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Image Search Results
Journal: Journal of Clinical Investigation
Article Title: Polycystin-1 maturation requires polycystin-2 in a dose-dependent manner
doi: 10.1172/jci76972
Figure Lengend Snippet: Figure 1. Processing, complexing, and localization of PC1 and PC2. (A) Immunoblot (IB) of endogenous human PC1 and PC2 derived from membrane fractions of a renal cortical tubule epithelial (RCTE) cell line. Samples were untreated (Un) or treated with EndoH (+E) or PNGase F (+P) and detected with an antibody against N-terminal PC1 (7e12; PC1 NT) or PC2 (YCE2). A nonspecific protein (Supplemental Figure 1, A and B) is indicated (n.s.). N-terminal glycoproducts, EndoH resistant (NTR) and EndoH sensitive (NTS), were resolved and were both reduced to the size of the aa backbone with PNGase F treatment (~330 kDa). All of PC2 was sensitive to EndoH. Representative blots are shown from 3 independent experiments. (B) IPs with a PC1 CT (BD3) or PC2 (YCE2) antibody from RCTE cells followed by deglycosylation detected with PC1 NT or YCE2 (PC2). PKD1–/– epithelial cells (9-12 cells; PKD1–/–) and IP with irrelevant antibody (IgG) were used as negative controls. The PC1 and PC2 complex was formed in the ER (EndoH sensitive), since PC2 coimmu- noprecipitated all PC1 glycoforms, including PC1-FL, even in high-salt (500 mM NaCl) conditions. Representative blots are shown from 3 independent experiments. (C) Maturation of PC1-NTR was affected by 2 μg/ml swainsonine (+Sw) treatment. A 72-hour swainsonine treatment reduced the PC1-NTR molecular weight but did not affect PC1-NTS, PC1-FL, or PC2, indicating that only PC1, but not PC2, traffics through the Golgi apparatus. Representa- tive blots are shown from 3 independent experiments. (D) Schematic of PC1 cleavage and glycosylation showing the size of the FL and the 2 GPS/GAIN N-terminal cleavage products, NTS and NTR.
Article Snippet: The following antibodies were used: PC1 NT IgG1, 7e12 (70) (WB 1/1,000);
Techniques: Western Blot, Derivative Assay, Membrane, Molecular Weight, Glycoproteomics
Journal: Journal of Clinical Investigation
Article Title: Polycystin-1 maturation requires polycystin-2 in a dose-dependent manner
doi: 10.1172/jci76972
Figure Lengend Snippet: Figure 2. Subcellular localization of PC1 glycoforms. (A) Labeling of RCTE cell surface proteins using alkoxyamine biotin (Alk. Biotin) and IP with neutra- vidin shows that PC1-NTR was the sole PC1 glycoform localized to the cell surface. PC2 was only detected with neutravidin IP after prolonged exposure and remained sensitive to EndoH digestion; compare level of input and surface protein. EGFR was used as a PM protein control. Representative blots are shown from 3 independent experiments. IF of streptavidin-488–labeled Alk. Biotin–treated and untreated cells shows efficient surface glycoprotein labeling. Scale bar: 20 μm. (B) Density gradient fractionation of RCTE cells shows that a portion of PC1-NTR cofractionated with markers of PM (ORAI/ SMO) and cilia (Arl13b/SMO), while most detectable PC2 was distributed in fractions overlapping with ER proteins, calnexin, and STIM1, with minor overlap with the cilia fraction. The relative signal intensity is plotted below. Gradient samples were loaded on 2 different SDS-PAGE gels that were run simultane- ously and transferred onto the same membrane for detection. Representative blots are shown from 3 independent experiments. (C) Coimmunoprecipita- tion of PC2 with PC1 from gradient fraction 12 (cilia enriched) followed by deglycosylation using EndoH (+E) or PNGase F (+P) or no enzyme (Un). Only the EndoH-resistant PC1-NTR glycoform along with EndoH-sensitive PC2 cofractionated with Arl13b.
