Inhibition of both Rho kinase (ROCK-I) and NADPH oxidase (NOX2) to treat neuroinflammation could be very effective in the treatment of progressive neurological diseases like Alzheimer's disease, autism spectral disorder, and fragile X syndrome. NOX2 being a multi-enzyme component is activated during host defense in phagocytes such as microglia, to catalyze the production of superoxide from oxygen, while ROCK is an important mediator of fundamental cell processes like adhesion, proliferation and migration. Phosphorylated ROCK was found to activate NOX2 assembly via Ras related C3 botulinum toxin substrate (Rac) in disease conditions. Overexpression of ROCK-I and NOX2 in innate immune cells like microglial cells contribute to progressive neuronal damage early in neurological disease development. In the present study we employed a computer-aided methodology combining pharmacophores and molecular docking to identify new chemical entities that could inhibit ROCK-I as well as NOX2 (p47 phox). Among the huge dataset of a commercial database, top 18 molecules with crucial binding interactions were selected for biological evaluation. Seven among the lead molecules exhibited inhibitory potential against ROCK-I and NOX2 with IC50s ranging from 1.588 to 856.2 nM and 0.8942 to 10.24 μM, respectively, and emerged as potential hits as dual inhibitors with adequate selectivity index (SI = CC50/GIC50) in cell-based assays. The most active compound 3 was further found to show reduction of the pro-inflammatory mediators such as TNFα, interleukin-6 (IL-6) and interleukin-1beta (IL-1β) mRNA expression levels in activated (MeHg treated) human neuroblastoma (IMR32) cell lines. Hence the present work documented the utility of these dual inhibitors as prototypical leads to be useful for the treatment of neurological disorders including autism spectrum disorder and Alzheimer's disease.
In this work, synthetic integration of substituted semicarbazides and various aliphatic, aryl and heteroaryl acids into 1,2,4-triazol-5-ones was accomplished. Following the assessment of neurotoxicity and peripheral analgesic activity, the compounds were evaluated in two peripheral models of neuropathic pain, the chronic constriction injury and partial sciatic nerve ligation to assess their antihyperalgesic and antiallodynic potential. ED 50 studies undertaken for selected compounds exhibiting promising efficacies (1c, 3c and 4a) revealed values ranging from 13.21 to 39.85 mg ⁄ kg in four behavioral assays of hyperalgesia and allodynia (spontaneous pain, tactile allodynia, cold allodynia, and mechanical hyperalgesia). Mechanistic studies revealed that the compounds suppressed the inflammatory component of the neuropathic pain inhibiting tumor necrosis factor-alpha and preventing oxidative and nitrosative stress.
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