candidate biomarkers for SRNS, and VDB, hemopexin (HPX), adiponectin (ADIPOQ), sex hormone–binding globulin (SHBG), and APOL1 as strong candidate biomarkers to mechanistically distinguish SRNS from SSNS. Logistic regression analysis identified a candidate biomarker panel (VDB, ADIPOQ, and matrix metalloproteinase 2 [MMP-2]) with significant ability to predict SRNS at disease presentation (P = 0.003; area under the receiver operating characteristic curve = 0.78). Conclusion: Plasma proteomic analyses and immunoblotting of serial samples in childhood NS identified a candidate biomarker panel able to predict SRNS at disease presentation, as well as candidate molecular targets/pathways associated with clinical steroid resistance. Keywords: biomarkers, nephrotic syndrome, proteomics, steroid resistance