The next five years of this basic investigative program are committed to accomplishing a new set of aims for the unique INTERMAP international metabolomics research on multiple urinary metabolites related to blood pressure (BP) and BP associated traits (nutritional, sociodemographic, anthropomorphic, biomedical) - a program conceived, opened up, and developed by its senior cooperating Principal Investigators in London and Chicago. During the years of the currently ongoing funded NHLBI grant (Feb. 1, 2007 - - Jan. 31, 2011), 66 urinary metabolites (44 of known chemical composition) have been identified, based on the strategic approach set down in the prior (2006) grant application. This strategy entailed paired sampling of the 10,000+ urinary specimens from the 4,630 INTERMAP participants, based on traits related to BP - - e.g., lower and higher vegetable protein intake and Na/K intake;African Americans and Other Americans;northern and southern Chinese, obese and lean. For each contrasting pair of samples, the urinary nuclear magnetic resonance (NMR) spectra already in hand (7100 peaks/spectrum) underwent metabolomewide scanning to identify the urinary metabolic pattern and its specific metabolites discriminating the pair. Further, per this research strategy, 7 of the 44 known metabolites were quantified in both urine specimens of all 4,630 participants;of these, 5 related to BP - - alanine directly, formate, hippurate, 4 cresyl sulphate, phenyl acetyl glutamine inversely. During the next years, this proven strategy is to be serially utilized to accomplished the new set of specific aims derived from recent INTERMAP research findings on nutrient - BP relations, i.e., identification of urinary metabolomic patterns/specific metabolites distinguishing INTERMAP participants with lower and higher intakes of: glutamic acid, glycine, omega-3/omega-6 PFA and their specific PFAs, oleic acid/MFA, dietary Ca, Mg, P, non-heme Fe. Further, characterize metabolites of unknown chemical structure. Further, quantify - - in all 10,000+ INTERMAP urine specimens - - selected metabolites so identified, and assess their relations to BP. For these purposes the projected research is relying not only on the extensive high-quality data already in hand on the 4,630 INTERMAP participants (women and men ages 40-59 from 17 population samples - - 4 in Japan;3, People's Republic of China;2, UK;8, USA). In addition, as appropriate for the foregoing purposes, the basic data set is to be extended/enhanced with analyses by ultra performance liquid chromatography - time of flight - mass spectroscopy (UPLC - TOF - MS) to complement the metabolic profiling already achieved with NMR. With the data analyses thereby achieved, INTERMAP anticipates adding a new dimension of research information and achieving a qualitative advance in knowledge - - of potential importance both practically and theoretically - - on the etiophatogenesis of population wide adverse BP levels (prehypertensive and hypertensive).
This research program uses extensive high-quality data for 4,630 women and men ages 40-59 from 17 random samples of populations in China, Japan, the United Kingdom, and the United States: data on 83 nutrients;urinary sodium, potassium, calcium, magnesium, 23 amino acids;multiple metabolites identified by modern biochemical/biophysical metabolomic techniques;sociodemographic, anthropomorphic, and biomedical data. The focus is on identification of metabolites in the urine that relate to blood pressure (BP) and BP-associated traits (nutritional, sociodemographic, anthropomorphic, biomedical). The data serve to clarify how lifestyles and other human traits influence the pathways/mechanisms leading to the epidemic of prehypertension and hypertension - - data that can help to prevent and control adverse BP, key risk factor for heart disease and stroke.
|Aljuraiban, Ghadeer S; Stamler, Jeremiah; Chan, Queenie et al. (2018) Relations between dairy product intake and blood pressure: the INTERnational study on MAcro/micronutrients and blood Pressure. J Hypertens 36:2049-2058|
|Stamler, Jeremiah; Chan, Queenie; Daviglus, Martha L et al. (2018) Relation of Dietary Sodium (Salt) to Blood Pressure and Its Possible Modulation by Other Dietary Factors: The INTERMAP Study. Hypertension 71:631-637|
|Posma, Joram M; Garcia-Perez, Isabel; Ebbels, Timothy M D et al. (2018) Optimized Phenotypic Biomarker Discovery and Confounder Elimination via Covariate-Adjusted Projection to Latent Structures from Metabolic Spectroscopy Data. J Proteome Res 17:1586-1595|
|Chekmeneva, Elena; Dos Santos Correia, Gonçalo; Gómez-Romero, María et al. (2018) Ultra-Performance Liquid Chromatography-High-Resolution Mass Spectrometry and Direct Infusion-High-Resolution Mass Spectrometry for Combined Exploratory and Targeted Metabolic Profiling of Human Urine. J Proteome Res 17:3492-3502|
|Chan, Queenie; Loo, Ruey Leng; Ebbels, Timothy M D et al. (2017) Metabolic phenotyping for discovery of urinary biomarkers of diet, xenobiotics and blood pressure in the INTERMAP Study: an overview. Hypertens Res 40:336-345|
|Chekmeneva, Elena; Dos Santos Correia, Gonçalo; Chan, Queenie et al. (2017) Optimization and Application of Direct Infusion Nanoelectrospray HRMS Method for Large-Scale Urinary Metabolic Phenotyping in Molecular Epidemiology. J Proteome Res 16:1646-1658|
|Oude Griep, Linda M; Seferidi, Paraskevi; Stamler, Jeremiah et al. (2016) Relation of unprocessed, processed red meat and poultry consumption to blood pressure in East Asian and Western adults. J Hypertens 34:1721-9|
|Chan, Queenie; Stamler, Jeremiah; Griep, Linda M Oude et al. (2016) An Update on Nutrients and Blood Pressure. J Atheroscler Thromb 23:276-89|
|Aljuraiban, Ghadeer S; Griep, Linda M Oude; Griep, Linda M O et al. (2015) Total, insoluble and soluble dietary fibre intake in relation to blood pressure: the INTERMAP Study. Br J Nutr 114:1480-6|
|Elliott, Paul; Posma, Joram M; Chan, Queenie et al. (2015) Urinary metabolic signatures of human adiposity. Sci Transl Med 7:285ra62|
Showing the most recent 10 out of 37 publications