Dietary Protein Restriction Improves Metabolic Dysfunction in Patients with Metabolic Syndrome in a Randomized, Controlled Trial.
Rafael Ferraz-BannitzRebeca A BeraldoA Augusto PelusoMorten DallParizad BabaeiRayana Cardoso FogliettiLarissa Marfori MartinsPatricia Moreira GomesJulio Sergio MarchiniVivian Marques Miguel SuenLuiz Carlos C de FreitasLuiz Carlos NavegantesMarco Antônio M PrettiMariana BoroniJonas T TreebakMarcelo A MoriMilton Cesar FossMaria Cristina Foss de FreitasPublished in: Nutrients (2022)
Dietary restriction (DR) reduces adiposity and improves metabolism in patients with one or more symptoms of metabolic syndrome. Nonetheless, it remains elusive whether the benefits of DR in humans are mediated by calorie or nutrient restriction. This study was conducted to determine whether isocaloric dietary protein restriction is sufficient to confer the beneficial effects of dietary restriction in patients with metabolic syndrome. We performed a prospective, randomized controlled dietary intervention under constant nutritional and medical supervision. Twenty-one individuals diagnosed with metabolic syndrome were randomly assigned for caloric restriction (CR; n = 11, diet of 5941 ± 686 KJ per day) or isocaloric dietary protein restriction (PR; n = 10, diet of 8409 ± 2360 KJ per day) and followed for 27 days. Like CR, PR promoted weight loss due to a reduction in adiposity, which was associated with reductions in blood glucose, lipid levels, and blood pressure. More strikingly, both CR and PR improved insulin sensitivity by 62.3% and 93.2%, respectively, after treatment. Fecal microbiome diversity was not affected by the interventions. Adipose tissue bulk RNA-Seq data revealed minor changes elicited by the interventions. After PR, terms related to leukocyte proliferation were enriched among the upregulated genes. Protein restriction is sufficient to confer almost the same clinical outcomes as calorie restriction without the need for a reduction in calorie intake. The isocaloric characteristic of the PR intervention makes this approach a more attractive and less drastic dietary strategy in clinical settings and has more significant potential to be used as adjuvant therapy for people with metabolic syndrome.
Keyphrases
- metabolic syndrome
- weight loss
- insulin resistance
- blood pressure
- adipose tissue
- rna seq
- blood glucose
- physical activity
- randomized controlled trial
- single cell
- bariatric surgery
- uric acid
- roux en y gastric bypass
- cardiovascular disease
- early stage
- healthcare
- protein protein
- high fat diet
- cardiovascular risk factors
- gene expression
- electronic health record
- artificial intelligence
- type diabetes
- machine learning
- genome wide
- big data
- depressive symptoms
- transcription factor
- binding protein
- body mass index
- glycemic control
- obese patients
- data analysis
- genome wide identification