Sung-Hyun Moon

Design, Synthesis, and Biological Evaluation of Novel Constrained meta-Substituted Phenyl Propanoic Acids as Peroxisome Proliferator-Activated Receptor α and γ Dual Agonists

In an effort to develop dual PPARalpha/gamma activators with improved therapeutic efficacy, a series of diaryl alpha-ethoxy propanoic acid compounds comprising two aryl groups linked by rigid oxime ether or isoxazoline ring were designed and synthesized and their biological activities were examined. Most of the compounds possessing an oxime ether linker were more potent PPARgamma activators than the lead PPARalpha/gamma dual agonist, tesaglitazar in vitro. Compound 18, one of the derivatives with an oxime ether linker, was found to selectively transactivate PPARgamma (EC 50 = 0.028 microM) over PPARalpha (EC 50 = 7.22 microM) in vitro and lower blood glucose in db/ db mice more than muraglitazar after oral treatment for 11 days.

Development of a complementary PET/MR dual-modal imaging probe for targeting prostate-specific membrane antigen (PSMA)

UNLABELLED We tried to develop a dual-modal PET/MR imaging probe using a straightforward one-pot method by encapsulation with specific amphiphiles. In this study, iron oxide (IO) nanoparticles were encapsulated with three amphiphiles containing PEG, DOTA and the prostate-specific membrane antigen (PSMA)-targeting ligand in aqueous medium. The diameter of the prepared nanoparticle DOTA-IO-GUL was 11.01±1.54nm. DOTA-IO-GUL was labeled with (68)Ga in high efficiency. The DOTA-IO-GUL showed a dose-dependent binding to LNCaP (PSMA positive) cells via a competitive binding study against (125)I-labeled MIP-1072 (PSMA-targeting agent). Additionally, PET and MR imaging results showed PSMA selective uptake by only 22Rv1 (PSMA positive) but not PC-3 (PSMA negative) in dual-tumor xenograft mouse model study. MR imaging showed high resolution, and PET imaging enabled quantification and confirmation of the specificity. In conclusion, we have successfully developed the specific PSMA-targeting IO nanoparticle, DOTA-IO-GUL, as a dual-modality probe for complementary PET/MR imaging. FROM THE CLINICAL EDITOR The combination of using Positron Emission Tomography (PET) and computed tomography (CT) in clinical practice is now the norm. With advances in technology, the next step would be to develop combined PET and Magnetic Resonance (MR) dual-imaging. In this article, the authors described their positive study on the development of a dual-modal PET/MR imaging probe using a prostate cancer model.

Development of a multimodal imaging probe by encapsulating iron oxide nanoparticles with functionalized amphiphiles for lymph node imaging.

AIM We tried to develop a multimodal iron oxide nanoparticles (IO NP) imaging probe by an encapsulation method using specific amphiphiles for (68)Ga-labeling and lymph node-targeting. MATERIALS & METHODS Nanoparticles (NPs) were encapsulated with a solution containing polysorbate 60 and the amphiphiles. The prepared NPs were labeled with (68)Ga and tested in vitro and in vivo. RESULTS Prepared 1,4,7-triazacyclononane-1,4,7-triacetic acid-IO-Mannose (NOTA-IO-Man) showed a narrow size distribution, and no significant aggregation or degradation under harsh conditions. The relaxivity coefficient of (68)Ga-NOTA-IO-Man was higher than that of ferumoxide. The accumulation of (68)Ga-NOTA-IO-Man in the lymph node after injection into rats footpad was confirmed by both positron emission tomography and MRI. CONCLUSION We successfully developed PET/MRI dual-modality imaging probe targeting lymph nodes by using the facile encapsulation method.

CoMFA and CoMSIA 3D QSAR Studies on Pimarane Cyclooxygenase-2 (COX-2)Inhibitors

Comparative molecular field analysis and comparative molecular similarity indices analysis were performed on twenty five analogues of pimarane COX-2 inhibitor to optimize their cyclooxygenase-2 (COX-2) selective anti-inflammatory activities.

Development of a Ga-68 labeled PET tracer with short linker for prostate-specific membrane antigen (PSMA) targeting

Glu-Urea-Lys (GUL) derivatives have been reported as prostate-specific membrane antigen (PSMA) agent. We developed derivatives of GUL conjugated with NOTA or DOTA via a thiourea linker and tested their feasibility as PSMA imaging agents after labeling with 68Ga. NOTA-GUL and DOTA-GUL were synthesized and labeled with 68Ga using generator-eluted 68GaCl3 in 0.1 M HCl in the presence of 1 M NaOAc at pH 5.5. The stabilities of 68Ga-labeled compounds in human serum were tested at 37.5 °C. A competitive binding assay was performed using the PSMA-positive prostate cancer cell line 22Rv1 and [125I]MIP-1072 (PSMA-specific binding agent) as a tracer. Biodistribution and micro-PET studies were performed using 22Rv1-xenograft BALB/c nude mice. The radiolabeling efficiency of NOTA-GUL (>99%) was higher than that of DOTA-GUL (92%). The IC50 of Ga-NOTA-GUL was 18.3 nM. In the biodistribution study, tumor uptake of 68Ga-NOTA-GUL (5.40% ID/g) was higher than that of 68Ga-DOTA-GUL (4.66% ID/g) at 1 h. Tumor/muscle and tumor/blood uptake ratios of 68Ga-NOTA-GUL (31.8 and 135, respectively) were significantly higher than those of 68Ga-DOTA-GUL (16.1 and 31.1, respectively). The tumor/kidney uptake ratio of 68Ga-NOTA-GUL was 3.4-fold higher than that of 68Ga-DOTA-GUL. 68Ga-NOTA-GUL showed specific uptake to PSMA positive tumor xenograft and was blocked by co-injection of the cold ligand. In conclusion, we successfully synthesized 68Ga-NOTA-GUL and 68Ga-DOTA-GUL for prostate cancer imaging. 68Ga-NOTA-GUL showed better radiochemical and biodistribution results. 68Ga-NOTA-GUL may be a promising PSMA targeting radiopharmaceutical.

Development of 4-hexadecyl-4,7-diaza-1,10-decanedithiol (HDD) kit for the preparation of the liver cancer therapeutic agent Re-188-HDD/lipiodol.

INTRODUCTION A lipiodol solution of (188)Re-4-hexadecyl-2,2,9,9-tetramethyl-4,7-diaza-1,10-decanedithiol (HTDD) has been successfully developed for liver cancer therapy; however, its preparation requires a multi-step synthesis and it is characterized by a low labeling yield. METHODS We synthesized a new compound, 4-hexadecyl-4,7-diaza-1,10-decanedithioacetate (AHDD), without gem dimethyl groups to address these issues. AHDD was formulated into a kit and was labeled with (188)Re. Biodistribution study was performed using normal BALB/c mice. RESULTS The kit was labeled with (188)Re with a high efficiency (98.8±0.2%). After extraction with lipiodol, the overall yield of (188)Re-HDD/lipiodol was as high as 90.2±2.6%. A comparative biodistribution study of (188)Re-HTDD and (188)Re-HDD was performed in normal mice after intravenous injection. The lungs were identified as the main uptake site due to capillary-blockage. (188)Re-HDD/lipiodol showed a significantly higher lung uptake than that of (188)Re-HTDD/lipiodol (p<0.05). CONCLUSION The newly synthesized (188)Re-HDD/lipiodol showed improved radiolabeling yield and biodistribution results compared to (188)Re-HTDD/lipiodol, and may therefore be more suitable for liver cancer therapy.