#METABOLOMICS WORKBENCH ARutledge1_20190814_111842 DATATRACK_ID:1803 STUDY_ID:ST001244 ANALYSIS_ID:AN002067 PROJECT_ID:PR000831 VERSION 1 CREATED_ON August 20, 2019, 2:08 pm #PROJECT PR:PROJECT_TITLE Uropathogenic versus Urocolonizing Escherichia coli PR:PROJECT_SUMMARY Urinary tract infections (UTIs) represent a major burden across the population, PR:PROJECT_SUMMARY although key facets of their pathogenesis challenge physicians and investigators PR:PROJECT_SUMMARY alike. Escherichia coli epitomizes these obstacles: this Gram-negative bacterial PR:PROJECT_SUMMARY species is the most prevalent agent of UTIs worldwide and can also colonize the PR:PROJECT_SUMMARY urogenital tract in a phenomenon known as asymptomatic bacteriuria (ASB). PR:PROJECT_SUMMARY Unfortunately, at the level of the organism, the relationship between PR:PROJECT_SUMMARY symptomatic UTI and ASB is poorly defined, confounding our understanding of PR:PROJECT_SUMMARY microbial pathogenesis and strategies for clinical management. Unlike PR:PROJECT_SUMMARY diarrheagenic pathotypes of E. coli, the definition of uropathogenic E. coli PR:PROJECT_SUMMARY (UPEC) remains phenomenologic, without conserved phenotypes and (known) genetic PR:PROJECT_SUMMARY determinants that rigorously distinguish UTI- and ASB-associated strains. This PR:PROJECT_SUMMARY manuscript provides a cross-disciplinary review of the current issues – from PR:PROJECT_SUMMARY interrelated mechanistic and diagnostic perspectives – and describes new PR:PROJECT_SUMMARY opportunities by which clinical resources can be leveraged to overcome molecular PR:PROJECT_SUMMARY challenges. Specifically, we present our work harnessing a large collection of PR:PROJECT_SUMMARY patient-derived isolates to identify features that do (and do not) distinguish PR:PROJECT_SUMMARY UTI- from ASB-associated E. coli strains. Analyses of biofilm formation, PR:PROJECT_SUMMARY previously reported to be higher in ASB strains, revealed extensive phenotypic PR:PROJECT_SUMMARY heterogeneity that did not correlate with symptomatology. However, metabolomic PR:PROJECT_SUMMARY experiments revealed distinct signatures between ASB and cystitis isolates, PR:PROJECT_SUMMARY including species in the purine pathway (previously shown to be critical for PR:PROJECT_SUMMARY intracellular survival during acute infection). Together, these studies PR:PROJECT_SUMMARY demonstrate how large-scale, wild-type approaches can help dissect the PR:PROJECT_SUMMARY physiology of colonization-versus-infection, suggesting that the molecular PR:PROJECT_SUMMARY definition of UPEC may rest at the level of global bacterial metabolism. PR:INSTITUTE Vanderbilt University PR:LAST_NAME Rutledge PR:FIRST_NAME Alexandra PR:ADDRESS 7330 Stevenson Center Lane, NASHVILLE, TENNESSEE, 37235, USA PR:EMAIL a.rutledge@vanderbilt.edu PR:PHONE 6155046923 #STUDY ST:STUDY_TITLE Uropathogenic versus Urocolonizing Escherichia coli ST:STUDY_SUMMARY Urinary tract infections (UTIs) represent a major burden across the population, ST:STUDY_SUMMARY although key facets of their pathogenesis challenge physicians and investigators ST:STUDY_SUMMARY alike. Escherichia coli epitomizes these obstacles: this Gram-negative bacterial ST:STUDY_SUMMARY species is the most prevalent agent of UTIs worldwide and can also colonize the ST:STUDY_SUMMARY urogenital tract in a phenomenon known as asymptomatic bacteriuria (ASB). ST:STUDY_SUMMARY Unfortunately, at the level of the organism, the relationship between ST:STUDY_SUMMARY symptomatic UTI and ASB is poorly defined, confounding our understanding of ST:STUDY_SUMMARY microbial pathogenesis and strategies