Klotho in the kidney distal convolution regulates urinary Klotho excretion and kidney calcium reabsorption, but not phosphate homeostasis

Laurent Bourqui; Adisa Trnjanin; Klaudia Kopper; Dominique Loffing-Cueni; Zsuzsa Radvanyi; Artyom Karpovich; Tara Rahimi; Rui Santos; Agnieszka Wengi; Johanne Pastor; Orson W. Moe; Johannes Loffing; Ganesh Pathare

doi:10.1016/j.kint.2026.01.030

Klotho in the kidney distal convolution regulates urinary Klotho excretion and kidney calcium reabsorption, but not phosphate homeostasis

Laurent Bourqui
, Adisa Trnjanin
, Klaudia Kopper
, Dominique Loffing-Cueni
, Zsuzsa Radvanyi
, Artyom Karpovich
, Tara Rahimi
, Rui Santos
, Agnieszka Wengi
, Johanne Pastor
, Orson W. Moe
, Johannes Loffing^* (Co-first Author)
, Ganesh Pathare^* (Co-first Author)

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

Abstract

Introduction: Klotho acts as a coreceptor for the phosphaturic hormone fibroblast growth factor-23 (FGF-23) and exists in both a membrane-bound and a soluble form (sKlotho) found in blood and urine. Klotho protein is moderately expressed in kidney proximal tubule and more abundant in the distal convolution (DC), which includes the distal convoluted tubule (DCT) and connecting tubule (CNT). However, the function of Klotho in the DC, particularly its role in sKlotho release and regulation of mineral metabolism, remains unclear. Methods: scRNA-seq was performed on isolated mouse DC cells. Four novel gene-modified mouse models were generated with Klotho deleted in the entire DC, the late DCT/CNT, the DCT only, and pan-tubular. Results: Using scRNA-seq on isolated mouse DC tubules, we showed that Klotho is more abundant in the late-DCT/CNT than in the early DCT. The composite data from three DC specific Klotho knockout mice support DC to be the primary source of urinary sKlotho, with 80% coming from the late-DCT/CNT and only 20% from the DCT. Notably, mice lacking Klotho in the entire DC (Kl-KO^DC) maintained normal serum sKlotho, FGF-23, and phosphate homeostasis. Bulk RNA-seq of isolated fluorescent DC segments from Kl-KO^DC_Tomato mice revealed suppressed signaling by mitogen activated protein kinase and downregulation of several genes involved in kidney calcium ion handling (Trpv5, Vdr, Pth1r, Klk1). Consistently, the Kl-KO^DC mice exhibited profound hypercalciuria and reduced bone density. On the other hand, pan-tubular Klotho deficiency in mice led to severe phosphate imbalance and loss of both serum/urine sKlotho. Conclusions: DC-derived Klotho regulates urinary sKlotho levels and controls calcium ion reabsorption, while Klotho in proximal tubule maintains phosphate homeostasis and likely regulates circulating sKlotho levels. © 2026 International Society of Nephrology

Original language	English
Pages (from-to)	987-1003
Number of pages	17
Journal	Kidney International
Volume	109
Issue number	5
Online published	25 Feb 2026
DOIs	https://doi.org/10.1016/j.kint.2026.01.030
Publication status	Published - May 2026

Funding

The authors sincerely thank Monique Carrel for her excellent technical assistance. The authors also thank Robert Koesters and Gary Shull for providing the Pax8-rTA/LC1Cre/+ and NCC knockout mice, respectively. This work was supported by funds from the Clinical Research Priority Program HYRENE of the University of Zurich (UZH), the National Centre of Competence in Research Kidney.CH, the Swiss National Science Foundation (310030_173276), and intramural funding of the UZH (to JL), the National Institutes of Health (DK128208, DK091392), the Charles Pak Foundation, Dallas, Texas, USA (JP, OWM), and City University of Hong Kong (GP). JL and GP conceptualized and designed research; LB, AT, KK, DL-C, ZR, AK, TR, RS, JP, AW, and GP performed research; OWM and JP contributed new reagents/analytic tools; LB, AT, KK, DL-C, JP, OWM, JL, and GP analyzed the data; GP wrote the paper; LB, AT, KK, DL-C, ZR, JP, OWM, and JL reviewed and edited the paper; JL and GP were responsible for supervision; JL was responsible for funding acquisition. Supplementary material is available online at www.kidney-international.org.

