Discovery of a Novel Series of Imipridone Compounds as Homo sapiens Caseinolytic Protease P Agonists with Potent Antitumor Activities In Vitro and In Vivo.

Homo sapiens caseinolytic protease P (HsClpP) plays an important role in maintaining mitochondrial proteostasis. Activating HsClpP has been proved to be a potential strategy for cancer therapy. In this paper, a novel class of HsClpP agonists is designed and synthesized using a position shift strategy based on the imipridone ONC201. Among these newly synthesized imipridone derivatives, compound 16z exhibits remarkably enhanced antitumor activity (IC50 = 0.04 µM against HCT116 cells). It can improve HsClpP thermal stability and induce mitochondrial dysfunction, reactive oxygen species production, cell cycle arrest in the G0/G1 phase, and apoptosis of HCT116 cells. Moreover, compound 16z possesses excellent pharmacokinetic profiles and significantly inhibits tumor growth in HCT116 cell-inoculated xenograft nude mouse models. Our study demonstrates that 16z has potential to be an antitumor drug candidate for further development and provides insights for the design of the next generation of HsClpP agonists for cancer treatment.

Ribosome-targeting antibacterial agents: Advances, challenges, and opportunities.

Ribosomes, which synthesize proteins, are critical organelles for the survival and growth of bacteria. About 60% of approved antibiotics discovered so far combat pathogenic bacteria by targeting ribosomes. However, several issues, such as drug resistance and toxicity, have impeded the clinical use of ribosome-targeting antibiotics. Moreover, the complexity of the bacteria ribosome structure has retarded the discovery of new ribosome-targeting agents that are considered as the key to the drug-resistance and toxicity. To deal with these challenges, efforts such as medicinal chemistry optimization, combination treatment, and new drug delivery system have been developed. But not enough, the development of structural biology and new screening methods bring powerful tools, such as cryo-electron microscopy technology, advanced computer-aided drug design, and cell-free in vitro transcription/translation systems, for the discovery of novel ribosome-targeting antibiotics. Thus, in this paper, we overview the research on different aspects of bacterial ribosomes, especially focus on discussing the challenges in the discovery of ribosome-targeting antibacterial drugs and advances made to address issues such as drug-resistance and selectivity, which, we believe, provide perspectives for the discovery of novel antibiotics.