Association of pre- and early post-transplant serum amino acids and metabolites of amino acids and liver transplant outcome.

The aim of the present study was to investigate association of serum amino (AA) acids and metabolites of AAs with post-transplant outcome in liver transplant recipients. Eighty-nine patients with end-stage liver diseases and available pre- and early post-transplant serum were characterised as patients with (GI) and without one-year mortality (GII) and patients with and without early graft dysfunction (EAD). A panel of pre- and early post-transplant serum levels of AAs and early and metabolites of tryptophan were measured using tandem mass spectrometry. Patient groups had significantly higher pre-transplant serum levels of phenylalanine, tryptophan, and tryptophan metabolites than healthy controls (for all p<0.001). Pre-transplant serum levels of all these parameters were significantly higher in GI than in GII (for all p<0.001). GI had a higher MELD score and re-transplantation number than GII (p≤0.005 for both investigations). Serum bilirubin on day 5 and serum phenylalanine on day 10 post-transplant were associated parameters of mortality, whereas day 1post-transplant phenylalanine and kynurenine and female gender were associated parameters of EAD. Our results indicate that pre- and early post-transplant levels of phenylalanine, tryptophan and metabolites of tryptophan are increased in patients and are associated with EAD and one-year mortality in liver transplant recipients

Mitomycin C-treated dendritic cells inactivate autoreactive T cells: Toward the development of a tolerogenic vaccine in autoimmune diseases

Treatment of autoimmune diseases remains a challenge for immunological research. An ideal therapy should inhibit the immune reaction against the diseased organ and leave the rest of the immune response intact. Our previous studies showed that donor-derived dendritic cells (DCs) treated in vitro with mitomycin C (MMC) suppress rat heart allograft rejection if injected into recipients before transplantation. Here we analyze their efficacy in controlling autoimmunity. MMC-DCs loaded with myelin-basic-protein (MBP) inhibited specific T cells derived from multiple sclerosis patients in vitro. If coincubated with MMC-DCs, T cells were arrested in the G0/G1 cell cycle phase. Microarray gene scan showed that MMC influences the expression of 116 genes in DCs, one main cluster comprising apoptotic and the second cluster immunosuppressive genes. Apparently, the combination of apoptosis with expression of tolerogenic molecules renders MMC-DCs suppressive. MBP-loaded MMC-DCs also inhibited mouse T cells in vitro and, in contrast to MBP-loaded naïve DCs, did not induce experimental autoimmune encephalitis. Most importantly, mice vaccinated with inhibitory DCs became resistant to the disease. Whereas this is not the first report on generation of suppressive DCs, it delineates a method using a clinically approved drug at nontoxic concentrations, which yields irreversibly changed DCs, effective across species in vitro and in vivo

Furosemide enhances the sensitivity of urinary metabolomics for assessment of kidney function

Introduction The ability of urinary metabolomics to detect meaningful, tissue-specific, biological effects (i.e., toxicity, disease) is compounded by high background variability. We hypothesize that sensitivity can be enhanced by imposing a tissue-targeted metabolic stressor. Objective We tested whether the sensitivity of metabolomics to assess kidney function is improved under the diuretic stress of furosemide. Methods To mildly compromise kidney, rats were given a sub-acute dose of d-serine. Then at 24 h postdose, we administered vehicle solution (control) or the diuretic drug, furosemide, and conducted NMR-based urinary metabolomics. Results Principal Components and OPLS discriminant analyses showed no effects on urinary profiles in rats receiving d-serine alone. However, the effects of d-serine were observable under furosemide-induced stress, as urinary profiles classified separately from rats receiving furosemide alone or vehicle-treated controls (p \u3c 0.001). Furthermore, this profile was uniquely different from a co-treatment effect observed following co-administration of d-serine + furosemide. We identified 24 metabolites to classify the effects of furosemide in normal rats vs. d-serine-compromised rats. Most notably, a furosemide-induced increase in urinary excretion of α-ketoglutarate, creatinine, trigonelline, and tryptophan in control rats, was significantly reduced in d-serine exposed rats (p \u3c 0.05). Interestingly, increased tryptophan metabolism has been shown to correlate with the severity of kidney transplant failure and chronic kidney disease. Conclusions We attribute these effects to differences in kidney function, which were only detectable under the stress imposed by furosemide. This technique may extend to other organ systems and may provide improved sensitivity for assessment of tissue function or early detection of disease