E not measured in the experiment. The sugar alcohol threitol and

E not measured in the experiment. The sugar alcohol threitol and the essential amino acid threonine (marginal significance) were also reduced upon atenolol treatment in the combined dataset. Atenolol treatment did not change the levels of glycerol or glycerol-3-phosphate, either in the combined data or after separating Caucasians and African Americans. 25033180 Lipids that remained unchanged upon atenolol treatment included alpha and gamma tocopherol and cholesterol. The observed metabolic changes were modeled by constructing a metabolic network using KEGG reaction pairs and structural (Tanimoto) distances, using in part the software MetaMAPP [28] and Cytoscape [24]. This allows for visualization of metabolic changes and the determination of how observed compounds are connected by pathways (Figure 2).Ethnic Differences in Exposure to AtenololTable 2. Comparison of clinical metabolic parameters for atenolol monotherapy (N = 272) for Caucasians and African Americans.Caucasians (n = 150) Oltipraz supplier Baseline SBP mm Hg DBP mm Hg Glucose mg/dl LDL mg/dl HDL mg/dl Triglyceride mg/dl Uric Acid mg/dl Plasma Renin Activity, ng/ml/h 145.169.8 92.465.7 91.7610.6 121.7630.3 47.9612.5 138.1680.3 5.4361.30 1.2361.36 PostTreatment 133.6612.5 82.267.4 94.5610.1 118.2630.7 45.2611.7 164.06133.4 5.7161.25 0.4860.61 D 211.4869.62 210.2766.77 2.7369.11 23.48620.35 22.7366.60 25.85679.48 0.2860.60 20.7761.22 P ,0.0001 ,0.0001 0.0003 0.038 ,0.0001 0.0001 ,0.0001 ,0.African Americans (n = 122) Baseline 144.8610.7 93.966.6 89.1610.9 122.3631.0 55.2617.6 93.3662.7 5.4461.36 0.6160.59 Post-Treatment D 142.2613.6 89.968.6 92.0614.8 121.5633.9 52.2616.5 107.0665.4 5.7061.33 0.3460.43 22.63610.57 24.0266.50 2.88613.47 20.83617.85 23.0267.52 13.74637.80 0.2660.71 20.2660.56 P 0.007 ,0.0001 0.0197 0.61 ,0.0001 0.0001 ,0.0001 ,0.C vs. AA* P ,0.0001 ,0.0001 0.33 0.81 0.91 0.17 0.84 ,0.All variables are presented as mean 6 standard deviation. D: difference between baseline and post-treatment. AA: African Americans. *C vs. AA: p-value for Caucasians vs. African Americans. doi:10.1371/journal.pone.0057639.tMetabolomic order Mirin Signature of Atenolol Treatment Differs in Caucasians and African AmericansThere were large differences in the metabolic response to atenolol between Caucasians and African Americans. Many of the changes that appear in the total population (Table 3) are the result of significant changes in the Caucasian population, but not in the African American population (Table 4). Saturated (palmitic), monounsaturated (oleic, palmitoleic) and polyunsaturated (arachidonic, linoleic) free fatty acids all decreased in Caucasians with atenolol treatment after correction for false discovery rate (FDR) with 1527786 Q-value ,0.05. None of these compounds changed significantly in African Americans after correcting for FDR. Similarly, when the data were broken down by race, the reductionin the ketone body 3-hydroxybutyrate was significant in Caucasians with a 33 change but not African American individuals (Table 4).Genetic associationsThe fatty acid signature of atenolol suggested that lipases might be regulated differently in Caucasians and African Americans and genetic variation might contribute to the differences observed. We therefore tested the association between the top atenolol treatmentTable 3. Identified compounds that change significantly after atenolol treatment in Caucasians and African Americans (n = 272).Compound oleic acid (18:1 cis-9) linoleic acid (18:2 n-6) palmitoleic acid (16:1) palmiti.E not measured in the experiment. The sugar alcohol threitol and the essential amino acid threonine (marginal significance) were also reduced upon atenolol treatment in the combined dataset. Atenolol treatment did not change the levels of glycerol or glycerol-3-phosphate, either in the combined data or after separating Caucasians and African Americans. 25033180 Lipids that remained unchanged upon atenolol treatment included alpha and gamma tocopherol and cholesterol. The observed metabolic changes were modeled by constructing a metabolic network using KEGG reaction pairs and structural (Tanimoto) distances, using in part the software MetaMAPP [28] and Cytoscape [24]. This allows for visualization of metabolic changes and the determination of how observed compounds are connected by pathways (Figure 2).Ethnic Differences in Exposure to AtenololTable 2. Comparison of clinical metabolic parameters for atenolol monotherapy (N = 272) for Caucasians and African Americans.Caucasians (n = 150) Baseline SBP mm Hg DBP mm Hg Glucose mg/dl LDL mg/dl HDL mg/dl Triglyceride mg/dl Uric Acid mg/dl Plasma Renin Activity, ng/ml/h 145.169.8 92.465.7 91.7610.6 121.7630.3 47.9612.5 138.1680.3 5.4361.30 1.2361.36 PostTreatment 133.6612.5 82.267.4 94.5610.1 118.2630.7 45.2611.7 164.06133.4 5.7161.25 0.4860.61 D 211.4869.62 210.2766.77 2.7369.11 23.48620.35 22.7366.60 25.85679.48 0.2860.60 20.7761.22 P ,0.0001 ,0.0001 0.0003 0.038 ,0.0001 0.0001 ,0.0001 ,0.African Americans (n = 122) Baseline 144.8610.7 93.966.6 89.1610.9 122.3631.0 55.2617.6 93.3662.7 5.4461.36 0.6160.59 Post-Treatment D 142.2613.6 89.968.6 92.0614.8 121.5633.9 52.2616.5 107.0665.4 5.7061.33 0.3460.43 22.63610.57 24.0266.50 2.88613.47 20.83617.85 23.0267.52 13.74637.80 0.2660.71 20.2660.56 P 0.007 ,0.0001 0.0197 0.61 ,0.0001 0.0001 ,0.0001 ,0.C vs. AA* P ,0.0001 ,0.0001 0.33 0.81 0.91 0.17 0.84 ,0.All variables are presented as mean 6 standard deviation. D: difference between baseline and post-treatment. AA: African Americans. *C vs. AA: p-value for Caucasians vs. African Americans. doi:10.1371/journal.pone.0057639.tMetabolomic Signature of Atenolol Treatment Differs in Caucasians and African AmericansThere were large differences in the metabolic response to atenolol between Caucasians and African Americans. Many of the changes that appear in the total population (Table 3) are the result of significant changes in the Caucasian population, but not in the African American population (Table 4). Saturated (palmitic), monounsaturated (oleic, palmitoleic) and polyunsaturated (arachidonic, linoleic) free fatty acids all decreased in Caucasians with atenolol treatment after correction for false discovery rate (FDR) with 1527786 Q-value ,0.05. None of these compounds changed significantly in African Americans after correcting for FDR. Similarly, when the data were broken down by race, the reductionin the ketone body 3-hydroxybutyrate was significant in Caucasians with a 33 change but not African American individuals (Table 4).Genetic associationsThe fatty acid signature of atenolol suggested that lipases might be regulated differently in Caucasians and African Americans and genetic variation might contribute to the differences observed. We therefore tested the association between the top atenolol treatmentTable 3. Identified compounds that change significantly after atenolol treatment in Caucasians and African Americans (n = 272).Compound oleic acid (18:1 cis-9) linoleic acid (18:2 n-6) palmitoleic acid (16:1) palmiti.