Article Snippet: The following antibodies were used: PC1 NT IgG1, 7e12 (70) (WB 1/1,000);
Techniques: Labeling, Control, Fractionation, SDS Page, Membrane
Journal: Journal of Clinical Investigation
Article Title: Polycystin-1 maturation requires polycystin-2 in a dose-dependent manner
doi: 10.1172/jci76972
Figure Lengend Snippet: Figure 3. PM and cilia colocalization of PC1 and PC2. (A) Diagram of mCherry-PC1 and GFP-PC2 fusion proteins used in the IF experiments. (B) Confocal images of mCherry-PC1– and GFP-PC2–cotransfected RCTE cells showing prefixation surface labeling of PC1 (mCherry antibody) in live cells or all PC1 after permeabilization (total mCherry), with PC2 (GFP) and DAPI. Scale bar: 10 μm. Peripheral overlapping PC1/PC2 punctae are indicated with yellow arrows, with colocalization also seen in the ER. (C) Optical sectioning (z-stack, XZ plane) of confocal image of ciliated RCTE cells cotransfected with mCherry-PC1 and GFP-PC2 and subjected to prefixation PC1 labeling (mCherry antibodies). Surface PC1 and PC2 colocalized in primary cilia, while PC1 signal was also seen on the PM (red arrow). Scale bar: 10 μm. (D) Low-magnification image of surface-labeled RCTE cells cotransfected with mCherry-PC1 and GFP-PC2, showing mCherry-PC1 detected on the surface only in cells also expressing GFP-PC2 (arrows). Scale bar: 50 μm. (E) Deglycosylation analysis of RCTE cells expressing mCherry-PC1 alone or cotransfected with GFP-PC2. Mature mCherry-PC1 (PC1-NTR) was detected only in cells cotransfected with GFP-PC2, while cleaved ER-resident mCherry-PC1 (NTS) accumulated in the absence of PC2. Representative blots are shown from 3 independent experiments.
Article Snippet: The following antibodies were used: PC1 NT IgG1, 7e12 (70) (WB 1/1,000);
Techniques: Labeling, Expressing
Journal: Journal of Clinical Investigation
Article Title: Polycystin-1 maturation requires polycystin-2 in a dose-dependent manner
doi: 10.1172/jci76972
Figure Lengend Snippet: Figure 4. PC1 maturation and trafficking depend on PC2. (A) IB of membrane-purified proteins from MEFs derived from WT, Pkd2+/–, Pkd2–/–, and Pkd1–/– embryos detected with PC1 NT or PC2 antibodies. A Coomassie-stained loading control is shown. PC1- NTR was completely absent and PC1-NTS elevated in Pkd2–/– cells. Representative blots are shown from 3 independent experiments. (B) Glycosylation analysis of WT and Pkd2–/– MEFs showing that PC1- NTR was absent and PC1-NTS elevated in Pkd2–/– cells compared with WT MEFs. Representative blots are shown from 3 independent experiments. (C) IF detection of cilia (acetylated α-tubulin, Ac. tubulin) and PC2 (H280) in WT, Pkd2–/–, and Pkd1–/– MEFs (scale bar: 10 μm). (D) Quantification of these localizations (n = 50 cilia). PC2 was found on 30% of WT cilia but not on Pkd2–/– or Pkd1–/– cilia, indicating a crucial role for PC1 in PC2 cilia localization in MEFs (****P = 0.0001 by 2-tailed Fisher’s exact test).
