92-95-5Relevant articles and documents
Staphylococcus aureus rnpa inhibitors: Computational-guided design, synthesis and initial biological evaluation
Suigo, Lorenzo,Chojnacki, Michaelle,Zanotto, Carlo,Sebastián-Pérez, Victor,Morghen, Carlo De Giuli,Casiraghi, Andrea,Dunman, Paul M.,Valoti, Ermanno,Straniero, Valentina
, (2021/05/04)
Antibiotic resistance is spreading worldwide and it has become one of the most important issues in modern medicine. In this context, the bacterial RNA degradation and processing machinery are essential processes for bacterial viability that may be exploited for antimicrobial therapy. In Staphylococcus aureus, RnpA has been hypothesized to be one of the main players in these mech-anisms. S. aureus RnpA is able to modulate mRNA degradation and complex with a ribozyme (rnpB), facilitating ptRNA maturation. Corresponding small molecule screening campaigns have recently identified a few classes of RnpA inhibitors, and their structure activity relationship (SAR) has only been partially explored. Accordingly, in the present work, using computational modeling of S. aureus RnpA we identified putative crucial interactions of known RnpA inhibitors, and we used this information to design, synthesize, and biologically assess new potential RnpA inhibitors. The present results may be beneficial for the overall knowledge about RnpA inhibitors belonging to both RNPA2000-like thiosemicarbazides and JC-like piperidine carboxamides molecular classes. We evaluated the importance of the different key moieties, such as the dichlorophenyl and the piperidine of JC2, and the semithiocarbazide, the furan, and the i-propylphenyl ring of RNPA2000. Our efforts could provide a foundation for further computational-guided investigations.
Development of synthetic aminopeptidase N/CD13 inhibitors to overcome cancer metastasis and angiogenesis
Su, Li,Cao, Jiangying,Jia, Yuping,Zhang, Xiaonan,Fang, Hao,Xu, Wenfang
supporting information, p. 959 - 964 (2013/02/23)
Cancer metastasis is a major barrier to its treatment and an important cause of patient death. Antimetastatic agents hold promise for patients with advanced metastatic tumors. Aminopeptidase N/CD13 (APN) is being pursued by many as an important target against cancer metastasis and angiogenesis, but there are few reports on the in vivo evaluation of synthetic APN inhibitors. Herein, a series of compounds targeting APN were synthesized and evaluated for their antimetastasis and antiangiogenesis potency both in vitro and in vivo. Excitingly, compounds 4m, 4t, and 4cc, with the most potent APN inhibitory activities, displayed significant antimetastasis and antiangiogenesis effects in vitro and in vivo, suggesting that those synthetic APN inhibitors have the potential to overcome cancer metastasis and angiogenesis.
Anti-cancer activity of T-type calcium channel blocker in vivo
Park, Hang Ah,Jung, Soo Yeon,Lee, So Hyung,Kang, Han Byul,Min, Min Sik,Kim, Jungahn,Choo, Dong Joon,Oh, Chun Rim,Kim, Young Deuk,Lee, Kyung-Tae,Lee, Jae Yeol
experimental part, p. 3353 - 3358 (2012/05/20)
3,4-Dihydroquinazoline 1 as T-type calcium channel blocker was in vivo evaluated against A549 xenograft in BALB/c-nu Slc mice, which exhibited 54% tumor growth inhibition through oral administration of 8 mg/kg of body weight and was slightly less active than doxorubicin (68%). In addition, this compound was also profiled for its acute toxicity to ICR mice to afford oral LD50 value of 1,038 mg/kg of body weight.