Metabolic Rewiring and Communication: An Integrative View of Kidney Proximal Tubule Function

Maria Chrysopoulou; Markus M Rinschen

doi:10.1146/annurev-physiol-042222-024724

Metabolic Rewiring and Communication: An Integrative View of Kidney Proximal Tubule Function

Standard

Metabolic Rewiring and Communication: An Integrative View of Kidney Proximal Tubule Function. / Chrysopoulou, Maria; Rinschen, Markus M.

in: ANNU REV PHYSIOL, Jahrgang 86, 12.02.2024, S. 405-427.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Review › Forschung

Harvard

Chrysopoulou, M & Rinschen, MM 2024, 'Metabolic Rewiring and Communication: An Integrative View of Kidney Proximal Tubule Function', ANNU REV PHYSIOL, Jg. 86, S. 405-427. https://doi.org/10.1146/annurev-physiol-042222-024724

APA

Chrysopoulou, M., & Rinschen, M. M. (2024). Metabolic Rewiring and Communication: An Integrative View of Kidney Proximal Tubule Function. ANNU REV PHYSIOL, 86, 405-427. https://doi.org/10.1146/annurev-physiol-042222-024724

Vancouver

Chrysopoulou M, Rinschen MM. Metabolic Rewiring and Communication: An Integrative View of Kidney Proximal Tubule Function. ANNU REV PHYSIOL. 2024 Feb 12;86:405-427. https://doi.org/10.1146/annurev-physiol-042222-024724

Bibtex

@article{1655036a483f45feb95e8b9312348804,

title = "Metabolic Rewiring and Communication: An Integrative View of Kidney Proximal Tubule Function",

abstract = "The kidney proximal tubule is a key organ for human metabolism. The kidney responds to stress with altered metabolite transformation and perturbed metabolic pathways, an ultimate cause for kidney disease. Here, we review the proximal tubule's metabolic function through an integrative view of transport, metabolism, and function, and embed it in the context of metabolome-wide data-driven research. Function (filtration, transport, secretion, and reabsorption), metabolite transformation, and metabolite signaling determine kidney metabolic rewiring in disease. Energy metabolism and substrates for key metabolic pathways are orchestrated by metabolite sensors. Given the importance of renal function for the inner milieu, we also review metabolic communication routes with other organs. Exciting research opportunities exist to understand metabolic perturbation of kidney and proximal tubule function, for example, in hypertension-associated kidney disease. We argue that, based on the integrative view outlined here, kidney diseases without genetic cause should be approached scientifically as metabolic diseases.",

author = "Maria Chrysopoulou and Rinschen, {Markus M}",

year = "2024",

month = feb,

day = "12",

doi = "10.1146/annurev-physiol-042222-024724",

language = "English",

volume = "86",

pages = "405--427",

journal = "ANNU REV PHYSIOL",

issn = "0066-4278",

publisher = "Annual Reviews Inc.",

}

RIS

TY - JOUR

T1 - Metabolic Rewiring and Communication: An Integrative View of Kidney Proximal Tubule Function

AU - Chrysopoulou, Maria

AU - Rinschen, Markus M

PY - 2024/2/12

Y1 - 2024/2/12

N2 - The kidney proximal tubule is a key organ for human metabolism. The kidney responds to stress with altered metabolite transformation and perturbed metabolic pathways, an ultimate cause for kidney disease. Here, we review the proximal tubule's metabolic function through an integrative view of transport, metabolism, and function, and embed it in the context of metabolome-wide data-driven research. Function (filtration, transport, secretion, and reabsorption), metabolite transformation, and metabolite signaling determine kidney metabolic rewiring in disease. Energy metabolism and substrates for key metabolic pathways are orchestrated by metabolite sensors. Given the importance of renal function for the inner milieu, we also review metabolic communication routes with other organs. Exciting research opportunities exist to understand metabolic perturbation of kidney and proximal tubule function, for example, in hypertension-associated kidney disease. We argue that, based on the integrative view outlined here, kidney diseases without genetic cause should be approached scientifically as metabolic diseases.

AB - The kidney proximal tubule is a key organ for human metabolism. The kidney responds to stress with altered metabolite transformation and perturbed metabolic pathways, an ultimate cause for kidney disease. Here, we review the proximal tubule's metabolic function through an integrative view of transport, metabolism, and function, and embed it in the context of metabolome-wide data-driven research. Function (filtration, transport, secretion, and reabsorption), metabolite transformation, and metabolite signaling determine kidney metabolic rewiring in disease. Energy metabolism and substrates for key metabolic pathways are orchestrated by metabolite sensors. Given the importance of renal function for the inner milieu, we also review metabolic communication routes with other organs. Exciting research opportunities exist to understand metabolic perturbation of kidney and proximal tubule function, for example, in hypertension-associated kidney disease. We argue that, based on the integrative view outlined here, kidney diseases without genetic cause should be approached scientifically as metabolic diseases.

U2 - 10.1146/annurev-physiol-042222-024724

DO - 10.1146/annurev-physiol-042222-024724

M3 - SCORING: Review article

C2 - 38012048

VL - 86

SP - 405

EP - 427

JO - ANNU REV PHYSIOL

JF - ANNU REV PHYSIOL

SN - 0066-4278

ER -