Article Snippet: The following antibodies were used: PC1 NT IgG1, 7e12 (70) (WB 1/1,000);
Techniques: Membrane, Purification, Derivative Assay, Staining, Control, Glycoproteomics
![Figure 5. Maturation of PC1 is associated with the dosage of PC2. (A) Membrane protein purified from P9 mouse kidneys of WT, Pkd2+/–, Pkd1+/–, and bigenic combinations with the Pkd1RC/RC genotype and Pkd2WS25 allele assayed by SDS-PAGE and probed with PC1 NT and PC2 antibodies. Densitometric profiles of the NT products are shown with a Coomassie-stained loading control. Reduction of Pkd2 reduced the level of PC1-NTR, while Pkd1 reduction lowered the level of both products. Note in Pkd1RC/RC animals that the PC1-FL product is more evident, consistent with the previously described partial cleavage defect (20). Representative blots are shown from 3 independent experiments. (B) IB of membrane-purified protein from WT, Pkd1RC/RC Pkd2+/+, and Pkd1RC/RC Pkd2+/– MEFs detected with PC1 NT or PC2 antibodies showing the PC1-FL, PC1-NTR, and PC1-NTS glycoforms, PC2, and control Coomassie band. Representative blots are shown from 3 independent experiments. (C) Quantification of PC1-NTR from MEFs with various Pkd1 and Pkd2 genotypes. Results were derived from a minimum of 3 independent IBs and biological replicates obtained from 2 separate crosses (numbers [n] indicated) and compared with the WT average from each group, with significance determined by the Student’s t test. (D) Relative ratio of PC1-NTR to NTS expression for indicated MEF geno- types (numbers [n] indicated). The significance of the difference between means was compared using the Student’s t test. For C and D, quartile box plots represent the median, quartiles, and minimum/maximum range, with means of each group in parentheses. **P < 0.01; ***P < 0.001; ****P < 0.0001.](https://doi-unpaywalled-images-cdn.bioz.com/8440/10__1172_slash_jci76972/10__1172_slash_jci76972____page8_image1.jpg)
Journal: Journal of Clinical Investigation
Article Title: Polycystin-1 maturation requires polycystin-2 in a dose-dependent manner
doi: 10.1172/jci76972
Figure Lengend Snippet: Figure 5. Maturation of PC1 is associated with the dosage of PC2. (A) Membrane protein purified from P9 mouse kidneys of WT, Pkd2+/–, Pkd1+/–, and bigenic combinations with the Pkd1RC/RC genotype and Pkd2WS25 allele assayed by SDS-PAGE and probed with PC1 NT and PC2 antibodies. Densitometric profiles of the NT products are shown with a Coomassie-stained loading control. Reduction of Pkd2 reduced the level of PC1-NTR, while Pkd1 reduction lowered the level of both products. Note in Pkd1RC/RC animals that the PC1-FL product is more evident, consistent with the previously described partial cleavage defect (20). Representative blots are shown from 3 independent experiments. (B) IB of membrane-purified protein from WT, Pkd1RC/RC Pkd2+/+, and Pkd1RC/RC Pkd2+/– MEFs detected with PC1 NT or PC2 antibodies showing the PC1-FL, PC1-NTR, and PC1-NTS glycoforms, PC2, and control Coomassie band. Representative blots are shown from 3 independent experiments. (C) Quantification of PC1-NTR from MEFs with various Pkd1 and Pkd2 genotypes. Results were derived from a minimum of 3 independent IBs and biological replicates obtained from 2 separate crosses (numbers [n] indicated) and compared with the WT average from each group, with significance determined by the Student’s t test. (D) Relative ratio of PC1-NTR to NTS expression for indicated MEF geno- types (numbers [n] indicated). The significance of the difference between means was compared using the Student’s t test. For C and D, quartile box plots represent the median, quartiles, and minimum/maximum range, with means of each group in parentheses. **P < 0.01; ***P < 0.001; ****P < 0.0001.
Article Snippet: The following antibodies were used: PC1 NT IgG1, 7e12 (70) (WB 1/1,000);
Techniques: Membrane, Purification, SDS Page, Staining, Control, Derivative Assay, Expressing
Journal: Journal of Clinical Investigation
Article Title: Polycystin-1 maturation requires polycystin-2 in a dose-dependent manner
doi: 10.1172/jci76972
Figure Lengend Snippet: Figure 6. Pkd2 depletion aggravates the Pkd1RC/RC cystic phenotype. (A) Masson trichrome–stained kidney cross sections of 4-month-old mice of the Pkd1RC/RC genotype with the addition of Pkd2WS25/+, Pkd2+/–, or Pkd2WS25/–, and Pkd2WS25/– mice with the Pkd1RC/+ genotype. PKD severity and fibrosis worsened in bigenic mice, with evidently more severe disease in the Pkd1RC/RC Pkd2+/– genotype, corresponding to PC1-NTR levels of about 30% (Figure 5C). However, the Pkd1RC/RC Pkd2WS25/– combination resulted in the most severe disease. Scale bar: 1 mm. (B–D) Graphical representations of %KW/BW (B), cystic index (C), and blood urea nitrogen (D) of the various genotypes quantify the increased disease severity with Pkd1/Pkd2 combined phenotypes (see Supplemental Table 1 for details). Error bars depict ± SD. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001 using a 2-way ANOVA with Student’s t test. F, female; M, male. +Note that 5 of 10 Pkd1RC/RC Pkd2WS25/– animals died before 4 months (F: P42, P74; M: P38, P51, P79).
