Volume 98, Issue 3, Pages (August 1999)

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Volume 98, Issue 3, Pages 305-316 (August 1999) Nuclear Trafficking of Cubitus interruptus in the Transcriptional Regulation of Hedgehog Target Gene Expression  Chien-Huan Chen, Doris P von Kessler, Woojin Park, Baolin Wang, Yong Ma, Philip A Beachy  Cell  Volume 98, Issue 3, Pages 305-316 (August 1999) DOI: 10.1016/S0092-8674(00)81960-1

Figure 1 Transcriptional and Posttranscriptional Effects of Hh Signaling in cl-8 Cells (A–C) Hh effects on Ci (A) and Ptc (B) protein levels. The anti-Ci-N antibody used in (A) detects both Ci75 and Ci155. The relative intensities of bands corresponding to Ci and Ptc proteins in Western blots were normalized to that of actin and plotted in (C). Note that Ci155 migrates with an apparent molecular weight of ∼190 kDa, and Ci75 with an apparent molecular weight of ∼85 kDa. Arrowhead denotes a nonspecific band. Cells were stimulated by addition of conditioned medium containing Hh-N; activity was lost upon depletion of Hh-N with a specific antibody. (D–F) Hh effects on ci (D) and ptc (E) mRNA levels. The relative intensities of bands corresponding to ci and ptc mRNA in Northern blots were normalized to that of rp49 mRNA and plotted in (F). The levels of ci mRNA remained relatively unchanged throughout 8 hr of Hh stimulation (D and F), whereas ptc transcription increased 7-fold (E and F). (G–J) Confocal images of immunofluorescence staining for Ci155 (G and H) or Ptc (I and J) in cl-8 cells. A uniform increase in both Ci and Ptc protein levels was observed upon Hh stimulation for 6 hr (G and H) or 20 hr (I and J). Cell 1999 98, 305-316DOI: (10.1016/S0092-8674(00)81960-1)

Figure 2 The Response of ptc Reporters to Hh Signaling and Pathway Components in cl-8 Cells (A) Reporter gene assays of ptc promoter activity. Luciferase reporter constructs based on the ptc promoter were cotransfected into cl-8 cells with a constitutively expressed control construct for normalization. The horizontal bars (shaded and open for presence and absence of Hh-N, respectively) show the average activity (n = 3) and standard deviation for each construct after normalization; the numbers indicate the fold induction by Hh-N. Three consensus and mutagenized Ci-binding sites in these constructs are shown as filled and open circles, respectively. The ptcΔ-136 construct was activated ∼40-fold by Hh stimulation and was used in subsequent experiments (referred to as the ptc reporter). (B) Effects of Hh signaling pathway components on ptc reporter activity. Expression constructs for the indicated pathway components were cotransfected with the ptc reporter. Average normalized reporter activities (n = 4) are indicated above each bar (open and shaded bars for absence and presence of Hh stimulation, respectively). Cell 1999 98, 305-316DOI: (10.1016/S0092-8674(00)81960-1)

Figure 3 Ci155 Phosphorylation Is Regulated by Hh Signaling (A) Hh stimulation for 6 hr increased the proportion of faster-migrating Ci155 species. (B) Treatment of immunoprecipitated Ci protein with lambda phosphatase caused faster migration of Ci155 species in the absence but not in the presence of the phosphatase inhibitor sodium orthovanadate. (C) Autoradiogram showing phosphorylation of immunoprecipitated Ci after incubation with PKA in the presence of [γ-32P] ATP. PKA inhibitor 5-24 (PKI) blocked this phosphorylation. (D) Treatment of cl-8 cells with the phosphatase inhibitors okadaic acid (OA) and tautomycin (TAU). Drug treatments and Hh-N stimulation were for 3 hr. Note that this degree of Hh-N stimulation is sufficient to reduce but not abolish Ci75 species. (A) and (B) are Western blots with anti-Ci-C antibody, and (D) is a Western blot with the anti-Ci-N antibody. Cell 1999 98, 305-316DOI: (10.1016/S0092-8674(00)81960-1)

Figure 4 Processing of Ci155 Is Proteasome Dependent (A) The proteasome inhibitors lactacystin, MG132, and PSI (not shown) blocked the processing of Ci155, resulting in accumulation of Ci155 and reduction of Ci75. The blot for Ci75 was overexposed for most sensitive detection and is not indicative of the abundance of Ci75 relative to Ci155. The DMSO vehicle and the calpain inhibitor E64 did not affect Ci155 processing. (B) Treatment with MG132 caused accumulation of slower-migrating species of Ci155; this decrease in mobility was enhanced by additional treatment with OA. (C) Lambda phosphatase treatment of Ci155 immunoprecipitated from cells treated with MG132 and OA either in the presence or absence of Hh-N converted all slower-migrating species to a single faster-migrating species. (D) Ci155 from cells treated with lactacystin in the presence of Hh-N migrated faster than Ci155 from cells treated in the absence of Hh-N. (E) Armadillo (Arm), phosphorylated Arm (P-Arm), and a ladder of Arm species accumulated in cl-8 cells treated with lactacystin. The mobility differences between Arm species in the ladder correspond to ∼8 kDa. Western blotting was carried out with anti-Ci-N (A), anti-Ci-C (B–D), and anti-Arm (E). Drug treatments and Hh-N stimulation were for 6 hr in (A), (D), and (E) and for 4 hr in (B) and (C). Cell 1999 98, 305-316DOI: (10.1016/S0092-8674(00)81960-1)

