Exploring therapeutic approaches against Naegleria fowleri infections through the COVID box

Naegleria fowleri, known as the brain-eating amoeba, is the pathogen that causes the primary amoebic meningoencephalitis (PAM), a severe neurodegenerative disease with a fatality rate exceeding 95%. Moreover, PAM cases commonly involved previous activities in warm freshwater bodies that allow amoebae-containing water through the nasal passages. Hence, awareness among healthcare professionals and the general public are the key to contribute to a higher and faster number of diagnoses worldwide. Current treatment options for PAM, such as amphotericin B and miltefosine, are limited by potential cytotoxic effects. In this context, the repurposing of existing compounds has emerged as a promising strategy. In this study, the evaluation of the COVID Box which contains 160 compounds demonstrated significant in vitro amoebicidal activity against two type strains of N. fowleri. From these compounds, terconazole, clemastine, ABT-239 and PD-144418 showed a higher selectivity against the parasite compared to the remaining products. In addition, programmed cell death assays were conducted with these four compounds, unveiling compatible metabolic events in treated amoebae. These compounds exhibited chromatin condensation and alterations in cell membrane permeability, indicating their potential to induce programmed cell death. Assessment of mitochondrial membrane potential disruption and a significant reduction in ATP production emphasized the impact of these compounds on the mitochondria, with the identification of increased ROS production underscoring their potential as effective treatment options. This study emphasizes the potential of the mentioned COVID Box compounds against N. fowleri, providing a path for enhanced PAM therapies.