Controlled dietary phosphate loading in healthy young men elevates plasma phosphate and FGF23 levels

Increased dietary inorganic phosphate (P i ) intake stimulates renal P i excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or dopamine. High dietary P i may also stimulate sympathetic outflow. Rodent studies provided evidence for these regulatory loops, while cont...

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Published in	Pflügers Archiv Vol. 477; no. 3; pp. 495 - 508
Main Authors	Gerber, Jennifer Scotti, Arroyo, Eva Maria Pastor, Pastor, Johanne, Correia, Miguel, Rudloff, Stefan, Moe, Orson W., Egli-Spichtig, Daniela, Mohebbi, Nilufar, Wagner, Carsten A.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.03.2025 Springer Nature B.V
Subjects	Adult Aldosterone Biomedical and Life Sciences Biomedicine Blood levels Calcitriol Calcitriol - blood Calcium (dietary) Calcium (urinary) Calcium - urine Calcium metabolism Cardiovascular diseases Cell Biology Cross-Over Studies Diet Dietary intake Dopamine Excretion Fibroblast Growth Factor-23 Fibroblast Growth Factors - blood Glucuronidase - blood Human Physiology Humans Klotho protein Klotho Proteins Male Molecular Medicine Neurosciences Norepinephrine Nutrient deficiency Parathyroid hormone Parathyroid Hormone - blood Phosphate Phosphates - administration & dosage Phosphates - blood Phosphorus Phosphorus, Dietary - administration & dosage Physiology Receptors Renal function Young Adult Human trial Diet FGF23 Phosphate Health risk
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ISSN	0031-6768 1432-2013 1432-2013
DOI	10.1007/s00424-024-03046-4

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Abstract	Increased dietary inorganic phosphate (P i ) intake stimulates renal P i excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or dopamine. High dietary P i may also stimulate sympathetic outflow. Rodent studies provided evidence for these regulatory loops, while controlled experiments in healthy humans examined periods of either a few hours or several weeks, and often varied dietary calcium intake. The effects of controlled, isolated changes in dietary P i intake over shorter periods are unknown. We studied the effects of a low or high P i diet on parameters of mineral metabolism in 10 healthy young men. Participants received a standardized diet (1000 mg phosphorus equivalent/day) supplemented with either a phosphate binder (low P i diet) or phosphate capsules (750 mg phosphorus, high P i diet) in a randomized cross-over trial for 5 days with a 7-day washout between diets. High P i intake increased plasma P i levels and 24-h excretion and decreased urinary calcium excretion. High P i intake increased intact FGF23 (iFGF23) and suppressed plasma Klotho without affecting cFGF23, PTH, calcidiol, calcitriol, Fetuin-A, dopamine, epinephrine, norepinephrine, metanephrine, or aldosterone. Higher iFGF23 correlated with lower calcitriol and higher PTH. These data support a role for iFGF23 in increasing renal P i excretion and reducing calcitriol in healthy young men during steady-state high dietary P i intake. High dietary P i intake elevated blood P i levels in healthy young subjects with normal renal function and may therefore be a health risk, as higher serum P i levels are associated with cardiovascular risk in the general population.
