Chronic High Phosphate Intake in Mice Affects Macronutrient Utilization and Body Composition

Chronic High Phosphate Intake in Mice Affects Macronutrient Utilization and Body Composition

Scope In the last decades, dietary phosphate intake has increased due to a higher consumption of ultraprocessed food. This higher intake has an impact on body composition and health state. Recently, this study finds that a high chronic phosphate diet leads to no major renal alterations, but negative...

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Published in:Molecular nutrition & food research Vol. 66; no. 9; pp. e2100949 - n/a
Main Authors: Ugrica, Marko, Gehring, Nicole, Giesbertz, Pieter, Pastor‐Arroyo, Eva‐Maria, Daniel, Hannelore, Wagner, Carsten A., Rubio‐Aliaga, Isabel
Format: Journal Article
Language:English
Published: Germany Wiley Subscription Services, Inc 01-05-2022
Subjects:
1‐methylhistidine
Animals
Body Composition
Body fat
Body weight
Body weight gain
Cholesterol
Diet
Dietary Fats - pharmacology
Dietary intake
dietary phosphate
Eating
Energy metabolism
Female
Food consumption
Food intake
Glucose
Glucose tolerance
Homeostasis
Hypoglycemia
Male
Mice
Muscles
Nutrients
Parameters
Phosphate
Phosphates
Phosphates - pharmacology
Triglycerides
1-methylhistidine
body weight gain
body composition
dietary phosphate
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Summary:Scope In the last decades, dietary phosphate intake has increased due to a higher consumption of ultraprocessed food. This higher intake has an impact on body composition and health state. Recently, this study finds that a high chronic phosphate diet leads to no major renal alterations, but negatively affects parameters of bone health probably due to the chronic acid load. Here the effect of high phosphate consumption on parameters of energy metabolism is assessed. Methods and Results Healthy mature adult mice are fed for 1 year or 4 months with either a standard (0.6 % w/w) or a high phosphate (1.2 % w/w) diet. Males and females of two different genetic backgrounds are investigated. Mice feed the high phosphate diet show an attenuated body‐weight gain, lower respiratory exchange ratio, decreased body fat mass, and increased lean‐to‐fat mass ratio. Moreover, the high phosphate diet leads to fasting hypoglycemia with no differences in the glucose response to an oral glucose tolerance test. Triglycerides and cholesterol in blood are similar independently of dietary phosphate content. However, 1‐methylhistidine is lower in animals feed a chronic high phosphate intake. Conclusions High phosphate diet attenuates body weight gain, but induces hypoglycemia and may alter muscle homeostasis. Mice fed over one year a two‐fold higher phosphate diet, mimicking the average consumption reported in the general population, showed lower body weight gain and respiratory exchange rate (RER), alterations in body composition, fasting hypoglycemia, and decreased 1‐methylhistidine levels in blood. Previously, we showed that this is accompanied by no major alterations of kidney function, but decreased bone mineral mass.
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ISSN:1613-4125
1613-4133
DOI:10.1002/mnfr.202100949