ObjectiveTo investigate host and gut-microbiota related Tryptophan metabolism in hand osteoarthritis (HOA).MethodsThe baseline serum concentration of 20 Tryptophan metabolites was measured in 416... Show moreObjectiveTo investigate host and gut-microbiota related Tryptophan metabolism in hand osteoarthritis (HOA).MethodsThe baseline serum concentration of 20 Tryptophan metabolites was measured in 416 HOA patients in a cross-sectional analysis of the DIGICOD cohort. Tryptophan metabolites levels, metabolite-ratios and metabolism pathway activation were compared between erosive (N = 141) and non-erosive HOA (N = 275) by multiple logistic regressions adjusted on age, BMI and sex. The association between Tryptophan metabolite levels and HOA symptoms was investigated by a Spearman's rank correlation analysis.ResultsFour serum Tryptophan metabolites, eight metabolite ratios and one metabolism pathway were associated with erosive HOA. Erosive HOA was negatively associated with Tryptophan (odds ratio (OR) = 0.41, 95% confidence interval [0.24–0.70]), indole-3-aldehyde (OR = 0.67 [0.51–0.90]) and 3-OH-anthranilic acid (OR = 1.32 [1.13–1.54]) and positively with 5-OH-Tryptophan levels (OR = 1.41 [1.13–1.77]). The pro-inflammatory kynurenine–indoleamine 2,3-dioxygenase pathway was upregulated in erosive HOA (OR = 1.60 [1.11–2.29]). Eleven metabolites were correlated with HOA symptoms and were mostly pain-related. Serotonin and N-acetyl serotonin levels were negatively correlated with number of tender joints. Indole-3-aldehyde level was negatively correlated and 3-OH-anthranilic acid, 3-OH-kynurenine and 5-OH-Tryptophan levels were positively correlated with number of patients-reported painful joints. Quinolinic acid and 3-OH-kynurenine levels correlated positively with AUSCAN pain.ConclusionsTryptophan metabolites disturbance is associated with erosive HOA and pain and emphasize the role of low-grade inflammation and gut dysbiosis in HOA. Show less
Alarcon-Barrera, J.C.; Kostidis, S.; Ondo-Mendez, A.; Giera, M. 2022
The pharmaceutical industry adapted proteomics and other 'omics technologies for drug research early following their initial introduction. Although metabolomics lacked behind in this development,... Show moreThe pharmaceutical industry adapted proteomics and other 'omics technologies for drug research early following their initial introduction. Although metabolomics lacked behind in this development, it has now become an accepted and widely applied approach in early drug development. Over the past few decades, metabolomics has evolved from a pure exploratory tool to a more mature and quantitative biochemical technology. Several metabolomics-based platforms are now applied during the early phases of drug discovery. Metabolomics analysis assists in the definition of the physiological response and target engagement (TE) markers as well as elucidation of the mode of action (MoA) of drug candidates under investigation. In this review, we highlight recent examples and novel developments of metabolomics analyses applied during early drug development. Show less
The study has shown that it is possible to introduce the heterologous CHS gene in Arabidopsis thaliana and common multicopies of transgenes containing plants were obtained. Analysis of the change... Show moreThe study has shown that it is possible to introduce the heterologous CHS gene in Arabidopsis thaliana and common multicopies of transgenes containing plants were obtained. Analysis of the change in metabolome of CHS transgenic plants, high expression transgenic lines can be identified by markers such as flavonoids and phenylpropanoids. It is also clear that UV-A/blue light stress does not further increase the levels of these marker compounds in CHS transgenic Arabidopsis plants, whereas in wild type plants such a treatment results in increased levels of these compounds, in fact similar to that in the transgenic plants. There are certain physiological limitations in the accumulation of certain products. This thesis starts with a review of the function of CHS in plants and especially in plant resistance (Chapter 2). Chapter 3 deals with the work on Agrobacterium-mediated transformation of heterologous chalcone synthase in Arabidopsis thaliana Col. 0. The effect of overexpression of CHS on the transcriptional level is discribed in this chapter. The activity of the CHS enzyme in the transgenic plants is reported in Chapter 4. In Chapter 5 metabolic profiling of Arabidopsis thaliana using nuclear magnetic resonance spectroscopy (NMR) is described. In this chapter the primary and secondary metabolites of Arabidopsis thaliana Col. 0 which can be detected by NMR are reported. Chapter 6 reports the metabolic profiling of CHS transgenic Arabidopsis. Metabolomic changes upon UV-A/blue light treatment of Arabidopsis thaliana were investigated (Chapter 7). Chapter 8 deals with the study of the effect of the non-pesticide chemical, Benzo(1,2,3)thiadiazole-7-carbothioic acid S-methyl ester (BTH) on the Arabidopsis metabolome. Finally, the general summary and discussion of thesis are given in Chapter 9. Show less
