Potent antitumor effects of cell-penetrating peptides targeting STAT3 axis
Maryam Aftabizadeh, Yi-Jia Li, Qianqian Zhao, Chunyan Zhang, Nigus Ambaye, Jieun Song, Toshikage Nagao, Christoph Lahtz, Marwan Fakih, David K. Ann, Hua Yu, Andreas Herrmann
Maryam Aftabizadeh, Yi-Jia Li, Qianqian Zhao, Chunyan Zhang, Nigus Ambaye, Jieun Song, Toshikage Nagao, Christoph Lahtz, Marwan Fakih, David K. Ann, Hua Yu, Andreas Herrmann
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Research Article Oncology Therapeutics

Potent antitumor effects of cell-penetrating peptides targeting STAT3 axis

Abstract

To date, there are no inhibitors that directly and specifically target activated STAT3 and c-Myc in the clinic. Although peptide-based inhibitors can selectively block activated targets, their clinical usage is limited because of low cell penetration and/or serum stability. Here, we generated cell-penetrating acetylated (acet.) STAT3, c-Myc, and Gp130 targeting peptides by attaching phosphorothioated (PS) polymer backbone to peptides. The cell-penetrating peptides efficiently penetrated cells and inhibited activation of the intended targets and their downstream genes. Locally or systemically treating tumor-bearing mice with PS-acet.-STAT3 peptide at low concentrations effectively blocked STAT3 in vivo, resulting in significant antitumor effects in 2 human xenograft models. Moreover, PS-acet.-STAT3 peptide penetrated and activated splenic CD8+ T cells in vitro. Treating immune-competent mice bearing mouse melanoma with PS-acet.-STAT3 peptide inhibited STAT3 in tumor-infiltrating T cells, downregulating tumor-infiltrating CD4+ T regulatory cells while activating CD8+ T effector cells. Similarly, systemic injections of the cell-penetrating c-Myc and Gp130 peptides prevented pancreatic tumor growth and induced antitumor immune responses. Taken together, we have developed therapeutic peptides that effectively and specifically block challenging cancer targets, resulting in antitumor effects through both direct tumor cell killing and indirectly through antitumor immune responses.

Authors

Maryam Aftabizadeh, Yi-Jia Li, Qianqian Zhao, Chunyan Zhang, Nigus Ambaye, Jieun Song, Toshikage Nagao, Christoph Lahtz, Marwan Fakih, David K. Ann, Hua Yu, Andreas Herrmann

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Figure 4

Treatments with PS-acet.-STAT3 peptide suppress growth of HCT116 xenograft tumors.

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Treatments with PS-acet.-STAT3 peptide suppress growth of HCT116 xenogra...
(A) Growth kinetics of HCT116 tumors in NSG mice systemically treated with acet.-STAT3 peptides (1 mg/kg), with or without PS oligonucleotide conjugation, every other day (n = 5). SD is shown. Two-way ANOVA (Tukey’s multiple comparisons test) was used for analyzing the kinetics of tumor growth over the treatment period; ****P < 0.001. (B) Downregulation of tumor STAT3 activity in mice treated with PS-acet.-STAT3 peptide, as shown by immunoprecipitation followed by Western blotting. Lower 2 panels show input total STAT3 protein. (C) Treatment with PS-acet.-STAT3 peptide induces cell death and inhibits proliferation and angiogenesis in tumors, as indicated by confocal imaging and H&E staining (upper panel) and IF staining of Ki-67 and CD31 proteins in the tumor sections (lower panels). Penetration of FAM-labeled PS-acet.-STAT3 peptide into tumors was also assessed by immunostaining followed by confocal imaging (second panel from top). The images are representative of 5 tumors per experimental group in A. Scale bars: 50 μm. Insets: original magnification, ×20. The graphs show the quantification for FAM and Ki-67 expression levels and of the mean vessel diameter (data include 5 fields of view per group). SD is shown. One-way ANOVA; ****P < 0.001; ***P < 0.005. (D) Effects of downregulation of STAT3 activity on expression of proliferation- and apoptosis-related genes, as assessed by quantitative real-time RT-PCR in tumor homogenates from tumors shown in A. One-way ANOVA; ****P < 0.001; **P < 0.01; *P < 0.05. (E) Downregulation of STAT3 target proteins after treatments with PS-acet.-STAT3 peptide, analyzed by Western blotting using tumor homogenates from the tumors shown in A.