Fullerenemalonates inhibit amyloid beta aggregation, in vitro and in silico evaluation.
Martínez-Herrera MelchorFigueroa-Gerstenmaier SusanaGarcía-Sierra FranciscoHiram Isaac BeltránRivera-Fernández NormaLerma-Romero Jorge ALópez-Camacho Perla YBasurto-Islas GustavoPublished in: RSC advances (2018)
The onset of Alzheimer's disease (AD) is associated with the presence of neurofibrillary pathology such as amyloid β (Aβ) plaques. Different therapeutic strategies have focused on the inhibition of Aβ aggregate formation; these pathological structures lead to neuronal disorder and cognitive impairment. Fullerene C 60 has demonstrated the ability to interact and prevent Aβ fibril development; however, its low solubility and toxicity to cells remain significant problems. In this study, we synthesized, characterized and compared diethyl fullerenemalonates and the corresponding sodium salts, adducts of C 60 bearing 1 to 3 diethyl malonyl and disodium malonyl substituents to evaluate the potential inhibitory effect on the aggregation of Aβ 42 and their biocompatibility. The dose-dependent inhibitory effect of fullerenes on Aβ 42 aggregation was studied using a thioflavin T fluorescent assay, and the IC 50 value demonstrated a low range of fullerene concentration for inhibition, as confirmed by electron microscopy. The exposure of neuroblastoma to fullerenemalonates showed low toxicity, primarily in the presence of the sodium salt-adducts. An isomeric mixture of bisadducts, trisadducts and a C 3 -symetrical trisadduct demonstrated the highest efficacy among the tests. In silico calculations were performed to complement the experimental data, obtaining a deeper understanding of the Aβ inhibitory mechanism; indicating that C 3 -symetrical trisadduct interacts mainly with 1D to 16K residues of Aβ 42 peptide. These data suggest that fullerenemalonates require specific substituents designed as sodium salt molecules to inhibit Aβ fibrillization and perform with low toxicity. These are promising molecules for developing future therapies involving Aβ aggregates in diseases such as AD and other types of dementia.
Keyphrases
- cognitive impairment
- oxidative stress
- electron microscopy
- molecular docking
- electronic health record
- mental health
- induced apoptosis
- big data
- mild cognitive impairment
- quantum dots
- density functional theory
- oxide nanoparticles
- signaling pathway
- cell proliferation
- artificial intelligence
- endoplasmic reticulum stress
- solar cells
- pi k akt
- single cell
- label free
- single molecule