Article Snippet: The following antibodies were used: PC1 NT IgG1, 7e12 (70) (WB 1/1,000);
Techniques: Staining
Journal: Journal of Clinical Investigation
Article Title: Polycystin-1 maturation requires polycystin-2 in a dose-dependent manner
doi: 10.1172/jci76972
Figure Lengend Snippet: Figure 7. Analysis of maturation of endogenous PC1 truncation mutants. (A) Diagram showing approximate locations of the truncations in PC1 and the locations of the REJ domain, PKD repeats, and CT-CC. (B) Glycosylation analysis of MEFs isolated from WT and Pkd1del31/del31 embryos detected with the PC1 NT antibody. The del31 mutation truncated PC1 after the GPS/GAIN cleavage site, and since the truncated protein was cleaved, an NT as well as a truncated FL (tFL) product were observed. EndoH analysis shows that PC1-NTS, but not PC1-NTR, was generated. Representative blots are shown from 3 independent experiments. (C) IP of endogenous PC2 (H280) in WT and Pkd1del31/del31 (–/–) MEFs shows that PC2 did not coimmunoprecipitate with the del31 mutant PC1. Lysate control is shown above. Representative blots are shown from 3 independent experiments. (D–G) Pkd1del17/+ (WT/del17) adult mouse kid- ney (D and E) and human fibroblasts from a female ADPKD patient with an extracellular truncation due to a translocation in exon 15 (WT/tr15; 77-2) (F and G), disrupting PC1 extracellularly in the REJ domain or PKD1 repeats, respectively. (D, F, and G) Glycosylation analysis comparing untreated (Un), EndoH- digested (+E), and PNGase F–digested (+P) protein. In all cases, only the EndoH-sensitive truncated product (PC1-tNTS) was seen, with no PC1-tNTR glycoform. In del17 and tr15, the PC1 truncated product was expressed at a much higher level than that detected WT, and so longer exposures are shown (E and G) to visualize the WT allele/products. Representative blots are shown from 3 independent experiments.
Article Snippet: The following antibodies were used: PC1 NT IgG1, 7e12 (70) (WB 1/1,000);
Techniques: Glycoproteomics, Isolation, Mutagenesis, Generated, Control, Translocation Assay
Journal: Journal of Clinical Investigation
Article Title: Polycystin-1 maturation requires polycystin-2 in a dose-dependent manner
doi: 10.1172/jci76972
Figure Lengend Snippet: Figure 8. Deletion of CC2 and missense mutations in PC2 influence PC1 maturation. (A) Diagram of WT and mutant human PC2 used in the cotransfec- tion experiments (B and C) showing the positions of domains, deletions, and aa substitutions. (B) mCherry-PC1 cotransfected with WT GFP-PC2 or PC2 lacking the C-terminal cytoplasmic tail (GFP-PC2-L703X) into RCTE cells. Detection of PC1 NT (mCherry) revealed EndoH-resistant PC1-NTR (arrow) only in WT-PC2, but not in PC2-L703X, cotransfected cells. Detection of PC2 (GFP) shows that a portion of PC2-L703X was EndoH resistant (R; arrow). Representa- tive blots are shown from 3 independent experiments. (C) Cotransfection of various GFP-PC2 mutants and mCherry-PC1 into RCTE cells showing the effect of PC2 mutations on the PC1 glycosylation pattern and PC2 products. Deletion of the EF hand and coiled coil 1 (delEF+CC1) did not disrupt PC1 maturation, but deletion of coiled coil 2 (delCC2) greatly reduced the level of the PC1-NTR product. Pathogenic missense substitutions in PC2, especially p.R322Q and p.W414G, also had a negative effect on PC1 maturation. Representative blots are shown from 3 independent experiments. (D) Quantification of the ratio of PC1-NTR to NTS glycoforms obtained from the cotransfection experiments with WT and mutant PC2 GFP constructs (C and Supplemental Figure 5A). Deletion mutants removing CC2 but not EF+CC1 largely disrupted PC1 maturation, while missense mutations also significantly disrupted maturation. n = 3 for all except R322W (n = 2) and D511V (n = 4). Quartile box plots represent the median, quartiles, and minimum/maximum range, with the mean of each group in parentheses. P values are shown as compared with GFP-PC2-WT (control) with the Student’s t test; ****P < 0.0001.
