Mechanism of Chemoprevention Action and SAR of a Tetrahydroisoquinoline Riboside

四氢异喹啉核苷的化学预防作用机制和比吸收率

• 批准号: 7666618
• 负责人: John K Buolamwini
• 金额: $ 7.38万
• 依托单位: UNIVERSITY OF TENNESSEE HEALTH SCI CTR
• 依托单位国家: 美国
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-03-01 至 2011-02-28
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7666618
• 关键词: Accounting; Animal Model; Biochemical; Biological Assay; Cells; Chemoprevention; Chemopreventive Agent; DNA Binding; DNA-Binding Proteins; Development; Funding; Goals; Grant; Human; In Vitro; Inbred SENCAR Mice; Investigation; Laboratories; Lead; MAP Kinase Signaling Pathways; MAPK14 gene; MAPK8 gene; Malignant Neoplasms; Methods; Mitogen-Activated Protein Kinases; Modeling; Molecular; Molecular Biology; Molecular Target; Mus; Nucleoside Transporter; Pathway interactions; Play; Process; Protein Kinase C; Relative (related person); Reporter; Research; Role; Seeds; Signal Pathway; Skin; Skin Cancer; Skin Carcinogenesis; Staging; Structure-Activity Relationship; Testing; Tetrahydroisoquinolines; Transcription Factor AP-1; Tumor Promotion; analog; cancer chemoprevention; carcinogenesis; cell growth; chemical synthesis; design; drug development; in vivo; inhibitor/antagonist; novel; pre-clinical; programs; purine riboside; riboside; success; tumorigenic

DESCRIPTION (provided by applicant): Promotion agents with a structure-activity relationship (SAR) that points to some mechanism(s) other than NT inhibition. For example, among novel tetrahydroisoquinoline riboside NT inhibitors tested as anti-tumor promotion agents in the JB6 P+ carcinogenesis model, the relative order of potency with regard to anti-promotion activity was: Compound 23 > Compound 3 > Compound 4, whereas the NT inhibitory potency order was the opposite, with Compound 4 being the most potent (Ki = 0.45 nM) followed by Compound 3 (Ki = 15 nM) and then followed by Compound 23, the least potent (Ki = 300 nM). Upon further investigation with Compound 23, we have shown that in addition to inhibiting TPA-induced tumorigenic transformation, it also inhibits TPA-induced AP-1 transcription factor activation, which has been shown to have a major role in TPA-induced tumor promotion in the JB6 mouse epidermal cell carcinogenesis model, as well as in many other in vitro and in vivo carcinogenesis processes. Thus, in this application, we propose to initiate an investigation of the mechanisms of action of compound 23, as well as conduct antitumor promotion SAR and test the compounds' cancer chemopreventive potential in an in vivo mouse skin carcinogenesis model. The specific aims are: 1) to synthesize and test new aromatic and heterocyclic analogs of Compound 23, 2) to investigate interference with AP-1 DNA binding, and MAP kinase signaling pathways that might account for the possible AP-1-dependent antitumor promotion activity of the compounds, and 3) to evaluate the best compound from Aim 2 in an in vivo mouse skin carcinogenesis model. AP-1-SEAP JB6 reporter cells created by us will be used for the in vitro investigations of SAR and mechanism. We will use the AP-1-SEAP reporter and anchorage independent cell growth clonogenic transformation assays to test the potential chemopreventive activity of new compounds to be synthesized activity. Interference with AP-1 DNA binding, protein kinase C, as well as the role of the mitogen-activated protein kinases (MAPKs) ERK, p38 and JNK, known to be upstream of AP-1, will be analyzed. The SENCAR mouse skin two-stage carcinogenesis model will be used to assess the in vivo anti-tumor promotion activity of this class of compounds in attempts to identify potential lead compounds for preclinical optimization. The success of this research program may lead to the identification of novel promising agents for skin cancer chemoprevention.

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