Volume 12, Issue 5, Pages (November 2005)

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Volume 12, Issue 5, Pages 813-823 (November 2005) Identification of Amino Acids of Sindbis Virus E2 Protein Involved in Targeting Tumor Metastases in Vivo  Alicia Hurtado, Jen-Chieh Tseng, Christopher Boivin, Brandi Levin, Herman Yee, Christine Pampeno, Daniel Meruelo  Molecular Therapy  Volume 12, Issue 5, Pages 813-823 (November 2005) DOI: 10.1016/j.ymthe.2005.06.476 Copyright © 2005 The American Society of Gene Therapy Terms and Conditions

FIG. 1 Colocalization in peritoneal cavity of vector C. (A) Vector C infection colocalized with the metastasized ES-2/Fluc tumors in the peritoneal cavity as determined by the IVIS Imaging System. SCID mice were inoculated ip with 1.5 × 106 ES-2/Fluc cells. Five days later, while the disease was still microscopic, inoculated mice received a single ip treatment of vector C and were imaged the next day. The first IVIS imaging was done by ip injection of Rluc substrate, coelenterazine, followed by a 5-min acquiring interval (left). Thirty minutes after the coelenterazine injection, when the short-lived Rluc signals had faded away, Fluc substrate, d-luciferin, was injected ip to determine the ES-2/Fluc tumor locations (right). (B) Correlation analysis of vector C shows a high correspondence between tumor cells and vector infection in the peritoneal cavity. Molecular Therapy 2005 12, 813-823DOI: (10.1016/j.ymthe.2005.06.476) Copyright © 2005 The American Society of Gene Therapy Terms and Conditions

FIG. 2 Suppression of disease progression by Ar-339 and JT chimeric vectors. (A) ES-2/Fluc cells (1.5 × 106) were inoculated ip into SCID mice on day 0. Next day (day 1), mice were imaged using the IVIS Imaging System with d-luciferin as substrate and were split into five groups of five mice each: control, which received no vector treatment; vector A; vector B; vector C; and vector D. The groups received daily ip treatments of corresponding Sindbis vectors (106 TU) and were IVIS-imaged on days 1, 5, 13, and 19 after the start of treatment. All vector treatments suppressed the tumor growth on the mesentery and diaphragm and reduced the signals on the omentum compared with control mice. Image scale min 8 × 103, max 105 counts/pixel. (B) Quantitative analysis of the whole-body total photon counts of control and Sindbis-treated mice. Error bars represent the SEM. (C) Survival curve of mice. Molecular Therapy 2005 12, 813-823DOI: (10.1016/j.ymthe.2005.06.476) Copyright © 2005 The American Society of Gene Therapy Terms and Conditions

FIG. 3 Background infection of Ar-339 and JT chimeric vectors. (A) Five SCID female tumor-free mice per group were injected ip on day 0 with one dose of vector A (JT-BB/SP6-RFluc), vector B (SP6-H/JTRepFluc), or C (SP6-H/SP6-RFluc) and the next day (day 1) IVIS-imaged for vector luciferase signal. The peritoneum from the mice indicated with a circled number was removed and the organs were harvested and imaged (rows 2 and 3). All vectors showed infection in fat tissue (1), and in the vector B and C groups two mice showed a low background signal on ribs (2) but not in organs. (B) The remaining mice per group received a second ip injection of the vectors on day 2 and were IVIS-imaged on day 3. The peritoneal cavities and organs correspond to the circled mice. Image resolution Bin2, scale min 30, max 103 counts/pixel for all images. Molecular Therapy 2005 12, 813-823DOI: (10.1016/j.ymthe.2005.06.476) Copyright © 2005 The American Society of Gene Therapy Terms and Conditions

