Figure 1 A B GCL NBL ED18.5 PND3 PND6 GCL

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Figure 1 A B GCL NBL ED18.5 PND3 PND6 GCL Figure 1: Expression of Cadherin-11 in Developing Murine Retina. A) Cadherin-11 was expressed in the differentiating layer at (embryonic day) ED18.5, by migrating cells at (post natal day) PND3 and again in an area where differentiating cells are present PND6. B) In adults, (PND60) cadherin-11 expression was restricted to cell types of the INL, with high expression by Müller glia processes that span the entire retina. These studies were performed using a different and more specific antibody than previously used in Marchong et al, 2004. INL ONL PND60 Figure 1

A GCL INL ONL GS CDH11 Merge 40x oil INL Cralbp CDH11 Merge 100x oil B INL Figure 2: Co-expression of Cadherin-11 and Retinal Cell Types in Adult Retina. A, B) Cadherin-11 expression co-localizes with Müller glia cell bodies (CRALBP, 100x magnification), Müller glia cell processes (glutamine synthetase, 40x magnification) and horizontal cells (160 kDa, 40x magnification); C, D) but not with bipolar (Chx-10, 40x and 100x magnification) or amacrine (HPC-1, 40x magnification) (white arrows) cells. 160 kDa CDH11 Merge 40x oil ONL GCL C INL ONL Chx-10 40x oil CDH11 40x oil Chx-10 100x oil CDH11 INL D INL HPC-1 CDH11 ONL Figure 2

Figure 3 ED18.5 PND3 PND6 PND15 PND60 B A GCL INL ONL Figure 3: Retinal Histology of Cdh11+/+, Cdh11+/-, and Cdh11-/- Littermates. Hematoxylin and Eosin (H&E) staining of 5 µm sections cut through the papillary-optic nerve plane. At developmental time points, ED18.5, PND3, PND6, PND15 (data not shown) and PND60 (adult), no gross retinal phenotypic differences were observed between A) Cdh11+/+, B) Cdh11+/-, and C) Cdh11-/- Littermates. Figure 3

Figure 4 A B C cadherin-11 TAg Figure 4: Gradual Loss of Cadherin-11 Expression in TAg-RB Tumors. A) At PND28 TAg-RB mice displayed multifocal tumors (clusters) which stained positive for TAg (green). Some of these multifocal tumors lost cadherin-11 expression (red) while some retained expression (magnified picture), suggesting a gradual loss of cadherin-11 expression in tumors at this stage. B) At PND35, regions of tumors that were positive for TAg were completely negative for cadherin-11 and regions of no tumor retained cadherin-11 expression (arrow). C) By PND140, entire tumors showed no cadherin-11 expression. Figure 4

Figure 5 A B C Cdh11+/+; TAg+/- Cdh11+/-;TAg+/- Cdh11-/-;TAg+/- Average Retinal Volume and TAg positive cells per Eye at PND8 TAg +ve [cells] Retinal Area [pixels] B 20E5 40E5 60E5 80E5 100E5 120E5 140E5 160E5 1000 2000 3000 4000 5000 6000 7000 8000 9000 Cdh11+/+;TAg+/- Cdh11+/-;TAg+/- Cdh11-/-;TAg+/- Retinal volume, K-W p=0.83 Number of TAg-positive cells, K-W p=0.01 n=5 Figure 5: Cdh11 genomic copy number correlates with number of TAg-positive cells (origin of tumors in TAgRB mice) at PND8. A) Representative sections of Cdh11+/+;TAg+/-, Cdh11+/-;TAg+/-, and Cdh11-/-;TAg+/- genotypes by H&E stain and TAg staining. The single TAg-positive cells in the INL of the retina are reduced in number with reduced Cdh11 allele dosage. H&E staining reveals no major phenotypical difference between the three genotypes. B) Manual counts of TAg-positive cells per retinal area were extrapolated to the entire retina. The total number of TAg-positive cells of origin of retinoblastoma was 2-fold and 3-fold less (p=0.01) (light grey histogram) when one or two alleles of Cdh11 were lost respectively, compared to mice with normal Cdh11. The retinal size (dark grey histogram) was similar (p=0.83) between the Cdh11 genotypes. C) The ratio of TAg-positive cells to total retinal area was significantly reduced with reduced Cdh11 gene dose (p=0.01). The Kruskal-Wallis Test was used to assess significance and error bars represent standard deviations. C Ratio of Total TAg-positive Cells to Total Retinal Area 0.10 K-W: p=0.01 0.09 0.08 % TAg +ve cells / retina (cells/pixels) 0.07 0.06 0.05 0.04 0.03 0.02 0.01 0.00 Cdh11+/+;TAg+/- Cdh11+/-;TAg+/- Cdh11-/-;TAg+/- Figure 5

