Design, synthesis and antimycobacterial activity of novel benzothiazinones with improved water solubility.

Nitrobenzothiazinones (BTZs) represent a novel type of antitubercular agents targeting DprE1. Two clinical candidates BTZ043 and PBTZ169, as well as many other BTZs showed potent anti-TB activity, but they are all highly lipophilic and their poor aqueous solubility is still a serious issue need to be addressed. Here, we designed and synthesized a series of new BTZ derivatives, wherein a hydrophilic COOH or NH2 group is directly attached to the oxime moiety of TZY-5-84 discovered in our lab, through various linkers. Two compounds 1a and 3 were first reported to possess excellent activity against MTB H37Rv and MDR-MTB strains (MIC: <0.029-0.095 µM), low toxicity and acceptable oral PK profiles, as well as significantly improved water solubility (1200 and > 2000 µg/mL, respectively), suggesting they may serve as promising hydrophilic BTZs for further antitubercular drug discovery.

Design, synthesis and antitubercular activity of novel N-(amino)piperazinyl benzothiazinones with improved safety.

Tuberculosis (TB), caused by Mycobacterium tuberculosis (MTB) remains a major global health problem and new therapeutic antitubercular agents are urgent needed. Among the novel antituberculosis drugs in the pipeline, Benzothiazinones (BTZs) are among the most potent antituberculosis agents against both drug-susceptible and multidrug-resistant (MDR) tuberculosis. Our group has focused on structural modifications of the side chain at C-2 position of the BTZ core and WAP-2101/2102 with excellent in vitro activity were discovered in our lab. However, the severe in vivo toxicity was observed during subsequent acute toxicity evaluation. Herein, a series of novel N-(amino)piperazinyl benzothiazinone derivatives were designed and synthesized as new anti-TB agents to reduce the in vivo toxicity. Our results show that majority of them exhibit the same potent or comparable activity against both MTB H37Rv and MDR-MTB strains (MIC: 4.00 - <1 ng/mL) as PBTZ169. Especially, compound 2c with low cardiac toxicity, low cell cytotoxicity and acceptable oral pharmacokinetic (PK) profiles have low acute toxicity in mice (LD50 > 500 mg/kg), suggesting it may serve as a promising lead compound for further antitubercular drug discovery.

Optimization and SAR research at the benzoxazole and tetrazole rings of JNJ4796 as new anti-influenza A virus agents, part 2.

We have already reported the modification on the piperazine and phenyl rings of JNJ4796, a small-molecule fuse inhibitor targeting hemagglutinin (HA). In this study, we described the structure-activity relationship of the benzoxazole and tetrazole rings of JNJ4796. Many derivatives demonstrated good in vitro activity against IAV H1N1and Oseltamivir-resistant IAV H1N1 stains. Although compounds (R)-1e and (R)-1h exhibited excellent in vitro activity, high drug exposure level and low hERG inhibition, they displayed low oral efficacy. Excitedly, (R)-1a, a representative identified in our previous study, was found to show potent in vivo anti-IAV activity with the survival rates of 100%, 100% and 70% at 15, 5 and 1.67 mg/kg, respectively, comparable to JNJ4796. Currently, we are exploring different ways to ease its gastrointestinal response.