FIG. 4 Tumor targeting of Ar-339 and JT chimeric vectors. (A) SCID female mice were injected ip on day 0 with 2 × 106 ES-2 cells/mouse. On day 4 five mice per group were injected ip with one dose of vector A (JT-BB/SP6-RFluc), vector B (SP6-H/JTRepFluc), or vector C (SP6-H/SP6-RFluc) and the next day (day 5) IVIS-imaged for vector luciferase signal. The peritoneum from the mice with circled numbers was removed and the organs were harvested and imaged. All vectors targeted tumor implants. Tumors on peritoneum (1), pancreas–omentum (2), and bowel (3) are indicated. (B) Some mice per group received a second ip injection of the vectors of day 6, and the organs of the circled mice (bottom rows) were IVIS imaged on day 7. One mouse per group (Nos. 28, 33, 38) was not injected to serve as luciferase background control. For both A and B the image scale for whole body is min 30, max 103 counts/pixel, scale for organ array is min 300, max 5 × 103 counts/pixel. (C) Staining of tumor sections with antibody specific for luciferase confirmed specific tumor targeting of vector. H&E staining of isolated tumor implants of the peritoneal adipose tissue (upper images) shows a hypercellular tumor population (T) with a central area composed of nonviable tumor and acute inflammation (below white line NVT). Immunohistologic staining of consecutive 5-μm tumor sections with antibody specific for luciferase shows intense stain of the tumor but not of the areas with the inflammatory cells (lower images). Right side corresponds to higher magnification of boxed regions on left. Bar, 100 μm. Molecular Therapy 2005 12, 813-823DOI: (10.1016/j.ymthe.2005.06.476) Copyright © 2005 The American Society of Gene Therapy Terms and Conditions

FIG. 5 Background infection of Ar-339 E2 mutants. (A) Five SCID female tumor-free mice per group were injected ip on day 0 with one dose of vector A (JT-BB/SP6-RFluc), vector C (SP6-H/SP6-RFluc), Mut-1 (SP6-HK70/SP6-RFluc), Mut-2 (SP6-HK70V251/SP6-RFluc), or Mut-4 (SP6-HI3K70E181V251/SP6-RFluc). Next day, the mice were IVIS-imaged for vector luciferase signal. The peritoneum was removed and the organs were harvested and IVIS-imaged. E2 mutant organ arrays were also IVIS-imaged at Bin10 resolution to increase the detection limit (bottom row). (B) Some mice per group received a second ip injection of the vectors on day 2, and organs were harvested and IVIS imaged. Circled mice (Nos. 17, 24, 27, 32, and 39) were not injected to serve as luciferase background controls. Image scale for Bin2 whole mouse is min 30, max 103, organs Bin2 and Bin10 min 20, max 103 counts/pixel. Organs correspond to circled mice. Molecular Therapy 2005 12, 813-823DOI: (10.1016/j.ymthe.2005.06.476) Copyright © 2005 The American Society of Gene Therapy Terms and Conditions

FIG. 6 Tumor targeting of Ar-339 E2 mutants. (A) SCID female mice were injected ip on day 0 with 2 × 106 ES-2 cells/mouse. On day 4, five mice per group were injected ip with one dose of vector A (JT-BB/SP6-RFluc, 105 TU/ml), vector C (SP6-H/SP6-RFluc, 103 TU/ml), Mut-1 (SP6-HK70/SP6-RFluc, 103 TU/ml), Mut-2 (SP6-HK70V251/SP6-RFluc, 104 TU/ml), or Mut-4 (SP6-HI3K70E181V251/SP6-RFluc, 104 TU/ml) and the next day (day 5) IVIS-imaged for vector luciferase signal. The peritoneum was removed and the organs were harvested and imaged. For the three mutants, IVIS images at Bin10 resolution were taken of organ arrays. Only at this high sensitivity did some mice of the Mut-1 and Mut-2 groups show very low residual signal in metastatic implants (lower images). (B) Some mice per group received a second ip injection of the vectors on day 6, and peritoneal cavities and organs were IVIS-imaged on day 7. One mouse per group (Nos. 80, 85, 89, 94, and 99) was not injected to serve as a luciferase background control. For the three E2 mutants, high-sensitivity Bin10 images were also taken. Vectors showed infection patterns equivalent to those of the first injection. For both A and B the image scale was whole body at Bin2 min 30, max 103 counts/pixel and organ arrays at Bin2 and Bin 10 min 20, max 103 counts/pixel. Organs correspond to mice indicated with a circled number. Molecular Therapy 2005 12, 813-823DOI: (10.1016/j.ymthe.2005.06.476) Copyright © 2005 The American Society of Gene Therapy Terms and Conditions