1228754-75-3

Upstream product

• 19249-03-7 triethylene glycol di-(p-toluenesulfonate) 

Downstream Products

• 1613538-57-0 C₄₅H₆₇FN₄O₉ 

Relevant academic research and scientific papers

Radiosynthesis, biological evaluation and preliminary microPET study of 18F-labeled 5-resorcinolic triazolone derivative based on ganetespib targeting HSP90

Heat-shock protein 90 (HSP90) is a molecular chaperone that activates oncogenic transformation in several solid tumors, including lung and breast cancers. Ganetespib, a most promising candidate among several HSP90 inhibitors under clinical trials, has entered Phase III clinical trials for cancer therapy. Despite numerous evidences validating HSP90 as a target of anticancer, there are few studies on PET agents targeting oncogenic HSP90. In this study, we synthesized and biologically evaluated a novel 18F-labeled 5-resorcinolic triazolone derivative (1, [18F]PTP-Ganetespib) based on ganetespib. [18F]PTP-Ganetespib was labeled by click chemistry of Ganetespib-PEG-Alkyne (10) and [18F]PEG-N3 (11) with 37.3 ± 5.11% of radiochemical yield and 99.7 ± 0.09% of radiochemical purity. [18F]PTP-Ganetespib showed proper LogP (0.96 ± 0.06) and good stability in human serum over 97% for 2 h. [18F]PTP-Ganetespib showed high uptakes in breast cancer cells containing triple negative breast cancer (TNBC) MDA-MB-231 and Her2-negative MCF-7 cells, which are target breast cancer cell lines of HSP90 inhibitor, ganetespib, as an anticancer. Blocking of HSP90 by the pretreatment of ganetespib exhibited significantly decreased accumulation of [18F]PTP-Ganetespib in MDA-MB-231 and MCF-7 cells, indicating the specific binding of [18F]PTP-Ganetespib to MDA-MB-231 and MCF-7 cells with high HSP90 expression. In the biodistribution and microPET imaging studies, the initial uptake into tumor was weaker than in other thoracic and abdominal organs, but [18F]PTP-Ganetespib was retained relatively longer in the tumor than other organs. The uptake of [18F]PTP-Ganetespib in tumors was not sufficient for further development as a tumor-specific PET imaging agent by itself, but this preliminary PET imaging study of [18F]PTP-Ganetespib can be basis for developing new PET imaging agents based on HSP90 inhibitor, ganetespib.

Receptor molecularly-targeted imaging agent and preparation method and application thereof

The invention discloses a receptor molecularly-targeted imaging agent and a preparation method and application thereof. The receptor molecularly-targeted imaging agent comprises a polyethylene glycol short chain which is linked with 17alpha-ethinyloestradiol of a target estrogen receptor through 'click' reaction. The receptor molecularly-targeted imaging agent is shown as a concrete general molecular formula in the description, wherein the 17alpha-ethinyloestradiol serves as a targeting group, polyethylene glycol serves as a hydrophilic group, and F serves as a radioactive group. The receptor molecularly-targeted imaging agent has excellent biological properties and high specificity, is high in uptake when used in positive breast cancer tumors of the estrogen receptor and capable of distinguishing between estrogen positive receptors and estrogen negative receptors, and meets the conditions as a breast cancer receptor imaging agent.