Self-assembly of IDP-dendron hybrids - ICRS 2018 The 11th Meeting of The Israel Chapter of the Controlled Release Society

Merav Segal ^1,2 Guy Jacoby ^2,3 Roy Beck ^2,3 Roey J. Amir ^1,2,4

¹Department of Organic Chemistry, School of Chemistry, Faculty of Exact Sciences, Tel-Aviv University, Tel Aviv, Israel
²Tel-Aviv University Center for Nanoscience and Nanotechnology, Tel-Aviv University, Tel Aviv, Israel
³School of Physics and Astronomy, Faculty of Exact Sciences, Tel-Aviv University, Tel Aviv, Israel
⁴BLAVATNIK CENTER for Drug Discovery, Tel-Aviv University, Tel Aviv, Israel

Intrinsically disordered proteins (IDPs) are proteins that lack an ordered three-dimensional structures. Many IDP`s undergo transitions to more ordered states upon binding to their targets or after exposure to a suitable stimulus.

Understanding synthetic IDPs assemblies and their structural change upon different triggers can provide relevant insights into the principles that affect morphological changes of naturally IDP assemblies.¹

Towards this goal, we synthesized amphiphilic hybrids based on hydrophilic IDP and hydrophobic dendron.² These IDP-dendron hybrids self-assembled in aqueous medium into micellar structures. The structures were characterized using florescence spectroscopy, dynamic light scattering and small angle x-ray scattering. We varied the hydrophobic dendron to get better understanding on the relationship between the molecular structure of the hybrids and the assembled state morphology. Furthermore, we used different triggers such as change in the pH and increase in the ionic strength. Remarkably, we got huge effect when we increased the acidity from 7.4 to 6, as the globular small micelles transformed into very large elongated worm-like micelles.

Taking advantage of the molecular precision of these hybrids, which emerge from the monodispersity of both the peptide and the dendritic block, we were able to study the self-assembly with great resolution. This study will hopefully inspire the fabrication of future stimuli-responsive assemblies platforms.

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Segal, M.; Avinery, R.; Buzhor, M.; Shaharabani, R.; Harnoy, A. J.; Tirosh, E.; Beck, R.; Amir, R. J. Molecular Precision and Enzymatic Degradation: From Readily to Undegradable Polymeric Micelles by Minor Structural Changes. Am. Chem. Soc. 2017,139, 803-810.