1. Therapeutic potential of adenovirus-mediated TFF2-CTP-Flag peptide for treatment of colorectal cancer
- Author
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Chandan Guha, Giovanni Valenti, Timothy C. Wang, Karan Nagar, Huan Deng, Zinaida A. Dubeykovskaya, Jan Kitajewski, Krystle Cuti, Yagnesh Tailor, and Phaneendra K. Duddempudi
- Subjects
0301 basic medicine ,Cancer Research ,endocrine system diseases ,viruses ,Transgene ,Genetic Vectors ,Peptide ,Gene delivery ,Chorionic Gonadotropin ,Article ,Adenoviridae ,Viral vector ,law.invention ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Cyclin D1 ,In vivo ,law ,Animals ,Transgenes ,Molecular Biology ,chemistry.chemical_classification ,Chemistry ,food and beverages ,Genetic Therapy ,Colitis ,Colorectal cancer ,Peptide Fragments ,3. Good health ,030104 developmental biology ,030220 oncology & carcinogenesis ,Cancer research ,Systemic administration ,Recombinant DNA ,Molecular Medicine ,Trefoil Factor-2 ,Colorectal Neoplasms ,Oligopeptides - Abstract
TFF2 is a small, secreted protein with anti-inflammatory properties. We previously have shown that TFF2 gene delivery via adenovirus (Ad-Tff2) suppresses colon tumor growth in colitis associated cancer. Therefore, systemic administration of TFF2 peptide could potentially provide a similar benefit. Because TFF2 shows a poor pharmacokinetic, we sought to modify the TFF2 peptide in a manner that would lower its clearance rate but retain bioactivity. Given the absence of a sequence-based prediction of TFF2 functionality, we chose to genetically fuse the C-terminus of TFF2 with the carboxyl-terminal peptide of human chorionic gonadotropin β subunit, and inserted into adenoviral vector that expresses Flag. The resulting Ad-Tff2-CTP-Flag construct translates into a TFF2 fused with two CTP and three Flag motifs. Administered Ad-Tff2-CTP-Flag decreased tumorigenesis and suppressed the expansion of myeloid cells in vivo. The fusion peptide TFF2-CTP-Flag delivered by adenovirus Ad-Tff2-CTP-Flag as well purified recombinant fusion TFF2-CTP-Flag was retained in the blood longer compared with wild-type TFF2 delivered by Ad-Tff2 or recombinant TFF2. Consistently, purified recombinant fusion TFF2-CTP-Flag suppressed expansion of myeloid cells by down-regulating cyclin D1 mRNA in vitro. Here, we demonstrate for the very first time the retained bioactivity and possible pharmacokinetic advantages of TFF2 with a modified C-terminus.
- Published
- 2018
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