Research Keywords

distal convolution
FGF23
Klotho
TRPV5 and Ca2+ reabsorption

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Bourqui, L., Trnjanin, A., Kopper, K., Loffing-Cueni, D., Radvanyi, Z., Karpovich, A., Rahimi, T., Santos, R., Wengi, A., Pastor, J., Moe, O. W., Loffing, J., & Pathare, G. (2026). Klotho in the kidney distal convolution regulates urinary Klotho excretion and kidney calcium reabsorption, but not phosphate homeostasis. Kidney International, 109(5), 987-1003. https://doi.org/10.1016/j.kint.2026.01.030

@article{d8ae4520a15649efba9fd401fb245e25,

title = "Klotho in the kidney distal convolution regulates urinary Klotho excretion and kidney calcium reabsorption, but not phosphate homeostasis",

abstract = "Introduction: Klotho acts as a coreceptor for the phosphaturic hormone fibroblast growth factor-23 (FGF-23) and exists in both a membrane-bound and a soluble form (sKlotho) found in blood and urine. Klotho protein is moderately expressed in kidney proximal tubule and more abundant in the distal convolution (DC), which includes the distal convoluted tubule (DCT) and connecting tubule (CNT). However, the function of Klotho in the DC, particularly its role in sKlotho release and regulation of mineral metabolism, remains unclear. Methods: scRNA-seq was performed on isolated mouse DC cells. Four novel gene-modified mouse models were generated with Klotho deleted in the entire DC, the late DCT/CNT, the DCT only, and pan-tubular. Results: Using scRNA-seq on isolated mouse DC tubules, we showed that Klotho is more abundant in the late-DCT/CNT than in the early DCT. The composite data from three DC specific Klotho knockout mice support DC to be the primary source of urinary sKlotho, with 80\% coming from the late-DCT/CNT and only 20\% from the DCT. Notably, mice lacking Klotho in the entire DC (Kl-KODC) maintained normal serum sKlotho, FGF-23, and phosphate homeostasis. Bulk RNA-seq of isolated fluorescent DC segments from Kl-KODC\_Tomato mice revealed suppressed signaling by mitogen activated protein kinase and downregulation of several genes involved in kidney calcium ion handling (Trpv5, Vdr, Pth1r, Klk1). Consistently, the Kl-KODC mice exhibited profound hypercalciuria and reduced bone density. On the other hand, pan-tubular Klotho deficiency in mice led to severe phosphate imbalance and loss of both serum/urine sKlotho. Conclusions: DC-derived Klotho regulates urinary sKlotho levels and controls calcium ion reabsorption, while Klotho in proximal tubule maintains phosphate homeostasis and likely regulates circulating sKlotho levels. {\textcopyright} 2026 International Society of Nephrology",

keywords = "distal convolution, FGF23, Klotho, TRPV5 and Ca2+ reabsorption",

author = "Laurent Bourqui and Adisa Trnjanin and Klaudia Kopper and Dominique Loffing-Cueni and Zsuzsa Radvanyi and Artyom Karpovich and Tara Rahimi and Rui Santos and Agnieszka Wengi and Johanne Pastor and Moe, \{Orson W.\} and Johannes Loffing and Ganesh Pathare",

year = "2026",

month = may,

doi = "10.1016/j.kint.2026.01.030",

language = "English",

volume = "109",

pages = "987--1003",

journal = "Kidney International",

issn = "0085-2538",

publisher = "Elsevier B.V.",

number = "5",

}

Bourqui, L, Trnjanin, A, Kopper, K, Loffing-Cueni, D, Radvanyi, Z, Karpovich, A, Rahimi, T, Santos, R, Wengi, A, Pastor, J, Moe, OW, Loffing, J & Pathare, G 2026, 'Klotho in the kidney distal convolution regulates urinary Klotho excretion and kidney calcium reabsorption, but not phosphate homeostasis', Kidney International, vol. 109, no. 5, pp. 987-1003. https://doi.org/10.1016/j.kint.2026.01.030

Klotho in the kidney distal convolution regulates urinary Klotho excretion and kidney calcium reabsorption, but not phosphate homeostasis. / Bourqui, Laurent; Trnjanin, Adisa; Kopper, Klaudia et al.
In: Kidney International, Vol. 109, No. 5, 05.2026, p. 987-1003.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

TY - JOUR

T1 - Klotho in the kidney distal convolution regulates urinary Klotho excretion and kidney calcium reabsorption, but not phosphate homeostasis

AU - Bourqui, Laurent

AU - Trnjanin, Adisa

AU - Kopper, Klaudia

AU - Loffing-Cueni, Dominique

AU - Radvanyi, Zsuzsa

AU - Karpovich, Artyom

AU - Rahimi, Tara

AU - Santos, Rui

AU - Wengi, Agnieszka

AU - Pastor, Johanne

AU - Moe, Orson W.