Article Snippet: The following antibodies were used: PC1 NT IgG1, 7e12 (70) (WB 1/1,000);
Techniques: Mutagenesis, Cotransfection, Glycoproteomics, Construct, Control
Journal: International journal of molecular sciences
Article Title: Polycystin-1 Is a Crucial Regulator of BIN1 Expression and T-Tubule Remodeling Associated with the Development of Dilated Cardiomyopathy.
doi: 10.3390/ijms24010667
Figure Lengend Snippet: Figure 1. Dilated cardiomyopathy associated with loss of polycystin-1 expression. (A) Kaplan–Meier curves showing survival of PC1-KO mice (n = 12–14). (B) Ejection fraction (EF) and (C) Fractional shortening (FS) of PC1F/F and PC1-KO mice without (<7 months old, n = 5–7) and with (7–9 months old, n = 5–8) signs of HF. (D) Four-chamber-view hematoxylin/eosin staining (Scale bar: 300 µm). (E) Heart weight/tibia length (HW/TL) in animals without (n = 7–10) or with (n = 12–13) signs of HF.
Article Snippet: A human full-length,
Techniques: Expressing, Staining
Journal: International journal of molecular sciences
Article Title: Polycystin-1 Is a Crucial Regulator of BIN1 Expression and T-Tubule Remodeling Associated with the Development of Dilated Cardiomyopathy.
doi: 10.3390/ijms24010667
Figure Lengend Snippet: Figure 2. Bin1 expression and localization in cardiac tissue of PC1-KO mice. Representative Western blots and BIN1 protein quantification in samples from <7 months old (A, n = 6) and 7–9-month-old (B, n = 4–5) PC1F/F and PC1-KO mice. Total BIN1 mRNA content at <7 months old (C, n = 7–8) and 7–9 months old (D, n = 8–11) in samples from PC1F/F and PC1-KO mice. (E,F) Representative Western blots and quantification of BIN1 in plasma membrane-enriched fractions (n = 3). H: homogenate; MS: microsomes enriched in surface membrane; C: cytosolic fraction. Values shown are the means ±SEM and were analyzed using the Student t test. * p < 0.05 vs. PC1F/F.
Article Snippet: A human full-length,
Techniques: Expressing, Western Blot, Clinical Proteomics, Membrane
Journal: International journal of molecular sciences
Article Title: Polycystin-1 Is a Crucial Regulator of BIN1 Expression and T-Tubule Remodeling Associated with the Development of Dilated Cardiomyopathy.
doi: 10.3390/ijms24010667
Figure Lengend Snippet: Figure 3. Cardiac BIN1 isoform expression is regulated by polycystin-1. BIN1 + 13 mRNA quantifica- tion in PC1F/F and PC1-KO cardiac tissue samples from <7 months old (A, n = 9) and 7–9-month-old (B, n = 6–7) mice. BIN1 + 13 + 17 mRNA levels in PC1F/F and PC1-KO cardiac tissue from <7 months old (C, n = 9) and 7–9-month-old (D, n = 6–7) mice. Values shown are the means ± SEM and were analyzed using the Student t test. * p < 0.05; ** p < 0.005 vs. PC1F/F.
Article Snippet: A human full-length,
Techniques: Expressing
Journal: International journal of molecular sciences
Article Title: Polycystin-1 Is a Crucial Regulator of BIN1 Expression and T-Tubule Remodeling Associated with the Development of Dilated Cardiomyopathy.
doi: 10.3390/ijms24010667
Figure Lengend Snippet: Figure 4. Correlation between polycystin-1 expression in cardiomyocytes and T-tubule remodeling. (A) Representative transmission electron microscope images of T-tubules from PC1F/F and PC1-KO cardiac tissue of <7-month- and 7–9-month-old mice. In addition, the quantification of lumen area (B,D) and the lumen electron density (C,E) of T-tubules is shown. Scale bars 500 nm. (F,G) Lumen electron density of PC1-KO mice <7 months and 7–9 months of age. T-tubules were measured for 3–4 mice per genotype. Roughly 8–10 ventricular sections and 103–124 and 211–235 T-tubules were evaluated per condition in mice <7 months and 7–9 months of age, respectively. (H,I) Ratio of T-tubules number/area for cardiac tissue from PC1F/F and PC1-KO mice. Values shown are the means ± SEM, and were analyzed by the Student t test. * p < 0.05; *** p < 0.001 vs. PC1F/F.
