Metalloproteinase PAPP-A regulation of IGF-1 contributes to polycystic kidney disease pathogenesis
Sonu Kashyap, Kyaw Zaw Hein, Claudia C.S. Chini, Jorgo Lika, Gina M. Warner, Laurie K. Bale, Vicente E. Torres, Peter C. Harris, Claus Oxvig, Cheryl A. Conover, Eduardo N. Chini
Sonu Kashyap, Kyaw Zaw Hein, Claudia C.S. Chini, Jorgo Lika, Gina M. Warner, Laurie K. Bale, Vicente E. Torres, Peter C. Harris, Claus Oxvig, Cheryl A. Conover, Eduardo N. Chini
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Research Article Nephrology

Metalloproteinase PAPP-A regulation of IGF-1 contributes to polycystic kidney disease pathogenesis

Abstract

Autosomal dominant polycystic kidney disease (ADPKD) is the most common genetic cause of end-stage renal disease (ESRD). The treatment options for ADPKD are limited. We observed an upregulation in several IGF-1 pathway genes in the kidney of Pkd1RC/RC mice, a model of ADPKD. Pregnancy-associated plasma protein A (PAPP-A), a metalloproteinase that cleaves inhibitory IGF binding proteins (IGFBPs), increasing the local bioactivity of IGF-1, was highly induced in the kidney of ADPKD mice. PAPP-A levels were high in cystic fluid and kidneys of humans with ADPKD. Our studies further showed that PAPP-A transcription in ADPKD was mainly regulated through the cAMP/CREB/CBP/p300 pathway. Pappa deficiency effectively inhibited the development of cysts in the Pkd1RC/RC mice. The role of PAPP-A in cystic disease appears to be regulation of the IGF-1 pathway and cellular proliferation in the kidney. Finally, preclinical studies demonstrated that treatment with a monoclonal antibody that blocks the proteolytic activity of PAPP-A against IGFBP4 ameliorated ADPKD cystic disease in vivo in Pkd1RC/RC mice and ex vivo in embryonic kidneys. These data indicated that the PAPP-A/IGF-1 pathway plays an important role in the growth and expansion of cysts in ADPKD. Our findings introduce a therapeutic strategy for ADPKD that involves the inhibition of PAPP-A.

Authors

Sonu Kashyap, Kyaw Zaw Hein, Claudia C.S. Chini, Jorgo Lika, Gina M. Warner, Laurie K. Bale, Vicente E. Torres, Peter C. Harris, Claus Oxvig, Cheryl A. Conover, Eduardo N. Chini

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Figure 4

Genetic deletion of Pappa reduces renal inflammation, injury, and fibrosis in ADPKD mice.

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Genetic deletion of Pappa reduces renal inflammation, injury, and fibros...
(A) Renal Mcp1 and Tnfα mRNA expression in WT and Pkd1RC/RC Pappa mutants (n = 4–7) at 12 months of age. (B) Representative photomicrographs showing anti-CD3 immunostaining in kidney sections from 4.5-month-old Pkd1RC/RC Pappa mutant mice, and graph showing quantification of positively stained area (n = 6/group). (C) Renal Ngal mRNA expression in WT and Pkd1RC/RC Pappa mutants at 4.5 and 12 months of age (n = 4–7). (D) Col1a 1 and Tgfb mRNA expression in WT and Pkd1RC/RC Pappa mutants (n = 4–7). (E) Representative photomicrographs of Sirius red staining in kidneys of 4.5-month-old Pkd1RC/RC Pappa mutant mice, and graph showing quantification of positively stained area (n = 5–7). Data are presented as mean ± SEM. *P < 0.05, **P < 0.01 by 1-way ANOVA and then Dunnett’s post hoc test for parametric or Kruskal-Wallis test followed by Dunn’s post hoc test for nonparametric distribution. Two-tailed Mann Whitney U test was used for E. Original magnification, ×200; arrows define the positively stained area.