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Drug Discovery based on Oxidative Stress and HDAC6 for Treatment of Neurodegenerative Diseases
(2024)
Most antioxidants reported so far only achieved limited success in AD clinical trials. Growing evidences suggest that merely targeting oxidative stress will not be sufficient to fight AD. While multi-target directed ligands could synergistically modulate different steps in the neurodegenerative process, offering a promising potential for treatment of this complex disease.
Fifteen target compounds have been designed by merging melatonin and ferulic acid into the cap group of a tertiary amide HDAC6 inhibitor. Compound 10b was screened as the best hybrid molecule exhibit potent HDAC6 inhibition and potent antioxidant capacity. Compound 10b also alleviated LPS-induced microglia inflammation and led to a switch from neurotoxic M1 to the neuroprotective M2 microglial phenotype. Moreover, compound 10b show pronounced attenuation of spatial working memory and long-term memory damage in an in vivo AD mouse model. Compound 10b can be a potentially effective drug candidate for treatment of AD and its druggability worth to be further studied.
We have designed ten novel neuroprotectants by hybridizing with several common antioxidants, including ferulic acid, melatonin, lipoic acid, and trolox. The trolox hybrid compound exhibited the most potent neuroprotective effects in multiple neuroprotection assays. Besides, we identified the synergistic effects between trolox and vitamin K derivative, and our trolox hybrid compound showed comparable neuroprotection with the mixture of trolox and vitamin K derivative.
We have designed and synthesized 24 quinone derivatives based on five kinds of different quinones including ubiquinone, 2,3,5-trimethyl-1,4-benzoquinone, memoquin, thymoquinone, and anthraquinone. Trimethylbenzoquinone and thymoquinone derivatives showed more potent neuroprotection than other quinones in oxytosis assay. Therefore, trimethylbenzoquinone and thymoquinone derivatives can be used as lead compounds for further mechanism study and drug discovery for treatment of neurodegenerative disease.
We designed a series of photoswitchable HDAC inhibitors, which could be effective molecular tools due to the high spatial and temporal resolution. In total 23 target compounds were synthesized and photophysicochemically characterized. Azoquinoline-based compounds possess more thermally stable cis-isomers in buffer solution, which were further tested in enzyme-based HDAC inhibition assay. However, none of those tested compounds show significant differences in activities between trans-isomers and corresponding cis-isomers.
The high infection rates and recent emergence of extremely drug resistant forms of
Mycobacterium tuberculosis pose a significant challenge for global health. The NADH-
dependent enoyl-ACP-reductase InhA of the type II mycobacterial fatty acid biosynthesis
pathway is a well-validated target for inhibiting mycobacterial growth. InhA has been
shown to be inhibited by a variety of compound series. Prominent classes of InhA
inhibitors from literature include diaryl ethers, pyrrolidine carboxamides and arylamides
which can be subjected to further development. Despite the progress in this area, very
few compounds are in clinical development phase. The present work involves a detailed
computational investigation of the binding modes and structure-based optimisation of
pyrrolidine carboxamides as InhA inhibitors.
With substituents of widely varying bulkiness, the pyrrolidine carboxamide dataset
presented a challenge for prediction of binding mode as well as affinity. Using advanced
docking protocols and in-house developed pose selection procedures, the binding modes
of 44 compounds were predicted. The poses from docking were used in short molecular
dynamics (MD) simulations to ascertain the dominant binding conformations for the
bulkier members of the series. Subsequently, an activity-based classification strategy
could be developed to circumvent the affinity prediction problems observed with this
dataset. The prominent motions of the bound ligand and the active site residues were
then ascertained using Essential Dynamics (ED). The information from ED and literature
was subsequently used to design a total of 20 compounds that were subjected to extensive
in-silico evaluations. Finally, the molecular determinants of rapid-reversible binding of
pyrrolidine carboxamides were investigated using long MD simulations.