TIE2 activation by antibody-clustered endogenous angiopoietin-2 prevents capillary loss and fibrosis in experimental kidney disease
Riikka Pietilä, Amanda Marks-Hultström, Liqun He, Sami Nanavazadeh, Susan E. Quaggin, Christer Betsholtz, Marie Jeansson
Riikka Pietilä, Amanda Marks-Hultström, Liqun He, Sami Nanavazadeh, Susan E. Quaggin, Christer Betsholtz, Marie Jeansson
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Research Article Nephrology Vascular biology

TIE2 activation by antibody-clustered endogenous angiopoietin-2 prevents capillary loss and fibrosis in experimental kidney disease

Abstract

The role of endothelial dysfunction in tubulointerstitial fibrosis associated with chronic kidney disease (CKD) is not well understood. In this study, we demonstrate that the activation of the endothelial tyrosine kinase TIE2 alleviates renal pathology in experimental CKD in mice. TIE2 activation was achieved using a human angiopoietin-2–binding and TIE2-activating antibody (ABTAA) or through adult-induced endothelium-specific knockout of the vascular endothelial protein tyrosine phosphatase gene (Veptp). Both methods markedly protected CKD mice from endothelial dysfunction, peritubular capillary loss, tubular epithelial injury, and tubulointerstitial fibrosis. Conversely, silencing TIE2 through adult-induced endothelium-specific knockout of the Tie2 gene exacerbated CKD pathology. Additionally, we found that endothelial dysfunction promoted renal fibrosis not through endothelial-to-mesenchymal transition, as previously expected, but by inducing the expression of profibrotic PDGFB in tubular epithelial cells, a process that is inhibited by TIE2 activation. Our findings suggest that TIE2 activation via ABTAA warrants investigation as a therapy in human CKD, where there is a substantial unmet medical need.

Authors

Riikka Pietilä, Amanda Marks-Hultström, Liqun He, Sami Nanavazadeh, Susan E. Quaggin, Christer Betsholtz, Marie Jeansson

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Figure 5

Pharmacological or genetic TIE2 activation prevents UUO-induced tubular injury and PDGFB expression.

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Pharmacological or genetic TIE2 activation prevents UUO-induced tubular ...
(A) Tubular segments with pathological vacuoles (red arrow) in kidney sections stained with toluidine blue. (B) Quantification of tubular segments with vacuoles from ABTAA-treated (ABT), VeptpiECKO (VeKO), and Tie2iECKO (T2KO) mice. Data are based on n = 4–5 mice/group and >10,000 tubular cross sections. (C) RNA-ISH for Pecam1 (cyan) and Pdgfb (magenta) in 3-day UUO kidneys. Representative image of n = 4 mice. Scale bars: 50 μm. (D and E) Gene expression of Kim1, Pdgfb, Pdgfrb, Tie2, and Angpt1 in UUO kidneys from indicated time points. Data are based on n = 3–7 mice/group. (F) RNA-ISH for Angpt1 (magenta), mesenchymal marker Pdgfrb (cyan), and tubular marker Atp1a1 (blue) in 3-day UUO kidneys. Representative image of n = 3 mice. Scale bars: 50 μm. (GI) Expression of Pdgfb/PDGFB in 3-day UUO kidneys from ABTAA-treated, VeptpiECKO, and PdgfbiKO (PbKO) mice. Data are based on n = 5–9 mice/group. (J) Patient data retrieved from Nephroseq for renal CDH5 (endothelial marker), ANGPT2, PDGFB, and ANGPT1 expression in CKD and renal dysfunction compared with normal human kidney. Data in graphs (B, D, E, and GI) represent mean ± SD, and each symbol represents 1 mouse (females, magenta; males, cyan). *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001, determined by 1-way ANOVA. Human data (J) represent Log2 expression and statistical differences from Nephroseq (see Methods).