Polycystin-1 regulates ARHGAP35-dependent centrosomal RhoA activation and ROCK signaling
Andrew J. Streets, Philipp P. Prosseda, Albert C.M. Ong
Andrew J. Streets, Philipp P. Prosseda, Albert C.M. Ong
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Research Article Genetics Nephrology

Polycystin-1 regulates ARHGAP35-dependent centrosomal RhoA activation and ROCK signaling

Abstract

Mutations in PKD1 (encoding for polycystin-1 [PC1]) are found in 80%–85% of patients with autosomal dominant polycystic kidney disease (ADPKD). We tested the hypothesis that changes in actin dynamics result from PKD1 mutations through dysregulation of compartmentalized centrosomal RhoA signaling mediated by specific RhoGAP (ARHGAP) proteins resulting in the complex cellular cystic phenotype. Initial studies revealed that the actin cytoskeleton was highly disorganized in cystic cells derived from patients with PKD1 and was associated with an increase in total and centrosomal active RhoA and ROCK signaling. Using cilia length as a phenotypic readout for centrosomal RhoA activity, we identified ARHGAP5, -29, and -35 as essential regulators of ciliation in normal human renal tubular cells. Importantly, a specific decrease in centrosomal ARHGAP35 was observed in PKD1-null cells using a centrosome-targeted proximity ligation assay and by dual immunofluorescence labeling. Finally, the ROCK inhibitor hydroxyfasudil reduced cyst expansion in both human PKD1 3D cyst assays and an inducible Pkd1 mouse model. In summary, we report a potentially novel interaction between PC1 and ARHGAP35 in the regulation of centrosomal RhoA activation and ROCK signaling. Targeting the RhoA/ROCK pathway inhibited cyst formation in vitro and in vivo, indicating its relevance to ADPKD pathogenesis and for developing new therapies to inhibit cyst initiation.

Authors

Andrew J. Streets, Philipp P. Prosseda, Albert C.M. Ong

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Figure 2

Primary cilia length correlates with PC1 expression, actin polymerization, and ROCK activity.

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Primary cilia length correlates with PC1 expression, actin polymerizatio...
(A) Cytochalasin D (1 μM, 4 hours) was associated with a significant increase in cilia length in both control (UCL93) and ADPKD (OX161) lines (n = 4 independent experiments, N = 115 cells). (B) The ROCK inhibitor Y-27632 (1 μM, 4 hours) rescued the cilia length defect in the ADPKD (OX161) line but had no effect on cilia length in control (UCL93) cells (n = 4 independent experiments, N = 264 cells). (C) Isogenic PKD1-null cells were generated by CRISPR/Cas9 in the parental control line, UCL93. PC1-null clones (c1–3) were expanded for study. (D) Primary cilia were visualized in quiescent control (UCL93) and PKD1 null lines (PC1KO) after serum starvation by immunofluorescence labeling of Arl13b (green) and nuclei (blue). (E) Cilia length was significantly reduced in PKD1 null lines (PC1KO) compared with control (UCL93) cells (n = 3 independent experiments, N = 67 cells). (F) Expression of mCherry-PC1, mCherry-PC1-4211X, or CFP-PC2 in transfected HEK293 cells showing bands of the expected size by immunoblotting for PC1 (7e12) or PC2 (G20). (G) Representative images of primary cilia in UCL93 control cells and OX161 cystic cells showing partial rescue of cilia length (Arl13b, green) in cells cotransfected with mCherry-PC1 (red) and CFP-PC2 but not mCherry-PC1-4211X (red) and CFP-PC2. (H) Expression of mCherry-PC1 was associated with a significant increase in cilia length compared with mCherry-PC1 4211X or pcDNA3 transfected control OX161 cells (n = 3 independent experiments, N = 264 cells). ****P < 0.0001. Significance determined by 2-tailed Student’s t test (A and B). Significance determined by 1-way ANOVA corrected (Dunnett) for multiple comparison (E and H). PC1, polycystin-1; ADPKD, autosomal dominant polycystic kidney disease.