Assessment of immunosuppressive therapies with a metabolomic approach

The improvement of analytical techniques enabled the emergence of metabolomics, which aims to compare the metabolites involved in biochemical pathways, in certain biological conditions. Metabolomics is inserted in the \"omics\" context, which began in the \"Genomic Age\", and allowed the identification of several genes. After that, the researchers focused on the study of metabolites. Among several applications, metabolomics can be a valuable tool in renal transplant research, which requires a drug treatment through immunosuppressants. The combination of these immunosuppressants can minimize toxicity and rejection of the transplanted organ, reinforcing the need for a metabolomic study, in order to evaluate and compare changes after transplantation at the molecular level, improving knowledge about the influence of these regimens and giving subsidies on prognosis in the area of renal transplantation. In this thesis two immunosuppressive therapies were evaluated by an untargeted approach: Everolimus/Prednisone/Tacrolimus (group 1) and Mycophenolate mofetil/Prednisone/Tacrolimus (group 2). In this study, urine samples were collected from patients over 6 months. It was necessary to determine the best condition for analysis of patients\' urine samples. Thus, studies were carried out on some parameters that impact on sample preparation, evaluating the influence of urease, types and proportion of solvents for protein precipitation, selection of the best derivatizing agent, and data treatment. The evaluation of the quality measure of the urease treatments was made from the relative standard deviation (RSD) of the peak intensity values. The concentration of 10 mg mL-1 presented the best result. The study also showed that urine urea content may influence the identification of the compounds. The number of identified compounds was lower when urine was not treated with urease, with approximately 10 compounds less than the enzyme-treated sample, at the same concentration of urea added. In the evaluation of the organic solvents tested for protein precipitation in the urine samples, isopropanol was the most suitable solvent in the ratio 1: 6 urine:solvent (v/v), using 100 &#181;L of urine. Two derivatization protocols were tested for GC-MS analysis: metoximation and silylation with BSTFA and methyl chloroformate. The comparison between the two derivatization protocols showed that the BSTFA procedure, with 40 identified metabolites, was superior to methyl chloroformate with 13 compounds identified. In data processing with the XCMS software, the following parameters were evaluated: full width at half maximum of the peak (fwhm), bandwidth (bw) and threshold (sntresh). To evaluate the best combination of these parameters, a univariate variation of these values was made. The quality of the result of each combination was monitored by the number of missing values, number of peaks with RSD <15%, and number of duplicate values. The optimal values were obtained for the combination: fwhm=4, bw=2 and threshold =5. The study of the two groups of patients was initially based on the comparison between day 7 of the therapy with the other periods (day 14, month 1, month 3 and month 6) and later the temporal evolution was evaluated. From month 3 the values of correlation and prediction of the PLS-DA models are better and already effective in the differentiation between the two groups. Disorders in carbohydrate metabolism were observed in both groups with sugars and glycerol and N-acetyl-D-mannosamine as discriminant metabolites. In group 1, discriminant metabolites of the class of polyols and citric acid cycle pathways and degradation of xenobiotics were observed, and in group 2 alteration of hydroxybutyrate, a ketone body, was observed. In this group an increase of hippuric acid, acetamido butyric acid, benzoic acid, among others, was also observed. In this thesis it was possible to demonstrate that metabolomics is an important tool to compare discriminant metabolites between two immunosuppressive regimens, being a pilot study that aims to provide future subsidies to evaluate the influence of these therapies on the renal transplant prognosis (AU)