Oligonucleotide Microarray Analysis of Age-Related Gene Expression Profiles in Miniature Pigs

Miniature pigs are useful model animals for humans because they have similar anatomy and digestive physiology to humans and are easy to breed and handle. In this study, whole blood microarray analyses were conducted to evaluate variations of correlation among individuals and ages using specific pathogen-free (SPF) Clawn miniature pigs. Whole blood RNA is easy to handle compared to isolated white blood cell RNA and can be used for health and disease monitoring and animal control. In addition, whole blood is a heterogeneous mixture of subpopulation cells. Once a great change occurs in composition and expressing condition of subpopulations, their associated change will be reflected on whole blood RNA. From 12 to 30 weeks of age, fractions of lymphocytes, monocytes, neutrophils, eosinophils, and basophils in white blood cells showed insignificant differences with age as a result of ANOVA analysis. This study attempted to identify characteristics of age-related gene expression by taking into account the change in the number of expressed genes by age and similarities of gene expression intensity between individuals. As a result, the number of expressed genes was less in fetal stage and infancy period but increased with age, reaching a steady state of gene expression after 20 weeks of age. Variation in gene expression intensity within the same age was great in fetal stage and infancy period, but converged with age. The variation between 20 and 30 weeks of age was comparable to that among 30 weeks individuals. These results indicate that uniformity of laboratory animals is expected for miniature pigs after 20 weeks of age. Furthermore, a possibility was shown that whole blood RNA analysis is applicable to evaluation of physiological state

Carvedilol and cardiac biomarkers in dialysis patients: Secondary analysis of a randomized controlled trial

Published online: December 04, 2017Background/Aims: Cardiac biomarkers are associated with cardiac abnormalities and adverse outcomes in dialysis patients. Our aim was to report the effect of the beta-blocker carvedilol on cardiac biomarkers in adult dialysis patients. Methods: The Beta-Blocker to Lower Cardiovascular Dialysis Events Feasibility Study was a randomized controlled trial comparing carvedilol to placebo. Serum and plasma were collected before the run-in, then 6 and 12 months post-randomization to measure B-type Natriuretic Peptide (BNP), N-terminal BNP (NT-ProBNP), high-sensitivity cardiac troponins I (hs-TnI) and T (hs-TnT), and galectin-3. Left ventricular global longitudinal strain (GLS) was measured by echocardiography at baseline. Results: Seventy-two participants were recruited of whom 49 completed the run-in and were randomized to carvedilol (n=26) or placebo (n=23). Baseline echocardiography demonstrated median (inter-quartile range) GLS of -14.27% (-16.63 to -11.93). NTproBNP and hs-TnT correlated with GLS (Spearman’s rho=0.34 [p=0.018] and rho=0.28 [p=0.049], respectively). Median change scores from baseline to 12 months did not differ significantly between participants with complete biomarker data randomized to carvedilol (n=15) or placebo (n=16) for any biomarkers. Conclusions: NT-proBNP and hs-TnT were associated with GLS. However, changes in levels of the biomarkers from baseline to 12 months were not different between groups randomized to carvedilol and placebo.Matthew A. Roberts, Darsy Darssan, Sunil V. Badve, Robert P. Carroll, Magid A. Fahim, Brian A. Haluska, Carmel M. Hawley, Nicole M. Isbel, Mark R. Marshall, Elaine M. Pascoe, Eugenie Pedagogos, Helen L. Pilmore, Paul Snelling, Tony Stanton, Ken-Soon Tan, Andrew M. Tonkin, Liza A. Vergara, Francesco L. Ierin

Role of the thymus in transplantation tolerance in miniature Swine: IV. The thymus is required during the induction phase, but not the maintenance phase, of renal allograft tolerance.

BACKGROUND: The authors' laboratory previously demonstrated that long-term tolerance to class I-disparate renal allografts in miniature swine can be induced by a short course of cyclosporine A (CsA), and that this stable tolerance is dependent on the presence of an intact thymus. In the present study, the authors have examined the requirement for a thymus during the pretransplant, induction, and maintenance phases of tolerance. METHODS: Twenty-two miniature swine underwent class I major histocompatibility complex-mismatched renal transplantation, with a 12-day course of CsA. Thymectomies were performed on days -21, 0, +8, +21, and greater than or equal to +42, in relation to the day of transplantation. Historical controls consisted of euthymic and sham-thymectomized recipients. RESULTS: Euthymic, sham-thymectomized, and day-greater than or equal to +42 thymectomized recipients demonstrated stable renal function and minimal anti-donor cytotoxic T-lymphocyte (CTL) responses. In contrast, day -21 and day 0 thymectomized recipients demonstrated allograft dysfunction, marked cellular infiltrates, with severe vasculitis and glomerular changes, and strong anti-donor CTL responses. Animals thymectomized on days +8 and +21 did not undergo severe rejection, but likewise did not demonstrate a stable clinical course. CONCLUSIONS: These data indicate that the requirement for thymic function in the induction of rapid and stable tolerance is greatest during the first 8 days and then diminishes over the next 2 weeks posttransplant. Failure of thymectomy to affect the course of tolerance after day +21 suggests that thymic function is not required for the maintenance of tolerance. Understanding the role of the thymus in establishing tolerance may permit the development of tolerance induction strategies, especially for pediatric transplant recipients

Development of antidonor antibody directed toward non-major histocompatibility complex antigens in tolerant animals.

BACKGROUND: The clinical significance of antibodies directed against antigens other than major histocompatibility complex (MHC) antigens is poorly understood, and there are few large animal models in which such antibodies can be examined. We studied, both retrospectively and prospectively, the development of antibodies to non-MHC antigens in tolerant miniature swine. METHODS: Our database was assessed for cases of antidonor antibody formation in tolerant animals over the last 20 years. Flow cytometry, absorption assays, and familial analyses for inheritance pattern of the gene(s) potentially responsible for the antibody reactivities were carried out, and an animal determined to be negative for this reactivity was immunized by a skin graft and subcutaneous injections of peripheral blood monocyte cells from an antigen-positive donor. RESULTS: Sixteen of 469 tolerant animals tested were found to have developed antidonor antibodies. These antibodies were found to be specific for the same, presumably single, non-MHC antigen. Familial analyses indicated that the gene encoding this antigen was expressed in an autosomal-dominant manner in approximately 95% of the herd. In a prospective study, antidonor antibodies with the same specificity as those observed retrospectively were successfully induced in an antigen-negative animal after immunization with peripheral blood monocyte cells. CONCLUSION: To our knowledge, this is the first report of the development of antibodies to a highly prevalent, non-MHC antigen present on peripheral blood mononuclear cells and developing in tolerant animals without signs of graft dysfunction. Considering the concern often raised by the appearance of antidonor antibodies in transplant recipients, these data could have important implications for clinical transplantation