Figure 5 Inhibition of Ci Processing Is Not Sufficient to Fully Activate Hh Targets (A) Activity of a GAL4-responsive UAS-lacZ reporter in cells cotransfected for expression of Ci or CiGal4 chimeric proteins. Numbers indicate average fold induction in three experiments, with standard deviation. (B) A Western blot using anti-Gal4 DNA-binding domain antibody was performed with extracts from cl-8 cells transfected with CiGal4 or CiGal4Δ603–835 expression constructs. Neither chimeric protein is processed in cl-8 cells. (C) The proteasome inhibitor lactacystin alone did not activate ptc-luciferase reporter expression. Hh signaling in the presence of lactacystin induced reporter expression 8.6-fold. E64 had no effect. Values are the average of three independent experiments and are shown with standard deviation. Cell 1999 98, 305-316DOI: (10.1016/S0092-8674(00)81960-1)

Figure 6 Hh Signaling Induces Nuclear Translocation of Ci155 (A) Fractionation of cl-8 cells to separate nuclear and cytoplasmic proteins. The nuclear fractions loaded in lanes 1–4 represent material from a 30-fold greater number of cells than the cytoplasmic fractions loaded in lanes 5–8. The multiple washes used to produce clean nuclear fractions lead to some nuclear lysis and loss of material and therefore are not suitable for comparisons of relative abundance between nucleus and cytoplasm. Immunodetection of Ci155 and Ci75 was with anti-Ci-N. (B) Confocal images of immunofluorescence staining for Ci155. Cells were stimulated with Hh-N for 6 hr and stained with anti-Ci-C. (C) Average nuclear pixel intensity after background subtraction (n = 10). Cell 1999 98, 305-316DOI: (10.1016/S0092-8674(00)81960-1)

Figure 7 Inhibition of Nuclear Export Causes Accumulation of Ci155 in the Nucleus and Activates ptc Reporter Expression (A–C) Confocal images of endogenous Ci155 immunofluorescence staining in untreated cl-8 cells (A), or cells treated for 32 hr with 20 nM LMB (B) or Hh-N (C). Nuclear intensity of Ci155 staining in LMB- or Hh-treated cells was comparable (see [N]). (D–F) Confocal images of Ci155 staining in cl-8 in cells expressing high levels of Ci from a transfected construct. Two hours of LMB treatment shifted most of the overexpressed Ci155 into the nucleus (E), whereas it remained largely cytoplasmic after 32 hr of Hh stimulation (F). Nuclei were visualized by DAPI staining (not shown); for clarity, nuclear borders in (E) and (K) are indicated by arrowheads, and the nucleolus is indicated by an asterisk. (G and H) Confocal images of Ci155 in cl-8 cells expressing high levels of Ci and/or Cos2 from transfected constructs. High levels of Ci coexpressed with Cos2 remained largely cytoplasmic after 32 hr of LMB treatment (H). (I–L) Confocal images of GFP fluorescence in cl-8 cells transfected with constructs expressing GFP (I) or GFPCyt (J–L). GFPCyt is a fusion of GFP with residues 675–860 of Ci. LMB treatment of cells transfected with GFPCyt for 6 hr shifted green fluorescence from the cytoplasm (J) to the nucleus (K). Fluorescence remained cytoplasmic after 6 hr of Hh-N stimulation (L). (M) Ci155 in nuclear fractions of cells treated with LMB. Nuclear fractions from untreated cl-8 cells (lane 1) or cl-8 cells treated for 6 hr with LMB or Hh (lanes 2 and 3) were immunoblotted using anti-Ci-N for detection. Note that the increase in nuclear Ci155 is less in LMB-treated cells than in Hh-treated cells (see [N]). (N) Kinetics of nuclear accumulation of Ci155. Average nuclear pixel intensity from Ci155 immunofluorescence staining for cl-8 cells treated with LMB (filled diamond), Hh-N (filled square), or Hh-N with LMB (open triangle) for the indicated periods. Values are the average of ten determinations with standard errors after subtraction of nonspecific background. (O) LMB treatment in the absence of Hh stimulation induces ptc reporter activity. The average normalized ptc reporter activity (n = 2) with standard deviation is shown from a representative experiment for untreated cells (open bars), for cells treated with 20 nM LMB (hatched bars), and for Hh-N-treated cells (black bars) at the indicated incubation periods. The inset shows the ratio of reporter activities induced by LMB treatment to those induced by Hh signaling as a function of increasing incubation period. Similar results were obtained from multiple experiments. Cell 1999 98, 305-316DOI: (10.1016/S0092-8674(00)81960-1)