AU - Loffing, Johannes

AU - Pathare, Ganesh

PY - 2026/5

Y1 - 2026/5

N2 - Introduction: Klotho acts as a coreceptor for the phosphaturic hormone fibroblast growth factor-23 (FGF-23) and exists in both a membrane-bound and a soluble form (sKlotho) found in blood and urine. Klotho protein is moderately expressed in kidney proximal tubule and more abundant in the distal convolution (DC), which includes the distal convoluted tubule (DCT) and connecting tubule (CNT). However, the function of Klotho in the DC, particularly its role in sKlotho release and regulation of mineral metabolism, remains unclear. Methods: scRNA-seq was performed on isolated mouse DC cells. Four novel gene-modified mouse models were generated with Klotho deleted in the entire DC, the late DCT/CNT, the DCT only, and pan-tubular. Results: Using scRNA-seq on isolated mouse DC tubules, we showed that Klotho is more abundant in the late-DCT/CNT than in the early DCT. The composite data from three DC specific Klotho knockout mice support DC to be the primary source of urinary sKlotho, with 80% coming from the late-DCT/CNT and only 20% from the DCT. Notably, mice lacking Klotho in the entire DC (Kl-KODC) maintained normal serum sKlotho, FGF-23, and phosphate homeostasis. Bulk RNA-seq of isolated fluorescent DC segments from Kl-KODC_Tomato mice revealed suppressed signaling by mitogen activated protein kinase and downregulation of several genes involved in kidney calcium ion handling (Trpv5, Vdr, Pth1r, Klk1). Consistently, the Kl-KODC mice exhibited profound hypercalciuria and reduced bone density. On the other hand, pan-tubular Klotho deficiency in mice led to severe phosphate imbalance and loss of both serum/urine sKlotho. Conclusions: DC-derived Klotho regulates urinary sKlotho levels and controls calcium ion reabsorption, while Klotho in proximal tubule maintains phosphate homeostasis and likely regulates circulating sKlotho levels. © 2026 International Society of Nephrology

AB - Introduction: Klotho acts as a coreceptor for the phosphaturic hormone fibroblast growth factor-23 (FGF-23) and exists in both a membrane-bound and a soluble form (sKlotho) found in blood and urine. Klotho protein is moderately expressed in kidney proximal tubule and more abundant in the distal convolution (DC), which includes the distal convoluted tubule (DCT) and connecting tubule (CNT). However, the function of Klotho in the DC, particularly its role in sKlotho release and regulation of mineral metabolism, remains unclear. Methods: scRNA-seq was performed on isolated mouse DC cells. Four novel gene-modified mouse models were generated with Klotho deleted in the entire DC, the late DCT/CNT, the DCT only, and pan-tubular. Results: Using scRNA-seq on isolated mouse DC tubules, we showed that Klotho is more abundant in the late-DCT/CNT than in the early DCT. The composite data from three DC specific Klotho knockout mice support DC to be the primary source of urinary sKlotho, with 80% coming from the late-DCT/CNT and only 20% from the DCT. Notably, mice lacking Klotho in the entire DC (Kl-KODC) maintained normal serum sKlotho, FGF-23, and phosphate homeostasis. Bulk RNA-seq of isolated fluorescent DC segments from Kl-KODC_Tomato mice revealed suppressed signaling by mitogen activated protein kinase and downregulation of several genes involved in kidney calcium ion handling (Trpv5, Vdr, Pth1r, Klk1). Consistently, the Kl-KODC mice exhibited profound hypercalciuria and reduced bone density. On the other hand, pan-tubular Klotho deficiency in mice led to severe phosphate imbalance and loss of both serum/urine sKlotho. Conclusions: DC-derived Klotho regulates urinary sKlotho levels and controls calcium ion reabsorption, while Klotho in proximal tubule maintains phosphate homeostasis and likely regulates circulating sKlotho levels. © 2026 International Society of Nephrology

KW - distal convolution

KW - FGF23

KW - Klotho

KW - TRPV5 and Ca2+ reabsorption

UR - https://www.scopus.com/pages/publications/105035247651

UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-105035247651&origin=recordpage

U2 - 10.1016/j.kint.2026.01.030

DO - 10.1016/j.kint.2026.01.030

M3 - RGC 21 - Publication in refereed journal

C2 - 41759932

SN - 0085-2538

VL - 109

SP - 987

EP - 1003

JO - Kidney International

JF - Kidney International

IS - 5

ER -

Klotho in the kidney distal convolution regulates urinary Klotho excretion and kidney calcium reabsorption, but not phosphate homeostasis

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