592518-71-3Relevant academic research and scientific papers
Design, synthesis and biological evaluation of novel thiazole-derivatives as mitochondrial targeting inhibitors of cancer cells
Dang, Xin,Lei, Shuwen,Luo, Shuhua,Hu, Yixin,Wang, Juntao,Zhang, Dongdong,Lu, Dan,Jiang, Faqin,Fu, Lei
, (2021/06/16)
Mitochondria are pivotal energy production sources for cells to maintain necessary metabolism activities. Targeting dysfunctional mitochondrial features has been a hotspot for mitochondrial-related disease researches. Investigation with cancerous mitochondrial metabolism is a continuing concern within tumor therapy. Herein, we set out to assess the anti-cancer activities of a novel family of TPP-thiazole derivatives based on our earlier research on mitochondrial targeting agents. Specifically, we designed and synthesized a series of TPP-thiazole derivatives and revealed by the MTT assay that most synthesized compounds effectively inhibited three cancer cell lines (HeLa, PC3 and MCF-7). After structure modifications, we explored the SAR relationships and identified the most promising compound R13 (IC50 of 5.52 μM) for further investigation. In the meantime, we performed ATP production assay to assess the selected compounds inhibitory effect on HeLa cells energy production. The results displayed the test compounds significantly restrained ATP production of cancer cells. Overall, we have designed and synthesized a series of compounds which exhibited significant cytotoxicity against cancer cells and effectively inhibited mitochondrial energy production.
Biological evaluation of mitochondria targeting small molecules as potent anticancer drugs
Luo, Shuhua,Dang, Xin,Wang, Juntao,Yuan, Chang,Hu, Yixin,Lei, Shuwen,Zhang, Yang,Lu, Dan,Jiang, Faqin,Fu, Lei
, (2021/06/18)
Cancer therapy targets specific metabolic pathways or a single gene. This may result in low therapeutic effects due to drug selectivity and drug resistance. Recent studies revealed that the mitochondrial membrane potential and transmembrane permeability of cancerous mitochondria are differed from normal mitochondria. Thus, chemotherapy targeting cancerous mitochondria could be an innovative and competent strategy for cancer therapy. Previously, our work with a novel group of mitochondria targeting small molecules presented promising inhibitory capability toward various cancer cell lines and suppressed adenosine triphosphate (ATP) generation. Therefore, it is critical to understand the anticancer effect and targeting mechanism of these small molecules. This study investigated the inhibitory activity of mitochondria targeting small molecules with human cervical cancer cells – HeLa to further explore their therapeutic potential. HeLa cells were exposed to 10 μM of synthesized compounds and presented elevation in intracellular reactive oxygen species (ROS) level, impaired mitochondrial membrane potential and upregulation of apoptosis as well as necrosis. In vivo, HeLa cell tumor-bearing BALB/c nude mice were treated with mitochondria targeting small molecules for 12 days consecutively. Throughout this chemotherapy study, no deleterious side effects nor the appearance of toxicity was observed. Furthermore, mitochondria targeting small molecules treated groups exhibited significant down-regulation with both tumor volume and tumor weight compared to the Doxorubicin (DOX) treated group. Thus, inhibition of mitochondrial ATP synthesis, activation of intracellular ROS production, down-regulation of mitochondrial membrane potential and upregulation of apoptosis and necrosis rates are the indications of cancer therapy. In this work, we examined the anticancer capability of four mitochondria targeting small molecules in vitro and in vivo, and demonstrated a novel therapeutic approach in cancer therapy with tremendous potential.
AMINOPHENYLCYCLOPROPYL CARBOXYLIC ACIDS AND DERIVATIVES AS AGONISTS TO GPR40
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Page/Page column 70, (2008/06/13)
The present invention relates generally to novel therapeutic compounds and more particularly to novel compounds, their use as GPR40 agonists, processes for their manufacture, and intermediates useful in their preparation.
