4.7 Article

Peanuts as a nighttime snack enrich butyrate-producing bacteria compared to an isocaloric lower-fat higher-carbohydrate snack in adults with elevated fasting glucose: A randomized crossover trial

期刊

CLINICAL NUTRITION
卷 41, 期 10, 页码 2169-2177

出版社

CHURCHILL LIVINGSTONE
DOI: 10.1016/j.clnu.2022.08.004

关键词

Gut microbiota; Glucose; Short chain fatty acids; Diet quality; Peanuts

资金

  1. Peanut Institute
  2. Clinical & Translational Research Institute, Pennsylvania State University CTSA, NIH/NCATS [1UL1TR002014-01]
  3. National Science Foundation [DBI-1248096]
  4. Juniata College from the Howard Hughes Medical

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The study aimed to investigate the effect of daily consumption of 28 g peanuts on gut microbiota composition. The results showed that the abundance of Ruminococcaceae increased significantly after peanut intake, and metatranscriptomic analysis revealed increased gene expression. These findings suggest that peanut consumption can modulate the composition of the gut microbiota.
Background: Tree nuts have glucoregulatory effects and influence gut microbiota composition. The effect of peanuts on the microbiota has not been investigated. Objectives: The aim was to examine the effect of 28 g/d of peanuts for 6-wks, compared to an isocaloric lower-fat higher-carbohydrate (LFHC) snack, on gut microbiota composition. A secondary aim was to identify functional and active compositional differences in a subset of participants using metatranscriptomics. Methods: In a randomized, crossover trial, 50 adults (48% female; 42 +/- 15 y; BMI 28.3 +/- 5.6 kg/m(2); plasma glucose 100 +/- 8 mg/dL) consumed 28 g/d of dry roasted, unsalted, peanuts (164 kcal; 11% E carbohydrate, 17% E protein, 73% E fat, and 2.4 g fiber) or a LFHC snack (164 kcal; 53% E carbohydrate, 17% E protein, 33% E fat, and 3 g fiber) for 6-wk (4-wk washout period). Gut bacterial composition was measured using 16S rRNA sequencing in the whole cohort. Exploratory metatranscriptomic analyses were conducted on a random subset (n = 24) of samples from the Peanut condition. Results: No between-condition differences in alpha- or beta- diversity were observed. Following peanut intake, Ruminococcaceae were significantly more abundant [Linear discriminant analysis score (LDA) = 2.8; P = 0.027)] compared to LFHC. Metatranscriptomics showed increased expression of the K03518 (aerobic carbon-monoxide dehydrogenase small subunit) gene following peanut intake (LDA = 2.0; P = 0.004) and Roseburia intestinalis L1-82 was identified as a contributor to the increased expression. Conclusion: An increased abundance of Ruminococcaceae was observed following consumption of 28 g/d of peanuts in adults with elevated fasting glucose after 6-wks. Metatranscriptomics revealed increased expression of the K03518 gene. These results suggest peanut intake enriches a known butyrate producer and the increased expression of a gene implicated in butyrate production adds further support for peanut-induced gut microbiome modulation. (C) 2022 The Author(s). Published by Elsevier Ltd.

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