by
Jeffrey H. Teckman;
Philip Rosenthal;
Robert Abel;
Lee M. Bass;
Sonia Michail;
Karen F. Murray;
David A. Rudnick;
Daniel W. Thomas;
Cathie Spino;
Ronen Arnon;
Paula M. Hertel;
James Heubi;
Binita M. Kamath;
Wikrom Karnsakul;
Kathleen M. Loomes;
John C. Magee;
Jean P. Molleston;
Rene Romero;
Benjamin L. Shneider;
Averell H. Sherker;
Ronald J. Sokol
Objectives: α-1-Antitrypsin (A1AT) deficiency is a common genetic disease with an unpredictable and highly variable course. The Childhood Liver Disease Research and Education Network is a National Institutes of Health, multicenter, longitudinal consortium studying pediatric liver diseases, with the objective of prospectively defining natural history and identifying disease modifiers.
Methods: Longitudinal, cohort study of A1AT patients' birth through 25 years diagnosed as having liver disease, type PIZZ or PISZ. Medical history, physical examination, laboratory, imaging, and standardized survey tool data were collected during the provision of standard of care.
Results: In the present report of the cohort at baseline, 269 subjects were enrolled between November 2008 and October 2012 (208 with their native livers and 61 postliver transplant). Subjects with mild disease (native livers and no portal hypertension [PHT]) compared to severe disease (with PHT or postliver transplant) were not different in age at presentation. A total of 57% of subjects with mild disease and 76% with severe disease were jaundiced at presentation (P = 0.0024). A total of 29% of subjects with native livers had PHT, but age at diagnosis and growth were not different between the no-PHT and PHT groups (P > 0.05). Subjects with native livers and PHT were more likely to have elevated bilirubin, ALT, AST, INR, and GGTP than the no-PHT group (P << 0.001), but overlap was large. Chemistries alone could not identify PHT.
Conclusions: Many subjects with A1AT presenting with elevated liver tests and jaundice improve spontaneously. Subjects with PHT have few symptoms and normal growth. Longitudinal cohort follow-up will identify genetic and environmental disease modifiers.
Assays that can characterize MSC immune potency need to be identified for use in advanced clinical trials. MSCs possess a number of putative regenerative and immunomodulatory properties, and an assay matrix approach may best capture involved effector pathways. We have tested two assay systems to measure the potency of MSCs derived from human subjects: MSC secretome analysis and a quantitative RNA-based array for genes specific to immunomodulatory and homing properties of MSCs. Secretome analysis identified a unique cytokine signature that is upregulated by MSCs or downregulated in responder PBMCs and correlated with T cell suppression. Use of interferon-γ as a surrogate for the action of activated PBMCs on MSCs served as an alternative for the use of human PBMCs as responder cells in a potency assay. Our approach and results define and simplify the multifunctional or matrix responses of MSCs and may serve as a platform for robust potency analysis. Assays that inform on mesenchymal stromal cell (MSC) immune potency need to be defined in advanced clinical trials. Chinnadurai et al. tested an in vitro assay matrix approach combining molecular genetic and secretome analysis, elements of which could be deployed to define MSC immune modulatory potency.