AbstractList	Increased dietary inorganic phosphate (P i ) intake stimulates renal P i excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or dopamine. High dietary P i may also stimulate sympathetic outflow. Rodent studies provided evidence for these regulatory loops, while controlled experiments in healthy humans examined periods of either a few hours or several weeks, and often varied dietary calcium intake. The effects of controlled, isolated changes in dietary P i intake over shorter periods are unknown. We studied the effects of a low or high P i diet on parameters of mineral metabolism in 10 healthy young men. Participants received a standardized diet (1000 mg phosphorus equivalent/day) supplemented with either a phosphate binder (low P i diet) or phosphate capsules (750 mg phosphorus, high P i diet) in a randomized cross-over trial for 5 days with a 7-day washout between diets. High P i intake increased plasma P i levels and 24-h excretion and decreased urinary calcium excretion. High P i intake increased intact FGF23 (iFGF23) and suppressed plasma Klotho without affecting cFGF23, PTH, calcidiol, calcitriol, Fetuin-A, dopamine, epinephrine, norepinephrine, metanephrine, or aldosterone. Higher iFGF23 correlated with lower calcitriol and higher PTH. These data support a role for iFGF23 in increasing renal P i excretion and reducing calcitriol in healthy young men during steady-state high dietary P i intake. High dietary P i intake elevated blood P i levels in healthy young subjects with normal renal function and may therefore be a health risk, as higher serum P i levels are associated with cardiovascular risk in the general population. Increased dietary inorganic phosphate (Pi) intake stimulates renal Pi excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or dopamine. High dietary Pi may also stimulate sympathetic outflow. Rodent studies provided evidence for these regulatory loops, while controlled experiments in healthy humans examined periods of either a few hours or several weeks, and often varied dietary calcium intake. The effects of controlled, isolated changes in dietary Pi intake over shorter periods are unknown. We studied the effects of a low or high Pi diet on parameters of mineral metabolism in 10 healthy young men. Participants received a standardized diet (1000 mg phosphorus equivalent/day) supplemented with either a phosphate binder (low Pi diet) or phosphate capsules (750 mg phosphorus, high Pi diet) in a randomized cross-over trial for 5 days with a 7-day washout between diets. High Pi intake increased plasma Pi levels and 24-h excretion and decreased urinary calcium excretion. High Pi intake increased intact FGF23 (iFGF23) and suppressed plasma Klotho without affecting cFGF23, PTH, calcidiol, calcitriol, Fetuin-A, dopamine, epinephrine, norepinephrine, metanephrine, or aldosterone. Higher iFGF23 correlated with lower calcitriol and higher PTH. These data support a role for iFGF23 in increasing renal Pi excretion and reducing calcitriol in healthy young men during steady-state high dietary Pi intake. High dietary Pi intake elevated blood Pi levels in healthy young subjects with normal renal function and may therefore be a health risk, as higher serum Pi levels are associated with cardiovascular risk in the general population. Increased dietary inorganic phosphate (Pi) intake stimulates renal Pi excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or dopamine. High dietary Pi may also stimulate sympathetic outflow. Rodent studies provided evidence for these regulatory loops, while controlled experiments in healthy humans examined periods of either a few hours or several weeks, and often varied dietary calcium intake. The effects of controlled, isolated changes in dietary Pi intake over shorter periods are unknown. We studied the effects of a low or high Pi diet on parameters of mineral metabolism in 10 healthy young men. Participants received a standardized diet (1000 mg phosphorus equivalent/day) supplemented with either a phosphate binder (low Pi diet) or phosphate capsules (750 mg phosphorus, high Pi diet) in a randomized cross-over trial for 5 days with a 7-day washout between diets. High Pi intake increased plasma Pi levels and 24-h excretion and decreased urinary calcium excretion. High Pi intake increased intact FGF23 (iFGF23) and suppressed plasma Klotho without affecting cFGF23, PTH, calcidiol, calcitriol, Fetuin-A, dopamine, epinephrine, norepinephrine, metanephrine, or aldosterone. Higher iFGF23 correlated with lower calcitriol and higher PTH. These data support a role for iFGF23 in increasing renal Pi excretion and reducing calcitriol in healthy young men during steady-state high dietary Pi intake. High dietary Pi intake elevated blood Pi levels in healthy young subjects with normal renal function and may therefore be a health risk, as higher serum Pi levels are associated with cardiovascular risk in the general population.Increased dietary inorganic phosphate (Pi) intake stimulates renal Pi excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or dopamine. High dietary Pi may also stimulate sympathetic outflow. Rodent studies provided evidence for these regulatory loops, while controlled experiments in healthy humans examined periods of either a few hours or several weeks, and often varied dietary calcium intake. The effects of controlled, isolated changes in dietary Pi intake over shorter periods are unknown. We studied the effects of a low or high Pi diet on parameters of mineral metabolism in 10 healthy young men. Participants received a standardized diet (1000 mg phosphorus equivalent/day) supplemented with either a phosphate binder (low Pi diet) or phosphate capsules (750 mg