A novel transgenic mouse model highlights molecular disruptions involved in the pathogenesis of Dent disease 1

Bouchra Sakhi I, De Combiens E, Frachon N, Durussel F, Brideau G, Nemazanyy I, Frère P, Thévenod F, Lee W-K, Zeng Q, Klein C, et al. (2024)
Gene 928: 148766.

Zeitschriftenaufsatz | E-Veröff. vor dem Druck | Englisch
 
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Autor*in
Bouchra Sakhi, Imene; De Combiens, Elise; Frachon, Nadia; Durussel, Fanny; Brideau, Gaelle; Nemazanyy, Ivan; Frère, Perrine; Thévenod, FrankUniBi; Lee, Wing-KeeUniBi; Zeng, Qinghe; Klein, Christophe; Lourdel, Stéphane
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Abstract / Bemerkung
Dent disease (DD) is a hereditary renal disorder characterized by low molecular weight (LMW) proteinuria and progressive renal failure. Inactivating mutations of the CLCN5 gene encoding the 2Cl-/H+exchanger ClC-5 have been identified in patients with DD type 1. ClC-5 is essentially expressed in proximal tubules (PT) where it is thought to play a role in maintaining an efficient endocytosis of LMW proteins. However, the exact pathological roles of ClC-5 in progressive dysfunctions observed in DD type 1 are still unclear. To address this issue, we designed a mouse model carrying the most representative type of ClC-5 missense mutations found in DD patients. These mice showed a characteristic DD type 1 phenotype accompanied by altered endo-lysosomal system and autophagy functions. With ageing, KI mice showed increased renal fibrosis, apoptosis and major changes in cell metabolic functions as already suggested in previous DD models. Furthermore, we made the interesting new discovery that the Lipocalin-2-24p3R pathway might be involved in the progression of the disease. These results suggest a crosstalk between the proximal and distal nephron in the pathogenesis mechanisms involved in DD with an initial PT impairment followed by the Lipocalin-2 internalisation and 24p3R overexpression in more distal segments of the nephron. This first animal model of DD carrying a pathogenic mutation of Clcn5 and our findings pave the way aimed at finding therapeutic strategies to limit the consequences of ClC-5 disruption in patients with DD type 1 developing chronic kidney disease. Copyright © 2024. Published by Elsevier B.V.
Erscheinungsjahr
2024
Zeitschriftentitel
Gene
Band
928
Art.-Nr.
148766
eISSN
1879-0038
Page URI
https://pub.uni-bielefeld.de/record/2991563

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Bouchra Sakhi I, De Combiens E, Frachon N, et al. A novel transgenic mouse model highlights molecular disruptions involved in the pathogenesis of Dent disease 1. Gene. 2024;928: 148766.
Bouchra Sakhi, I., De Combiens, E., Frachon, N., Durussel, F., Brideau, G., Nemazanyy, I., Frère, P., et al. (2024). A novel transgenic mouse model highlights molecular disruptions involved in the pathogenesis of Dent disease 1. Gene, 928, 148766. https://doi.org/10.1016/j.gene.2024.148766
Bouchra Sakhi, Imene, De Combiens, Elise, Frachon, Nadia, Durussel, Fanny, Brideau, Gaelle, Nemazanyy, Ivan, Frère, Perrine, et al. 2024. “A novel transgenic mouse model highlights molecular disruptions involved in the pathogenesis of Dent disease 1”. Gene 928: 148766.
Bouchra Sakhi, I., De Combiens, E., Frachon, N., Durussel, F., Brideau, G., Nemazanyy, I., Frère, P., Thévenod, F., Lee, W. - K., Zeng, Q., et al. (2024). A novel transgenic mouse model highlights molecular disruptions involved in the pathogenesis of Dent disease 1. Gene 928:148766.
Bouchra Sakhi, I., et al., 2024. A novel transgenic mouse model highlights molecular disruptions involved in the pathogenesis of Dent disease 1. Gene, 928: 148766.
I. Bouchra Sakhi, et al., “A novel transgenic mouse model highlights molecular disruptions involved in the pathogenesis of Dent disease 1”, Gene, vol. 928, 2024, : 148766.
Bouchra Sakhi, I., De Combiens, E., Frachon, N., Durussel, F., Brideau, G., Nemazanyy, I., Frère, P., Thévenod, F., Lee, W.-K., Zeng, Q., Klein, C., Lourdel, S., Bignon, Y.: A novel transgenic mouse model highlights molecular disruptions involved in the pathogenesis of Dent disease 1. Gene. 928, : 148766 (2024).
Bouchra Sakhi, Imene, De Combiens, Elise, Frachon, Nadia, Durussel, Fanny, Brideau, Gaelle, Nemazanyy, Ivan, Frère, Perrine, Thévenod, Frank, Lee, Wing-Kee, Zeng, Qinghe, Klein, Christophe, Lourdel, Stéphane, and Bignon, Yohan. “A novel transgenic mouse model highlights molecular disruptions involved in the pathogenesis of Dent disease 1”. Gene 928 (2024): 148766.

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