Abstract
Parkinson’s disease (PD) is one of the most prevalent and extensively studied neurodegenerative conditions. One of its most challenging clinical manifestations is the emergence of dyskinesias, characterized by involuntary movements that significantly impair patients’ quality of life. Meanwhile, boron, as a trace element, and boron-containing compounds have emerged as active modulators of neurotransmitter systems. To evaluate the effect of aryl-boroxazolidones on parkinsonism, the in vitro neurotoxicity of three boroxazolidones was assessed, along with the effects of two of them in mice with parkinsonism induced by MPTP administration. Two novel compounds demonstrated a limitation of parkinsonism, whereas risperidone reduced the beneficial effect of the tested boroxazolidones. The three boroxazolidones did not induce toxicity in neurons or glial cells at concentrations up to 100 µM. In silico analyses support the ability of BCC to act as ligands of dopamine and serotonin receptors. Taken together, these results suggest that the tested boroxazolidones are promising candidate agents, warranting further exploration for the treatment of PD.