Article Snippet: A human full-length,
Techniques: Expressing, Transmission Assay, Microscopy
Journal: International journal of molecular sciences
Article Title: Polycystin-1 Is a Crucial Regulator of BIN1 Expression and T-Tubule Remodeling Associated with the Development of Dilated Cardiomyopathy.
doi: 10.3390/ijms24010667
Figure Lengend Snippet: Figure 5. Changes in the BIN1 score of PC1-KO mice correlated with cardiac dysfunction. Bar graph of the BIN1 score obtained evaluating PC1F/F and PC1-KO mice at <7 months (A, n = 4 per duplicated) and 7–9 months of age (B, n= 5–6, per duplicated). Values shown are the means ± SEM and were analyzed using the Student t test. * p < 0.05 vs. PC1F/F.
Article Snippet: A human full-length,
Techniques:
Journal: International journal of molecular sciences
Article Title: Polycystin-1 Is a Crucial Regulator of BIN1 Expression and T-Tubule Remodeling Associated with the Development of Dilated Cardiomyopathy.
doi: 10.3390/ijms24010667
Figure Lengend Snippet: Figure 6. Graphical model depicting how polycystin-1-dependent BIN1 expression relates to T-tubule remodeling and cardiac dysfunction. (A) Normal cardiac function: PC1 positively regulates BIN1 expression and therefore T-tubule formation with microfolds. cBIN (BIN1 + 13 + 17 isoform) is released in vesicles to the extracellular space. (B) Decreased cardiac function without signs of HF: Total BIN1 expression and BIN1 + 13 isoform decrease in cardiospecific PC1-KO mice (<7 months) while BIN1 + 13 + 17 isoform increase leading to the loss of T-tubule microfolds and to an increase in plasma cBIN1, and; (C) Heart failure and development of dilated cardiomyopathy: Total BIN1, BIN1 + 13 and BIN1 + 13 + 17 expression decrease in cardiomyocytes from PC1-KO mice (7–9-month), exacerbating the loss of T-tubules and microfolds and decreasing the release of cBIN1 to the plasma. The figure was created with BioRender.com (accessed on 29 December 2021).
Article Snippet: A human full-length,
Techniques: Expressing, Clinical Proteomics
Journal: SLAS discovery : advancing life sciences R & D
Article Title: Discovery and validation of small molecule stabilizers of mutant triose phosphate isomerase (TPI) as potential lead candidates for TPI deficiency
doi: 10.1016/j.slasd.2025.100278
Figure Lengend Snippet: Appearance and behavior of the HeLa TPI E105D-GF-HR cell line. Upper panel. Representative images of cells expressing mutant TPI-GFP (green) and a HyPerRed ROS biosensor (orange). Nuclei were counterstained with Hoechst 33342 (blue). Images were acquired on an OPERA Phenix Plus using a 63x water immersion objective in the DAPI, GFP, and Cy3 channel. Lower panel. Quantification of cellular response to test agents reveals desirable (elevated GFP in the absence of nuclear shrinkage and elevated ROS; luminespib) and undesirable activity profiles (elevated GFP correlating with nuclear shrinkage and elevated ROS; CID 3724239). Y-axes show percent increases compared with vehicle-treated cells. Data points are the average of at least three independent biological repeats ± SD. Curves were fitted to a four parameter logistic regression. Green, GFP-TPI levels, red, ROS, blue, nucleus size. Images were subjected to identical linear bitmap stretch for visibility.
Article Snippet: A construct with the EF1 promoter driving HyperRed protein expression was generated using a
Techniques: Expressing, Mutagenesis, Activity Assay