ACS omega
August 27, 2024
Marcelo N Costa, Livia Goto-Silva, Juliana M Nascimento et al.
3 citations
Exposure to LSD alters the abundance of hundreds of proteins in lab-grown human brain tissue, affecting pathways related to protein quality control, energy metabolism, and the brain's ability to rewire itself. Mass spectrometry revealed changes in protein synthesis, folding, and degradation, as well as in glycolysis and oxidative phosphorylation. Follow-up experiments showed that LSD also promotes the growth of neuronal extensions, supporting its influence on neuroplasticity. These molecular changes may help explain how psychedelics could produce therapeutic effects in neuropsychiatric disorders.
Neuroscience letters
August 10, 2024
Isis M Ornelas, Beatriz de S Carrilho, Matheus Antonio V de C Ventura et al.
3 citations
Lysergic acid diethylamide (LSD), a synthetic psychedelic compound with potential therapeutic value for psychiatric disorders, is absorbed by the nematode Caenorhabditis elegans and acutely reduces its speed, an effect similar to that of endogenous serotonin. This response is partially mediated by the serotonergic receptors SER-1 and SER-4. The findings highlight the potential of C. elegans as a new experimental model for psychedelic research.
bioRxiv Preprint Server
January 30, 2024
Marcelo N. Costa, Livia Goto-Silva, Juliana M. Nascimento et al.
1 citation
preprint
Proteomic analysis of human cerebral organoids reveals that lysergic acid diethylamide (LSD) alters proteins involved in proteostasis, energy metabolism, and neuroplasticity-related pathways. LSD exposure changed protein synthesis, folding, autophagy, and proteasomal degradation, suggesting complex regulation of neural cell function. It also modulated glycolysis and oxidative phosphorylation, which are crucial for cellular energy management and synaptic function. Complementary experiments showed LSD enhanced neurite outgrowth in vitro, confirming its impact on neuroplasticity. These findings provide insight into molecular mechanisms through which LSD may affect neuroplasticity and potentially contribute to therapeutic effects for neuropsychiatric disorders.
bioRxiv Preprint Server
June 16, 2025
Beatriz de S. Carrilho, Aline Duarte, Isabelle Martins et al.
preprint
Lysergic acid diethylamide (LSD) extends lifespan and reduces age-related lipofuscin accumulation in the roundworm Caenorhabditis elegans, suggesting delayed aging. LSD produces effects similar to caloric restriction, such as reduced reproduction and smaller body size, without decreasing food intake. LSD also alters lipid stores and other cellular markers linked to nutrient-sensing pathways. These findings indicate that LSD engages evolutionarily conserved longevity pathways and may serve as a tool for studying serotonergic regulation of aging.