phosphorus, high Pi diet) in a randomized cross-over trial for 5 days with a 7-day washout between diets. High Pi intake increased plasma Pi levels and 24-h excretion and decreased urinary calcium excretion. High Pi intake increased intact FGF23 (iFGF23) and suppressed plasma Klotho without affecting cFGF23, PTH, calcidiol, calcitriol, Fetuin-A, dopamine, epinephrine, norepinephrine, metanephrine, or aldosterone. Higher iFGF23 correlated with lower calcitriol and higher PTH. These data support a role for iFGF23 in increasing renal Pi excretion and reducing calcitriol in healthy young men during steady-state high dietary Pi intake. High dietary Pi intake elevated blood Pi levels in healthy young subjects with normal renal function and may therefore be a health risk, as higher serum Pi levels are associated with cardiovascular risk in the general population. Increased dietary inorganic phosphate (Pi) intake stimulates renal Pi excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or dopamine. High dietary Pi may also stimulate sympathetic outflow. Rodent studies provided evidence for these regulatory loops, while controlled experiments in healthy humans examined periods of either a few hours or several weeks, and often varied dietary calcium intake. The effects of controlled, isolated changes in dietary Pi intake over shorter periods are unknown. We studied the effects of a low or high Pi diet on parameters of mineral metabolism in 10 healthy young men. Participants received a standardized diet (1000 mg phosphorus equivalent/day) supplemented with either a phosphate binder (low Pi diet) or phosphate capsules (750 mg phosphorus, high Pi diet) in a randomized cross-over trial for 5 days with a 7-day washout between diets. High Pi intake increased plasma Pi levels and 24-h excretion and decreased urinary calcium excretion. High Pi intake increased intact FGF23 (iFGF23) and suppressed plasma Klotho without affecting cFGF23, PTH, calcidiol, calcitriol, Fetuin-A, dopamine, epinephrine, norepinephrine, metanephrine, or aldosterone. Higher iFGF23 correlated with lower calcitriol and higher PTH. These data support a role for iFGF23 in increasing renal Pi excretion and reducing calcitriol in healthy young men during steady-state high dietary Pi intake. High dietary Pi intake elevated blood Pi levels in healthy young subjects with normal renal function and may therefore be a health risk, as higher serum Pi levels are associated with cardiovascular risk in the general population. Increased dietary inorganic phosphate (P ) intake stimulates renal P excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or dopamine. High dietary P may also stimulate sympathetic outflow. Rodent studies provided evidence for these regulatory loops, while controlled experiments in healthy humans examined periods of either a few hours or several weeks, and often varied dietary calcium intake. The effects of controlled, isolated changes in dietary P intake over shorter periods are unknown. We studied the effects of a low or high P diet on parameters of mineral metabolism in 10 healthy young men. Participants received a standardized diet (1000 mg phosphorus equivalent/day) supplemented with either a phosphate binder (low P diet) or phosphate capsules (750 mg phosphorus, high P diet) in a randomized cross-over trial for 5 days with a 7-day washout between diets. High P intake increased plasma P levels and 24-h excretion and decreased urinary calcium excretion. High P intake increased intact FGF23 (iFGF23) and suppressed plasma Klotho without affecting cFGF23, PTH, calcidiol, calcitriol, Fetuin-A, dopamine, epinephrine, norepinephrine, metanephrine, or aldosterone. Higher iFGF23 correlated with lower calcitriol and higher PTH. These data support a role for iFGF23 in increasing renal P excretion and reducing calcitriol in healthy young men during steady-state high dietary P intake. High dietary P intake elevated blood P levels in healthy young subjects with normal renal function and may therefore be a health risk, as higher serum P levels are associated with cardiovascular risk in the general population.
Author	Rudloff, Stefan Pastor, Johanne Moe, Orson W. Correia, Miguel Mohebbi, Nilufar Arroyo, Eva Maria Pastor Egli-Spichtig, Daniela Gerber, Jennifer Scotti Wagner, Carsten A.
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Snippet	Increased dietary inorganic phosphate (P i ) intake stimulates renal P i excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23)... Increased dietary inorganic phosphate (P ) intake stimulates renal P excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or... Increased dietary inorganic phosphate (Pi) intake stimulates renal Pi excretion, in part, by parathyroid hormone (PTH), fibroblast growth factor 23 (FGF23) or...
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SubjectTerms	Adult Aldosterone Biomedical and Life Sciences Biomedicine Blood levels Calcitriol Calcitriol - blood Calcium (dietary) Calcium (urinary) Calcium - urine Calcium metabolism Cardiovascular diseases Cell Biology Cross-Over Studies Diet Dietary intake Dopamine Excretion Fibroblast Growth Factor-23 Fibroblast Growth Factors - blood Glucuronidase - blood Human Physiology Humans Klotho protein Klotho Proteins Male Molecular Medicine Neurosciences Norepinephrine Nutrient deficiency Parathyroid hormone Parathyroid Hormone - blood Phosphate Phosphates - administration & dosage Phosphates - blood Phosphorus Phosphorus, Dietary - administration & dosage Physiology Receptors Renal function Young Adult
Title	Controlled dietary phosphate loading in healthy young men elevates plasma phosphate and FGF23 levels
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