Figure 6 A B Cdh11+/+;TAg+/- Cdh11+/-;TAg+/- Cdh11-/-;TAg+/- Percent Tumor Area per Retinal Area at PND28 Figure 6: At PND28, fewer multifocal tumors developed when Cdh11 alleles were lost. A) A distinct Cdh11 loss phenotype was observed from representative sections of TAg and H&E stains. Fewer TAg-positive multifocal tumors were present in mice with mutant Cdh11 alleles; H&E showed more advanced tumors in Cdh11+/+ mice than in Cdh11+/- or Cdh11-/- mice. B) The number of multifocal tumors was significantly less (p=0.016) in mice with Cdh11 allelic loss, correlating with fewer tumor initiating cells at PND8. Total tumor volume was calculated using image J software measuring tumor area (TAg stained region) as a percentage of retinal area (manually traced) for every 60th section (approximately 300 µm apart) through the eye and extrapolated to the entire retina. The Kruskal Wallis Test was used to assess significance and error bars represent standard deviations. 9 8 K-W: p=0.016 n=5 7 6 % Total Tumor Area per Retina [pixels] 5 4 3 2 1 Cdh11+/+;TAg+/- Cdh11+/-;TAg+/- Cdh11-/-;TAg+/- Figure 6

Figure 7 A B C Cdh11+/+;TAg+/- Cdh11+/-;TAg+/- Cdh11-/-;TAg+/- Average Retinal or Tumor Area per Eye at PND84 1.40E+07 Tumor volume, K-W p=0.26 Retinal volume, K-W p=0.01 1.20E+07 1.00E+07 Retinal or Tumor Area [pixels] 8.00E+06 6.00E+06 Figure 7: At PND84, total tumor volume was similar in all three genotypes. A) Representative H&E and TAg stained sections showed large tumors originating from the INL of the retina. Tumors were composed of disorganized cells, rosette formations and disrupted laminated layers due to tumor growth. No gross phenotypical differences were observed in different genotypes on H&E stained sections. B) Retinal area and tumor area of every 60th section were tabulated and extrapolated to the entire retina. Total tumor volume per genotype was not statistically different (p=0.26), but total retinal areas were significantly larger when Cdh11 was lost (p=0.01). C) To accommodate for varying retinal size per genotype, total tumor volume was represented as a percentage total retinal area in all mice, showing no statistical difference between genotypes (p=0.07), although a strong trend is observed, perhaps due to overall larger retinas. . This suggested faster growing tumors in mice with Cdh11 loss, since there were fewer tumor-originating cells and consequently fewer multifocal tumors initially (PND28). Tumor volume was calculated as described in Figure 5. The Kruskal Wallis Test was used to assess significance and error bars represent standard deviations.   4.00E+06 2.00E+06 0.00E+00 Cdh11+/+;TAg+/- Cdh11+/-;TAg+/- Cdh11-/-;TAg+/- Percent Tumor Area per Retinal Area at PND84 C 30 K-W p=0.07 25 % Total Tumor Area per Retina [pixels] 20 15 10 5 Cdh11+/+;TAg+/- Cdh11+/-;TAg+/- Cdh11-/-;TAg+/- Figure 7

