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ATP7A-fibulin-4 complex delivers copper in the Golgi to activate LOX in renal fibrosis
Wenqian Zhou, Yan Zheng, Yuqing Liu, Jing Liu, Yiguo Liu, Yangyang Niu, Ying Yu, Xiaoqin Zhang, Yingying Zhang, Chen Yu
Wenqian Zhou, Yan Zheng, Yuqing Liu, Jing Liu, Yiguo Liu, Yangyang Niu, Ying Yu, Xiaoqin Zhang, Yingying Zhang, Chen Yu
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Research Article Cell biology Nephrology

ATP7A-fibulin-4 complex delivers copper in the Golgi to activate LOX in renal fibrosis

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Abstract

Lysyl oxidase (LOX) is a copper-dependent monoamine oxidase whose primary function is the covalent cross-linking of collagen and elastin in the extracellular matrix (ECM). However, the regulation of LOX activity in renal fibrosis is not well understood. Here, our study showed that (a) LOX expression and ECM cross-linking were markedly increased in fibrotic kidneys. Reduction of copper levels in the Golgi apparatus by treatment with the copper chelator tetrathiomolybdate or by specific knockdown of copper transporter 1 (CTR1) decreased LOX activity and ameliorated renal fibrosis. (b) Overexpression of ATP7A caused an elevation of copper ions within the Golgi apparatus, resulting in increased LOX activity and enhanced ECM crosslinking, thereby promoting the progression of renal fibrosis. Knockdown of ATP7A showed the opposite result. (c) FBLN4 was essential for the ATP7A-mediated transfer of copper to LOX and formed a ternary complex of ATP7A-FBLN4-LOX. Our research revealed that high ATP7A expression induced copper overload in the Golgi apparatuses. FBLN4 then assisted ATP7A in transporting this excess copper to LOX, resulting in LOX overactivation. This, in turn, catalyzed the cross-linking of ECM components, thereby accelerating renal fibrosis.

Authors

Wenqian Zhou, Yan Zheng, Yuqing Liu, Jing Liu, Yiguo Liu, Yangyang Niu, Ying Yu, Xiaoqin Zhang, Yingying Zhang, Chen Yu

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Figure 7

FBLN4 is essential for the formation of the ATP7A-LOX complex in renal fibrosis.

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FBLN4 is essential for the formation of the ATP7A-LOX complex in renal f...
(A) The colocalization of FBLN4 (green) with the Golgi apparatus (red) was analyzed by immunofluorescent costaining in NRK-52E cells without (CT) or with TGF-β1 treatment (n = 3). Original magnification, ×1,000. Scale bar: 2.5 μm. (B) The colocalization of FBLN4 (green) with ATP7A (yellow) and LOX (red) was analyzed by immunofluorescent costaining in NRK-52E cells without (CT) or with TGF-β1 treatment (n = 3). Original magnification, ×1,000. Scale bar: 2.5 μm. (C and D) Coimmunoprecipitation showing the interaction among ATP7A, FBLN4, and aLOX proteins in NRK-52 cells. (E) Coimmunoprecipitation showing the interaction among ATP7A, FBLN4, and aLOX after downregulating Fbln4. (F and G) Coimmunoprecipitation showing the interaction among ATP7A, FBLN4, and aLOX proteins in NRK-52 cells under CuSO4- and TM-treated conditions. INPUT indicates total protein. IP indicates the antibody used to pull down the interacting proteins. IgG represents the negative control.

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