for clinical management. Unlike ST:STUDY_SUMMARY diarrheagenic pathotypes of E. coli, the definition of uropathogenic E. coli ST:STUDY_SUMMARY (UPEC) remains phenomenologic, without conserved phenotypes and (known) genetic ST:STUDY_SUMMARY determinants that rigorously distinguish UTI- and ASB-associated strains. This ST:STUDY_SUMMARY manuscript provides a cross-disciplinary review of the current issues – from ST:STUDY_SUMMARY interrelated mechanistic and diagnostic perspectives – and describes new ST:STUDY_SUMMARY opportunities by which clinical resources can be leveraged to overcome molecular ST:STUDY_SUMMARY challenges. Specifically, we present our work harnessing a large collection of ST:STUDY_SUMMARY patient-derived isolates to identify features that do (and do not) distinguish ST:STUDY_SUMMARY UTI- from ASB-associated E. coli strains. Analyses of biofilm formation, ST:STUDY_SUMMARY previously reported to be higher in ASB strains, revealed extensive phenotypic ST:STUDY_SUMMARY heterogeneity that did not correlate with symptomatology. However, metabolomic ST:STUDY_SUMMARY experiments revealed distinct signatures between ASB and cystitis isolates, ST:STUDY_SUMMARY including species in the purine pathway (previously shown to be critical for ST:STUDY_SUMMARY intracellular survival during acute infection). Together, these studies ST:STUDY_SUMMARY demonstrate how large-scale, wild-type approaches can help dissect the ST:STUDY_SUMMARY physiology of colonization-versus-infection, suggesting that the molecular ST:STUDY_SUMMARY definition of UPEC may rest at the level of global bacterial metabolism. ST:INSTITUTE Vanderbilt University ST:LAST_NAME Rutledge ST:FIRST_NAME Alexandra ST:ADDRESS 7330 Stevenson Center Lane, NASHVILLE, TENNESSEE, 37235, USA ST:EMAIL a.rutledge@vanderbilt.edu ST:PHONE 6155046923 #SUBJECT SU:SUBJECT_TYPE Bacteria SU:SUBJECT_SPECIES Escherichia coli SU:TAXONOMY_ID 562 SU:GENDER Not applicable #SUBJECT_SAMPLE_FACTORS: SUBJECT(optional)[tab]SAMPLE[tab]FACTORS(NAME:VALUE pairs separated by |)[tab]Additional sample data SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_DDA2_Sup_QC_01 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_DDA2_Sup_QC_06 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_DDA4_Sup_QC_02 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_DDA4_Sup_QC_08 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_DDA6_Sup_QC_03 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_DDA6_Sup_QC_10 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_QC_04 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_QC_05 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_QC_07 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_QC_09 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_QC_11 Group:Qcpool_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S1_A1 Group:ASB_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S2_B1 Group:ASB_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S3_C1 Group:ASB_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S4_D1 Group:Cystitis_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S5_E1 Group:Cystitis_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S6_F1 Group:Cystitis_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S7_G1 Group:Cystitis_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S8_H1 Group:Cystitis_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S9_I1 Group:Cystitis_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S10_J1 Group:Cystitis_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S11_K1 Group:Cystitis_1 SUBJECT_SAMPLE_FACTORS - SC_20180803_RPLCp_FMS_Sup_S12_L1 Group:Cystitis_1 #COLLECTION CO:COLLECTION_SUMMARY Urine-associated E. coli isolates were collected in accordance with an approved CO:COLLECTION_SUMMARY IRB CO:SAMPLE_TYPE Bacterial cells #TREATMENT TR:TREATMENT_SUMMARY For each isolate, a single colony from an agar dish was inoculated in 5 mL LB TR:TREATMENT_SUMMARY and shaken overnight at 37°C under ambient atmospheric conditions. Cultures TR:TREATMENT_SUMMARY were then diluted 1:1000 in the combined human urine and grown for 6 hours to TR:TREATMENT_SUMMARY mid-log phase (37°C, shaking), under 4% oxygen to emulate the bladder TR:TREATMENT_SUMMARY environment. After 6 hours, OD600 of each isolate was measured – and cultures TR:TREATMENT_SUMMARY were normalized by volume to yield equal number of organisms from each strain TR:TREATMENT_SUMMARY – prior to pooling into groups of 8 isolates each. CFUs were enumerated for TR:TREATMENT_SUMMARY each pool to confirm bacterial denisty (~109 total E. coli per pool). Each pool TR:TREATMENT_SUMMARY was then centrifuged to separate the cellular (pellet) and supernatant fraction. TR:TREATMENT_SUMMARY Pellets and supernatants were flash frozen and stored at -80°C until for TR:TREATMENT_SUMMARY metabolomic analysis. #SAMPLEPREP SP:SAMPLEPREP_SUMMARY Global untargeted metabolomic analyses were performed on the SP:SAMPLEPREP_SUMMARY supernatant-fraction of ASB and cystitis pools. Aliquots of each pool (200µL) SP:SAMPLEPREP_SUMMARY were added to individual Eppendorf tubes containing 200µL ice cold lysis buffer SP:SAMPLEPREP_SUMMARY (1:1:2, ACN:MeOH:Ammonium Bicarbonate (0.1M, pH 8.0)) (LC-MS grade). Labeled SP:SAMPLEPREP_SUMMARY creatinine-D3 and lysine-D4 were added to each sample to assess the metabolite SP:SAMPLEPREP_SUMMARY extraction (sample preparation) step. Samples were first subjected to protein SP:SAMPLEPREP_SUMMARY precipitation by addition of 800µL of ice cold methanol (4x by volume), then SP:SAMPLEPREP_SUMMARY incubated at -80C overnight. Following incubation, samples were centrifuged SP:SAMPLEPREP_SUMMARY (10,000 rpm, 10 min) to pellet precipitated proteins; the metabolite-containing SP:SAMPLEPREP_SUMMARY supernatant was transferred to a clean Eppendorf tube, dried in vacuo and stored SP:SAMPLEPREP_SUMMARY at -80C until further LC-MS analysis. The pellet-fraction of each sample pool SP:SAMPLEPREP_SUMMARY prepared as described above was lysed using 400µL ice cold lysis buffer (1:1:2, SP:SAMPLEPREP_SUMMARY ACN:MeOH:Ammonium Bicarbonate (0.1M, pH 8.0) (LC-MS grade), followed by SP:SAMPLEPREP_SUMMARY sonication in an ice bath for 10 min. Sample volume for each pool was adjusted SP:SAMPLEPREP_SUMMARY such that all samples have the same cell number in each vial. Samples were first SP:SAMPLEPREP_SUMMARY subjected to protein precipitation by addition of 1000µL of ice cold methanol SP:SAMPLEPREP_SUMMARY (4x by volume), then incubated at -80C overnight. Following incubation, SP:SAMPLEPREP_SUMMARY samplwere were centrifuged (10,000 rpm, 10 min) to pellet precipitated proteins; SP:SAMPLEPREP_SUMMARY the metabolite-containing extract was transferred to a clean Eppendorf tube, SP:SAMPLEPREP_SUMMARY dried in vacuo and stored at -80C until further LC-MS analysis. #CHROMATOGRAPHY CH:CHROMATOGRAPHY_TYPE Reversed phase CH:INSTRUMENT_NAME Thermo Vanquish CH:COLUMN_NAME Thermo Hypersil Gold #ANALYSIS AN:ANALYSIS_TYPE MS #MS MS:INSTRUMENT_NAME Thermo Q Exactive HF hybrid Orbitrap MS:INSTRUMENT_TYPE Orbitrap MS:MS_TYPE ESI MS:ION_MODE POSITIVE MS:MS_COMMENTS Progenesis QI MS:MS_RESULTS_FILE ST001244_AN002067_Results.txt UNITS:abundance Has m/z:Yes Has RT:Yes RT units:Minutes #END