Boxplot of Tumor Volume at PND84 % PCNA Cells Per Tumor Volume Cdh11+/+; TAg+/- Cdh11+/-; Cdh11-/-; K-W: p=0.003 Boxplot of Tumor Volume at PND84 from a Single PND8 Cell PND84 Tumor Volume / P8 Average Tag Positive cell 200 400 600 800 1000 5 10 15 20 25 30 35 40 % PCNA cells / tumor volume % PCNA Cells Per Tumor Volume p=0.113 Cdh11+/+;TAg+/- Cdh11-/-;TAg+/- Fix stdev Figure 8A: Tumors grew faster in mice with Cdh11 allelic loss. A) Single tumor initiating cells at PND8 were estimated by averaging the total number of TAg-positive cells in 5 mice per genotype. The ratio of tumor volume in pixels at PND84 to the average number of TAg-positive cells per eye for the three genotypes at PND8, estimates the tumor volume (large grey blocks) and describes a significant increase in volume (3 fold, p=0.003) in mice with Cdh11 loss compared to mice with both copies of Cdh11. After controlling for larger retinas (Figure 6B), loss of Cdh11 alleles still showed significantly larger tumor volumes (data not shown). B) Cdh11+/+;Tag+/- and Cdh11-/-;Tag+/- PND84 eyes were stained for proliferation marker, PCNA. % PCNA expressing cells per tumor volume is shown, indicating no significant difference between genotypes. C) Every 60th section of PND84 eyes was counted for cells positive for activated caspase-3, extrapolated to the entire retina and represented as a ratio to tumor volume per eye. The number of dying cells in tumors of mice with normal Cdh11 alleles show wide distribution, but are significantly more abundant (p=0.04) than in mice with mutant Cdh11 alleles. FIX STDEVs C Cell Death per Tumor Volume in Mouse Retinas 7.00E - 03 Mann-Whitney Test: p=0.04 6.00E - 03 5.00E - 03 CAN YOU CHANGE THE VERTICAL AXS TO ORDINGARY NUMBERS/. Number of Caspase-3 positive cells per tumor volume per eye 4.00E - 03 3.00E - 03 Fix stdev 2.00E - 03 1.00E - 03 0.00E+00 Cdh11+/+;TAg+/- Cdh11-/-;TAg+/- Figure 8

Supplementary Figure 1 Cdh11+/+ A Cdh11-/- B C Chx-10 160kDa HPC-1 Cdh11+/+ A Cdh11-/- B C Cralbp Brd-U Cadherin-2 Supplementary Figure 1: No gross differences were revealed in differentiation of retinal cell types, proliferation or expression of cadherin-2 retinas of Cdh11+/+ Cdh11+/- and Cdh11-/- Littermate Mice. All INL cell types were assayed to detect disruptions in retinal phenotype of Cdh11+/+ vs. Cdh11-/- Littermates. Retinal cell type markers for bipolar & progenitor (Chx-10), horizontal (160 kDa), amacrine (HPC-1) and Müller glia (CRALBP) showed no significant change at developmental time points A) ED18.5, B) PND3 and C) PND6. As well, no changes were seen in numbers of S-phase cells by BrdU incorporation or cadherin-2 expression. Supplementary Figure 1

Hes5 and Caspase-3 Positive cells in retinas of mice 80 p = 0.3 p = 0.35 70 60 CDH11+/+;TAg+/- 50 CDH11-/-;TAg+/- Number of Positively Stained Cells 40 30 20 10 Hes-5 Activated Caspase-3 Supplementary Figure 2: Quantitation of Hes-5 and Activated Caspase-3 Positive Cells in Retinas of Cdh11+/+;TAg+/- and Cdh11-/-;TAg+/- mice at PND8. Cells positive for early Müller differentiating marker, Hes-5 and activated caspase-3 were counted in 3 random sections taken from 5 mice per genotype. These counts revealed no significant difference between genotypes (Student’s t-test p-values: p=0.3 for Hes-5 counts and p=0.35 for Caspase-3; error bars indicate standard deviations). Supplementary Figure 2