Drug self-assembly: A phenomenon at the nanometer scale with major impact in the structure-biological properties relationship and the treatment of disease: A phenomenon at the nanometer scale with major impact in the structure-biological properties relationship and the treatment of disease

Research output: Contribution to journalReview articlepeer-review

Abstract

Under water-rich conditions, small amphiphilic and hydrophobic drug molecules self-assemble into supramolecular nanostructures. Thus, substantial modifications in their interaction with cellular structures and the ability to reach intracellular targets could happen. Additionally, drug aggregates could be more toxic than the non-aggregated counterparts, or vice versa. Moreover, since self-aggregation reduces the number of effective "monomeric" molecules that interact with the target, the drug potency could be underestimated. In other cases, the activity could be ascribed to the non-aggregated molecule while it stems from its aggregates. Thus, drug self-assembly could mislead from drug throughput screening assays to advanced preclinical and clinical trials. Finally, aggregates could serve as crystallization nuclei. The impact that this phenomenon has on the biological performance of active compounds, the inconsistent and often controversial nature of the published data and the need for recommendations/guidelines as preamble of more harmonized research protocols to characterize drug self-aggregation were main motivations for this review. First, the key molecular and environmental parameters governing drug self-aggregation, the main drug families for which this phenomenon and the methods used for its characterization are described. Then, promising nanotechnology platforms investigated to prevent/control it towards a more efficient drug development process are briefly discussed.

Original languageEnglish
Pages (from-to)39-82
Number of pages44
JournalProgress in Materials Science
Volume82
DOIs
StatePublished - Sep 2016

Keywords

  • Pharmaceutical Materials Science (PMS)
  • Drug research and development
  • Hydrophobic and amphiphilic drugs
  • Drug self-aggregation
  • Structure-biological performance
  • relationship
  • Nanotechnology

ASJC Scopus subject areas

  • General Materials Science

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