4.8 Article

Amyloid-mimicking toxic nanofibers generated via self-assembly of dopamine

Journal

NANOSCALE
Volume 14, Issue 24, Pages 8649-8662

Publisher

ROYAL SOC CHEMISTRY
DOI: 10.1039/d1nr07741d

Keywords

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Funding

  1. UGC
  2. CSIR
  3. DST-PURSE II
  4. UGC RN
  5. UGC DRS SAPI
  6. UPE II-JNU [377]
  7. SERB-DST EMR [EMR/2017/005000]

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This study demonstrates that dopamine, an important aromatic neuromodulator, can self-assemble into cytotoxic supramolecular nanostructures under physiological conditions, suggesting its potential contribution to dopamine-related disorders.
Molecular self-assembly of biologically relevant aromatic metabolites is known to generate cytotoxic nanostructures and this unique property has opened up new concepts in the molecular mechanisms of metabolite-linked disorders. Because aromaticity is intrinsic to the chemical structure of some important neuromodulators, the question of whether this property can promote their self-assembly into toxic higher order structures is highly relevant to the advancement of both fundamental and applied research. We show here that dopamine, an aromatic neuromodulator of high significance, undergoes self-assembly, under physiological buffer conditions, yielding cytotoxic supramolecular nanostructures. The oxidation of dopamine seems crucial in driving the self-assembly, and substantial inhibition effect was observed in the presence of antioxidants and acidic buffers. Strong H-bonds and pi-pi interactions between optimally-oriented dopamine molecules were found to stabilize the dopamine nanostructure which displayed characteristic beta-structure-patterns with hydrophobic exterior and hydrophilic interior moieties. Furthermore, dopamine nanostructures were found to be highly toxic to human neuroblastoma cells, revealing apoptosis and necrosis-mediated cytotoxicity. Abnormal fluctuation in the dopamine concentration is known to predispose a multitude of neuronal complications, hence, the new findings of this study on oxidation-driven buildup of amyloid-mimicking neurotoxic dopamine assemblies may have direct relevance to the molecular origin of several dopamine related disorders.

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