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A high-protein weight loss program and elevation within the amino acid leucine could contribute to buildup of plaque in arteries

In a latest research printed in Nature Metabolism, researchers performed medical research on murine animals and people to judge the impression of excessive protein consumption on the amino acid-mammalian goal of the rapamycin advanced 1 (mTORC1) autophagy signaling pathway. Additionally they assessed the dose-response relationship, downstream results, and amino acid specificity of mTORC1 activation.

A high-protein weight loss program and elevation within the amino acid leucine could contribute to buildup of plaque in arteries
Examine: Identification of a leucine-mediated threshold impact governing macrophage mTOR signalling and cardiovascular threat. Picture Credit score: Crevis/Shutterstock.com

Background

Animal research have reported excessive protein consumption related to heart problems in Western nations. Excessive-protein diets improve atherogenesis via amino-acid-mediated mTORC1 signaling and impair autophagy and mitophagy in macrophages. The precise articular processes underlying this activation stay unknown, though the authors speculate that the stimulatory impression could also be associated to sure ‘pathogenic’ amino acids.

Concerning the research

Within the current research, researchers performed two medical experiments to research the dose-response connection between dietary protein consumption and the amino acid specificity of the amino acid-mTOR-autophagy pathway in human monocytes or macrophages.

The primary experiment examined protein consumption extremes by assessing the impression of fluid meals containing 50% or 10% protein content material on mTORC1 pathway activation in monocytes. The second experiment used a extra sensible setting, assessing these leads to topics who obtained normal protein meals or blended meals with extra protein (15% kilocalories vs. 22% kilocalories). The research analyzed monocytes expressing cluster of differentiation 14 (CD14+) however not CD16 since they characterize most monocytes in circulation and are more than likely to become atherosclerotic macrophages.

The group carried out movement cytometry and monocyte isolation from platelets. They used western blotting, fluorescence-activated cell sorting (FACS), and immunofluorescence to research the impression of various protein content material meals on serological amino acid ranges, monocyte mTORC1 signaling, and downstream penalties.

The group investigated 14 chubby people [based on body mass index (BMI)] twice following a 12-hour in a single day quick. The individuals consumed low- and really high-level protein meals. The researchers used cultured human monocyte-derived macrophages to research the macrophage-specific mTORC1 response to amino acids and to evaluate dosage results.

They measured amino acid concentrations in plasma and macrophages utilizing fuel chromatography-mass spectrometry and quantified the arginine quantities in plasma utilizing liquid chromatography-mass spectrometry. They decided the scale of atherosclerotic lesions utilizing Oil Crimson O staining of aortic root slices.

The researchers investigated whether or not leucine-dependent mTORC1 activation happens in vivo in mice and cultured murine macrophages. ApoE knockout mice had been fed six meals over eight weeks, together with a moderate-protein western weight loss program, a high-protein western weight loss program, a moderate-protein western weight loss program with leucine and amino acids, extra amino acids, and a nitrogen-adjusted model of moderate-protein plus amino acids.

They investigated whether or not serum amino acids had been current in C57BL/6J mice weaned at three weeks previous. In vivo, atherosclerosis-related investigations started at eight weeks utilizing male mice of the given genotype fed various diets.

Outcomes

The research recognized leucine as the first activator of mTOR signaling in macrophages, displaying a threshold impression of consuming protein in massive portions and circulating leucine on monocytes or macrophages. Solely protein above 25g per meal prompts mTOR and has useful penalties. Ingestion of proteins above 22% of dietary vitality wants triggers the dangerous amino acid-mTORC1-autophagy signaling pathway in human monocytes and macrophages, which causes atherosclerosis in male mice. The research discovered a powerful hyperlink between excessive protein consumption and atherosclerotic heart problems threat, indicating the likelihood for weight loss program recommendation and therapy measures.

The whole amino acid content material in plasma elevated after having the high-protein liquid meal however not after consuming the low-protein one. Throughout the three-hour postprandial interval, consuming the very excessive protein degree boosted mTORC1 signaling and steadily lowered LC3 sign depth, indicating mTORC1-mediated autophagy suppression. Western blot evaluation confirmed a strong dose-dependent impression of leucine-mediated mTORC1 activation in HMDMs, as evaluated by phosphorylation of ribosomal protein S6 and ribosomal protein S6 kinase (p-S6K).

The group additionally discovered a dose-dependent threshold impact for mTOR-LAMP2 colocalization, suppression of autophagy (diminished LC3 puncta formation), and mitophagy (lowered colocalization of the mitochondrial marker COXIV with the autophagosome marker LC3). They noticed considerably elevated ranges of 4 amino acids (Leu, Ile, Val, and Thr) in mice following protein gavage in comparison with management gavage.

Leucine was the simplest mTORC1 activator, with 1.6 g of protein per kg of gavage leading to larger mTORC1 activation than 0.8 g of protein per kg of gavage. The research revealed that elevated dietary leucine is each required and ample to provide the pro-atherogenic impression of a high-protein weight loss program in vivo.

The research findings confirmed that top protein consumption, notably via elevated plasma leucine, would possibly suppress mTORC1-mediated autophagy and atherogenesis in monocytes and macrophages, with important medical and public well being implications.

Though larger protein consumption than the beneficial allowance of 0.8 grams/kg/day is regarded protected, the research suggests warning and extra medical research. Leucine was the first amino acid accountable for activating mTOR in macrophages, and rising protein consumption had a threshold impact on the detrimental signaling pathway.

A complete examination is required to find out the correct threshold between dietary protein advantages and unfavourable well being impacts.

Journal reference:

  • Zhang, X., Kapoor, D., Jeong, SJ. et al. Identification of a leucine-mediated threshold impact governing macrophage mTOR signalling and cardiovascular threat. Nat Metab 6, 359–377 (2024). doi: https://doi.org/10.1038/s42255-024-00984-2

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