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Endoplasmic reticulum stress drives proteinuria-induced kidney lesions via Lipocalin 2

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  • Khalil El Karoui

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades
    Service d’Explorations Fonctionnelles, Assistance Publique-Hôpitaux de Paris, Hôpital Necker Enfants Malades)

  • Amandine Viau

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades)

  • Olivier Dellis

    (UMR-S 757 INSERM, Université Paris Sud 11, Rue des Adèles)

  • Alessia Bagattin

    (INSERM U1016, CNRS UMR 8104, Université Paris Descartes, Institut Cochin)

  • Clément Nguyen

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades)

  • William Baron

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades)

  • Martine Burtin

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades)

  • Mélanie Broueilh

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades)

  • Laurence Heidet

    (INSERM U1163, Université Paris Descartes, Institut Imagine, Hôpital Necker Enfants Malades)

  • Géraldine Mollet

    (INSERM U1163, Université Paris Descartes, Institut Imagine, Hôpital Necker Enfants Malades)

  • Anne Druilhe

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades)

  • Corinne Antignac

    (INSERM U1163, Université Paris Descartes, Institut Imagine, Hôpital Necker Enfants Malades)

  • Bertrand Knebelmann

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades)

  • Gérard Friedlander

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades
    Service d’Explorations Fonctionnelles, Assistance Publique-Hôpitaux de Paris, Hôpital Necker Enfants Malades)

  • Frank Bienaimé

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades
    Service d’Explorations Fonctionnelles, Assistance Publique-Hôpitaux de Paris, Hôpital Necker Enfants Malades)

  • Morgan Gallazzini

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades)

  • Fabiola Terzi

    (Mechanisms and Therapeutic Strategies of Chronic Kidney Disease, INSERM U1151—CNRS UMR 8253, Université Paris Descartes, Institut Necker Enfants Malades, Hôpital Necker Enfants Malades)

Abstract

In chronic kidney disease (CKD), proteinuria results in severe tubulointerstitial lesions, which ultimately lead to end-stage renal disease. Here we identify 4-phenylbutyric acid (PBA), a chemical chaperone already used in humans, as a novel therapeutic strategy capable to counteract the toxic effect of proteinuria. Mechanistically, we show that albumin induces tubular unfolded protein response via cytosolic calcium rise, which leads to tubular apoptosis by Lipocalin 2 (LCN2) modulation through ATF4. Consistent with the key role of LCN2 in CKD progression, Lcn2 gene inactivation decreases ER stress-induced apoptosis, tubulointerstitial lesions and mortality in proteinuric mice. More importantly, the inhibition of this pathway by PBA protects kidneys from morphological and functional degradation in proteinuric mice. These results are relevant to human CKD, as LCN2 is increased in proteinuric patients. In conclusion, our study identifies a therapeutic strategy susceptible to improve the benefit of RAS inhibitors in proteinuria-induced CKD progression.

Suggested Citation

  • Khalil El Karoui & Amandine Viau & Olivier Dellis & Alessia Bagattin & Clément Nguyen & William Baron & Martine Burtin & Mélanie Broueilh & Laurence Heidet & Géraldine Mollet & Anne Druilhe & Corinne , 2016. "Endoplasmic reticulum stress drives proteinuria-induced kidney lesions via Lipocalin 2," Nature Communications, Nature, vol. 7(1), pages 1-13, April.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10330
    DOI: 10.1038/ncomms10330
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