Abstract
Tuberculosis (TB) is a chronic, potentially fatal disease caused by Mycobacterium tuberculosis (Mtb). The dihyrofolate reductase in Mtb (mt-DHFR) is believed to be an important drug target in anti-TB drug development. This enzyme contains a glycerol (GOL) binding site, which is assumed to be a useful site to improve the selectivity towards human dihyrofolate reductase (h-DHFR). There have been previous attempts to design drugs targeting the GOL binding site, but the designed compounds contain a hydrophilic group, which may prevent the compounds from crossing the cell wall of Mtb to function at the whole cell level. In the current study, we designed and synthesized a series of mt-DHFR inhibitors that contain a 2,4-diaminopyrimidine core with side chains to occupy the glycerol binding site with proper hydrophilicity for cell entry, and tested their anti-tubercular activity against Mtb H37Ra. Among them, compound 16l showed a good anti-TB activity (MIC = 6.25 μg/mL) with a significant selectivity against vero cells. In the molecular simulations performed to understand the binding poses of the compounds, it was noticed that only side chains of a certain size can occupy the glycerol binding site. In summary, the novel synthesized compounds with appropriate side chains, hydrophobicity and selectivity could be important lead compounds for future optimization towards the development of future anti-TB drugs that can be used as monotherapy or in combination with other anti-TB drugs or antibiotics. These compounds can also provide much information for further studies on mt-DHFR. However, the enzyme target of the compounds still needs to be confirmed by pure mt-DHFR binding assays.
Highlights
There is an urgent need to develop new drugs for the treatment of tuberculosis (TB), a chronic disabling infection caused by Mycobacterium tuberculosis (Mtb)
In order to occupy the GOL binding site on Mtb not dihyrofolate reductase (mt-DHFR) and maintain proper hydrophobicities to allow the compounds to function in the Mtb whole cell assay, we designed and synthesized three series of compounds which contain a hydrophobic side chain
The compounds with a thiazole side chain significantly inhibited the growth of Mtb, and the best inhibition effect was observed on compound 16l
Summary
There is an urgent need to develop new drugs for the treatment of tuberculosis (TB), a chronic disabling infection caused by Mycobacterium tuberculosis (Mtb). This pathogen has developed resistance to standard first- and second-line anti-TB drugs, leaving very few options for effective therapy. Its anti-mycobacterial mechanism was not clearly understood until recently, when it was reported to be. Its anti-mycobacterial mechanism clearly understood until recently, it wascatalyzes reportedthe to the pro-drug of an inhibitor of the was. [1].when mt-DHFR be the pro-drug of an inhibitor of the. Mt-DHFR catalyzes reduction of dihydrofolate to tetrahydrolate in the folate metabolic pathway that leads to the synthesis thepurines, reduction of dihydrofolate to proteins. This pathogen has developed resistance to standard first- and second-line anti-TB drugs, leaving very few options for effective therapy. para-Aminosalicylic acid (PAS) is a key anti-TB drug that has been in use for over 60 years.
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