<HashMap><database>biostudies-literature</database><scores/><additional><submitter>Shivakumar N</submitter><funding>USDA ARS</funding><funding>Bill and Melinda Gates Foundation</funding><pagination>970-979</pagination><full_dataset_link>https://www.ebi.ac.uk/biostudies/studies/S-EPMC9535528</full_dataset_link><repository>biostudies-literature</repository><omics_type>Unknown</omics_type><volume>116(4)</volume><pubmed_abstract>&lt;h4>Background&lt;/h4>In young children, associations between linear growth faltering, environmental enteric dysfunction (EED), and the plasma kynurenine (Kyn)/tryptophan (Trp) ratio (KTR) have led to the proposal that higher Trp catabolism in response to intestinal/systemic inflammation limits Trp availability for protein synthesis, resulting in impaired growth.&lt;h4>Objectives&lt;/h4>We sought to estimate the Trp oxidation rate and the Trp conversion rate to Kyn in young children with and without EED.&lt;h4>Methods&lt;/h4>Children aged 18-24 mo, from urban slums, were assigned to EED (n = 19) or no-EED (n = 26) groups on the basis of a urinary lactulose/rhamnose ratio (LRR) cutoff based on mean + 2 SDs of LRR (≥0.068) in normal age- and sex-matched, high-socioeconomic status children. Plasma KTR and fecal biomarkers of EED were measured. Trp oxidation in the fed state was measured using 13C1-Trp in an oral plateau feeding protocol.&lt;h4>Results&lt;/h4>The median (quartile 1, quartile 3) fasted KTR was 0.089 (0.066, 0.110) in children with EED compared with 0.070 (0.050, 0.093) in children with no EED (P = 0.077). However, there was no difference in fed-state Trp oxidation [median (quartile 1, quartile 3) 3.1 (1.3, 5.8) compared with 3.9 (1.8, 6.0) µmol/kg FFM/h, respectively, P = 0.617] or Trp availability for protein synthesis [42.6 (36.5, 45.7) compared with 42.5 (37.9, 46.9) µmol/kg FFM/h, respectively, P = 0.868] between the groups. In contrast, the median (quartile 1, quartile 3) fractional synthesis rates of Kyn [12.5 (5.4, 20.0) compared with 21.3 (16.1, 24.7) %pool/h, P = 0.005] and the fraction of Ala derived from Trp [0.007 (0.005, 0.015) compared with 0.012 (0.008, 0.018), P = 0.037], respectively, in the plasma compartment were significantly slower in the EED group. Fecal biomarkers of EED did not differ between the groups.&lt;h4>Conclusions&lt;/h4>The static plasma KTR value is not a good indicator of the dynamic Trp flux down its oxidative pathway. In a poor sanitary environment, children without EED actually have a faster Kyn synthesis rate, which might be beneficial, because of the cytoprotective and anti-inflammatory functions of downstream metabolites. This study was registered in the Clinical Trials Registry of India as CTRI/2017/02/007921.</pubmed_abstract><journal>The American journal of clinical nutrition</journal><pubmed_title>Tryptophan oxidation in young children with environmental enteric dysfunction classified by the lactulose rhamnose ratio.</pubmed_title><pmcid>PMC9535528</pmcid><funding_grant_id>6250-51000-051-00D-1</funding_grant_id><funding_grant_id>OPP1133329</funding_grant_id><pubmed_authors>Hsu JW</pubmed_authors><pubmed_authors>Kashyap S</pubmed_authors><pubmed_authors>Thomas T</pubmed_authors><pubmed_authors>Kurpad AV</pubmed_authors><pubmed_authors>Jahoor F</pubmed_authors><pubmed_authors>Shivakumar N</pubmed_authors></additional><is_claimable>false</is_claimable><name>Tryptophan oxidation in young children with environmental enteric dysfunction classified by the lactulose rhamnose ratio.</name><description>&lt;h4>Background&lt;/h4>In young children, associations between linear growth faltering, environmental enteric dysfunction (EED), and the plasma kynurenine (Kyn)/tryptophan (Trp) ratio (KTR) have led to the proposal that higher Trp catabolism in response to intestinal/systemic inflammation limits Trp availability for protein synthesis, resulting in impaired growth.&lt;h4>Objectives&lt;/h4>We sought to estimate the Trp oxidation rate and the Trp conversion rate to Kyn in young children with and without EED.&lt;h4>Methods&lt;/h4>Children aged 18-24 mo, from urban slums, were assigned to EED (n = 19) or no-EED (n = 26) groups on the basis of a urinary lactulose/rhamnose ratio (LRR) cutoff based on mean + 2 SDs of LRR (≥0.068) in normal age- and sex-matched, high-socioeconomic status children. Plasma KTR and fecal biomarkers of EED were measured. Trp oxidation in the fed state was measured using 13C1-Trp in an oral plateau feeding protocol.&lt;h4>Results&lt;/h4>The median (quartile 1, quartile 3) fasted KTR was 0.089 (0.066, 0.110) in children with EED compared with 0.070 (0.050, 0.093) in children with no EED (P = 0.077). However, there was no difference in fed-state Trp oxidation [median (quartile 1, quartile 3) 3.1 (1.3, 5.8) compared with 3.9 (1.8, 6.0) µmol/kg FFM/h, respectively, P = 0.617] or Trp availability for protein synthesis [42.6 (36.5, 45.7) compared with 42.5 (37.9, 46.9) µmol/kg FFM/h, respectively, P = 0.868] between the groups. In contrast, the median (quartile 1, quartile 3) fractional synthesis rates of Kyn [12.5 (5.4, 20.0) compared with 21.3 (16.1, 24.7) %pool/h, P = 0.005] and the fraction of Ala derived from Trp [0.007 (0.005, 0.015) compared with 0.012 (0.008, 0.018), P = 0.037], respectively, in the plasma compartment were significantly slower in the EED group. Fecal biomarkers of EED did not differ between the groups.&lt;h4>Conclusions&lt;/h4>The static plasma KTR value is not a good indicator of the dynamic Trp flux down its oxidative pathway. In a poor sanitary environment, children without EED actually have a faster Kyn synthesis rate, which might be beneficial, because of the cytoprotective and anti-inflammatory functions of downstream metabolites. This study was registered in the Clinical Trials Registry of India as CTRI/2017/02/007921.</description><dates><release>2022-01-01T00:00:00Z</release><publication>2022 Oct</publication><modification>2025-04-18T21:01:11.581Z</modification><creation>2025-04-07T09:01:54.216Z</creation></dates><accession>S-EPMC9535528</accession><cross_references><pubmed>35700138</pubmed><doi>10.1093/ajcn/nqac171</doi></cross_references></HashMap>