RESUMO
PURPOSE: This review article summarizes the progress and latest findings related to the investigational drug candidate CT1812, which is currently in phase 2 clinical trials for Alzheimer's disease (AD). The article outlines the development of this promising molecule and provides insights into its mechanism of action as sigma-2 receptor (S2R) antagonist along with the positive outcomes of various clinical trials. Literature mentioning AD therapeutics that specifically target amyloid-beta (Aß) oligomers is limited even though these oligomers are established as the most neurotoxic forms of the Aß protein. This timely article highlights the potential of CT1812 as a breakthrough in AD therapeutics, providing a new avenue for addressing the neurotoxic forms of Aß and advancing the field toward a potential cure for AD. METHODS: The literature includes articles searched from PubMed and Google Scholar along with a comprehensive discussion of all the clinical research trials undertaken for CT1812. The review includes 12 clinical trials; of the total citations identified, 10 have been used to support the results of published trials. FINDINGS: The positive outcomes in the multiple clinical trials conducted on CT1812 indicate the emergence of an effective and promising drug candidate for AD. The article mentions a gap in the literature regarding AD therapeutics specifically targeting Aß oligomers, which reveals lack of established treatments addressing Aß oligomers, making the novel approach of CT1812 noteworthy. IMPLICATIONS: Clinical treatments available today provide symptomatic relief, however, any drug providing a potential cure for AD remains an unanswered question. S2Rs mediated oligomer binding in addition to synaptic toxicity suggest the potential usefulness of CT1812 in AD treatment. Efficacy and safety of CT1812 in further clinical trials could represent a significant advancement in the field, offering a potential treatment that goes beyond the symptomatic relief and aimed at addressing the core mechanisms associated with AD.
RESUMO
Indanone is a versatile scaffold that has a number of pharmacological properties. The successful development and ensuing approval of indanone-derived donepezil as a drug of choice for Alzheimer's disease attracted significant scientific interest in this moiety. Indanones could act as small molecule chemical probes as they have strong affinity towards several critical enzymes associated with the pathophysiology of various neurological disorders. Inhibition of these enzymes elevates the levels of neuroprotective brain chemicals such as norepinephrine, serotonin and dopamine. Further, indanone derivatives are capable of modulating the activities of both monoamine oxidases (MAO-A and -B) and acetylcholinesterase (AChE), and thus could be useful in various neurodegenerative diseases. This review article presents a panoramic view of the research carried out on the indanone nucleus in the development of potential neuroprotective agents.