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Abstract Title:

Plasma metabolomics in adults with cystic fibrosis during a pulmonary exacerbation: A pilot randomized study of high-dose vitamin D3 administration.

Abstract Source:

Metabolism. 2017 May ;70:31-41. Epub 2017 Feb 11. PMID: 28403943

Abstract Author(s):

Jessica A Alvarez, Elizabeth Y Chong, Douglas I Walker, Joshua D Chandler, Ellen S Michalski, Ruth E Grossmann, Karan Uppal, Shuzhao Li, Jennifer K Frediani, Rabindra Tirouvanziam, ViLinh T Tran, Vin Tangpricha, Dean P Jones, Thomas R Ziegler

Article Affiliation:

Jessica A Alvarez

Abstract:

BACKGROUND: Cystic fibrosis (CF) is a chronic catabolic disease often requiring hospitalization for acute episodes of worsening pulmonary exacerbations. Limited data suggest that vitamin D may have beneficial clinical effects, but the impact of vitamin D on systemic metabolism in this setting is unknown.

OBJECTIVE: We used high-resolution metabolomics (HRM) to assess the impact of baseline vitamin D status and high-dose vitamin D3 administration on systemic metabolism in adults with CF with an acute pulmonary exacerbation.

DESIGN: Twenty-five hospitalized adults with CF were enrolled in a randomized trial of high-dose vitamin D3 (250,000IU vitamin D3 bolus) versus placebo. Age-matched healthy subjects served as a reference group for baseline comparisons. Plasma was analyzed with liquid chromatography/ultra-high resolution mass spectrometry. Using recent HRM bioinformatics and metabolic pathway enrichment methods, we examined associations with baseline vitamin D status (sufficient vs. deficient per serum 25-hydroxyvitamin D concentrations) and the 7-day response to vitamin D3 supplementation.

RESULTS: Several amino acids and lipid metabolites differed between CF and healthy control subjects, indicative of an overall catabolic state. In CF subjects, 343 metabolites differed (P<0.05) by baseline vitamin D status and were enriched within 7 metabolic pathways including fatty acid, amino acid, and carbohydrate metabolism. A total of 316 metabolites, which showed enrichment for 15 metabolic pathways-predominantly representing amino acid pathways-differed between the vitamin D3- and placebo-treated CF subjects over time (P<0.05). In the placebo group, several tricarboxylic acid cycle intermediates increased while several amino acid-related metabolites decreased; in contrast, little change in these metabolites occurred with vitamin D3 treatment.

CONCLUSIONS: Numerous metabolic pathways detected by HRM varied in association with vitamin D status and high-dose vitamin D3 supplementation in adults with CF experiencing a pulmonary exacerbation. Overall, these pilot data suggest an anti-catabolic effect of high-dose vitamin D3 in this clinical setting.

Study Type : Human Study

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