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Gut microbial features can predict host phenotype response to protein deficiency. Journal Article
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| Authors: | Navarro, G; Sharma, A; Dugas, LR; Forrester, T; Gilbert, JA; Layden, BT |
| Article Title: | Gut microbial features can predict host phenotype response to protein deficiency. |
| Abstract: | Malnutrition remains a major health problem in low- and middle-income countries. During low protein intake, 0.67 g/kg/day, there is a loss of nitrogen (N ) balance, due to the unavailability of amino acid for metabolism and unbalanced protein catabolism results. However, there are individuals, who consume the same low protein intake, and preserve N balance for unknown reasons. A novel factor, the gut microbiota, may account for these N balance differences. To investigate this, we correlated gut microbial profiles with the growth of four murine strains (C57Bl6/J, CD-1, FVB, and NIH-Swiss) on protein deficient (PD) diet. Results show that a PD diet exerts a strain-dependent impact on growth and N balance as determined through analysis of urinary urea, ammonia and creatinine excretion. Bacterial alpha diversity was significantly (P 0.05, FDR) lower across all strains on a PD diet compared to normal chow (NC). Multi-group analyses of the composition of microbiomes (ANCOM) revealed significantly differential microbial signatures between the four strains independent of diet. However, mice on a PD diet demonstrated differential enrichment of bacterial genera including, Allobaculum (C57Bl6/J), Parabacteroides (CD-1), Turicibacter (FVB), and Mucispirillum (NIH-Swiss) relative to NC. For instance, selective comparison of the CD-1 (gained weight) and C57Bl6/J (did not gain weight) strains on PD diet also demonstrated significant pathway enrichment of dihydroorodate dehydrogenase, rRNA methyltransferases, and RNA splicing ligase in the CD-1 strains compared to C57Bl6/J strains; which might account in their ability to retain growth despite a protein deficient diet. Taken together, these results suggest a potential relationship between the specific gut microbiota, N balance and animal response to malnutrition. |
| Journal Title: | Physiological reports |
| ISSN: | 2051-817X; 2051-817X |
| Publisher: | The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of The Physiological Society and the American Physiological Society |
| Date Published: | 2018 |
