Design and Methods of the Validating Injury to the Renal Transplant Using Urinary Signatures (VIRTUUS) Study in Children.

TitleDesign and Methods of the Validating Injury to the Renal Transplant Using Urinary Signatures (VIRTUUS) Study in Children.
Publication TypeJournal Article
Year of Publication2021
AuthorsKumar J, Contrepois K, Snyder M, Grimm PC, Moudgil A, Smith JM, Bobrowski AE, Verghese PS, Hooper D, Ingulli E, Lestz R, Weng P, Reason JL, Blydt-Hansen TD, Suthanthiran M, Keating B, Amaral S
JournalTransplant Direct
Volume7
Issue12
Paginatione791
Date Published2021 Dec
ISSN2373-8731
Abstract

Lack of noninvasive diagnostic and prognostic biomarkers to reliably detect early allograft injury poses a major hindrance to long-term allograft survival in pediatric kidney transplant recipients.

Methods: Validating Injury to the Renal Transplant Using Urinary Signatures Children's Study, a North American multicenter prospective cohort study of pediatric kidney transplant recipients, aims to validate urinary cell mRNA and metabolite profiles that were diagnostic and prognostic of acute cellular rejection (ACR) and BK virus nephropathy (BKVN) in adult kidney transplant recipients in Clinical Trials in Organ Transplantation-4. Specifically, we are investigating: (1) whether a urinary cell mRNA 3-gene signature (-normalized mRNA, and ribosomal RNA) discriminates biopsies with versus without ACR, (2) whether a combined metabolite profile with the 3-gene signature increases sensitivity and specificity of diagnosis and prognostication of ACR, and (3) whether mRNA levels in urinary cells are diagnostic of BKVN and prognostic for allograft failure.

Results: To date, 204 subjects are enrolled, with 1405 urine samples, including 144 biopsy-associated samples. Among 424 urine samples processed for mRNA, the median A260:280 ratio (RNA purity) was 1.91, comparable with Clinical Trials in Organ Transplantation-4 (median 1.82). The quality control failure rate was 10%. Preliminary results from urine supernatant showed that our metabolomics platform successfully captured a broad array of metabolites. Clustering of pool samples and overlay of samples from various batches demonstrated platform robustness. No study site effect was noted.

Conclusions: Multicenter efforts to ascertain urinary biomarkers in pediatric kidney transplant recipients are feasible with high-quality control. Further study will inform whether these signatures are discriminatory and predictive for rejection and infection.

DOI10.1097/TXD.0000000000001244
Alternate JournalTransplant Direct
PubMed ID34805493
PubMed Central IDPMC8601357
Grant ListR01 HD091185 / HD / NICHD NIH HHS / United States