Paolo Ravarino scite author profile

Physical hydrogels are supramolecular materials obtained by self-assembly of small molecules called gelators. Aromatic amino acids and small peptides containing aromatic rings are good candidates as gelators due to their ability to form weak bonds as π-π interactions and hydrogen bonds between NH and CO of the peptide chain. In this paper we show our results in the preparation of a transparent hydrogel that was obtained by self-assembly of a fluorine-containing dipeptide that relies on the additional formation of halogen bonds due to the fluorine atoms contained in the dipeptide. We used Boc-D-F2Phe-L-Oxd-OH (F2Phe = 3,4-difluorophenylalainine; Oxd = 4-methyl-5-carboxy-oxazolidin-2-one) that formed a strong and transparent hydrogel in 0.5% w/w concentration at pH = 4.2. The formation of a hydrogel made of unnatural fluorinated amino acids may be of great interest in the evaluation of patients with parkinsonian syndromes and may be used for controlled release.

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l-Dopa in small peptides: an amazing functionality to form supramolecular materials

Giuri

Ravarino

Tomasini

2021

Org. Biomol. Chem.

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Controlled Hydrolysis of Odorants Schiff Bases in Low-Molecular-Weight Gels

Nicastro

Black

Ravarino

et al. 2022

IJMS

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Imines or Schiff bases (SB) are formed by the condensation of an aldehyde or a ketone with a primary amine, with the removal of a water molecule. Schiff bases are central molecules in several biological processes for their ability to form and cleave by small variation of the medium. We report here the controlled hydrolysis of four SBs that may be applied in the fragrance industry, as they are profragrances all containing odorant molecules: methyl anthranilate as primary amine, and four aldehydes (cyclamal, helional, hydroxycitronellal and triplal) that are very volatile odorants. The SB stability was assessed over time by HPLC-MS in neutral or acidic conditions, both in solution and when trapped in low molecular weight gels. Our results demonstrate that it is possible to control the hydrolysis of the Schiff bases in the gel environment, thus tuning the quantity of aldehyde released and the persistency of the fragrance.

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Spatiotemporal Control Over Base‐Catalyzed Hydrogelation Using a Bilayer System

Ravarino

Panja

Adams

2022

Macromol. Rapid Commun.

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Water Remediation from Pollutant Agents by the Use of an Environmentally Friendly Supramolecular Hydrogel

et al. 2022

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The removal of Diclofenac sodium from waste waters has a high relevance since it belongs to the therapeutic group most commonly found in wastes. An aromatic-free and low-impact technology that efficiently entraps aqueous pollutants is highly desirable. We synthesised two Boc-protected and aromatic-free tripeptides (Boc-L-Ala-Aib-L-Val-OH and Boc-L-Val-Aib-L-Val-OH) and studied their ability to form gels with mixtures of water and alcohols, such as methanol, ethanol and 2-propanol. Boc-L-Ala-Aib-L-Val-OH forms a strong hydrogel in 2-propanol/water mixtures able to trap up to 97.8% of Eosin Y model molecule and up to 92.0% of Diclofenac sodium from aqueous solutions. The hydrogel is also thixotropic, thermoreversible and biocompatible. This outcome is very encouraging and paves the way to a new approach for developing new materials using aromatic-free hydrogels, useful for water remediation.

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Fluorine Effect in the Gelation Ability of Low Molecular Weight Gelators

Ravarino

Domenico

Barbalinardo

et al. 2022

Gels

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The three gelators presented in this work (Boc-D-Phe-L-Oxd-OH F0, Boc-D-F1Phe-L-Oxd-OH F1 and Boc-D-F2Phe-L-Oxd-OH F2) share the same scaffold and differ in the number of fluorine atoms linked to the aromatic ring of phenylalanine. They have been applied to the preparation of gels in 0.5% or 1.0% w/v concentration, using three methodologies: solvent switch, pH change and calcium ions addition. The general trend is an increased tendency to form structured materials from F0 to F1 and F2. This property ends up in the formation of stronger materials when fluorine atoms are present. Some samples, generally formed by F1 or F2 in 0.5% w/v concentration, show high transparency but low mechanical properties. Two gels, both containing fluorine atoms, show increased stiffness coupled with high transparency. The biocompatibility of the gelators was assessed exposing them to fibroblast cells and demonstrated that F1 and F2 are not toxic to cells even in high concentration, while F0 is not toxic to cells only in a low concentration. In conclusion, the presence of even only one fluorine atom improves all the gelators properties: the gelation ability of the compound, the rheological properties and the transparency of the final materials and the gelator biocompatibility.

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Delivery of Active Peptides by Self-Healing, Biocompatible and Supramolecular Hydrogels

et al. 2023

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Supramolecular and biocompatible hydrogels with a tunable pH ranging from 5.5 to 7.6 lead to a wide variety of formulations useful for many different topical applications compatible with the skin pH. An in vitro viability/cytotoxicity test of the gel components demonstrated that they are non-toxic, as the cells continue to proliferate after 48 h. An analysis of the mechanical properties demonstrates that the hydrogels have moderate strength and an excellent linear viscoelastic range with the absence of a proper breaking point, confirmed with thixotropy experiments. Two cosmetic active peptides (Trifluoroacetyl tripeptide-2 and Palmitoyl tripeptide-5) were successfully added to the hydrogels and their transdermal permeation was analysed with Franz diffusion cells. The liquid chromatography-mass spectrometry (HPLC-MS) analyses of the withdrawn samples from the receiving solutions showed that Trifluoroacetyl tripeptide-2 permeated in a considerable amount while almost no transdermal permeation of Palmitoyl tripeptide-5 was observed.

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Controlled Annealing in Adaptive Multicomponent Gels

et al. 2022

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We use a pH-driven annealing process to convert between co-assembled and self-sorted networks in multicomponent gels. The initially formed gels at low pH are co-assembled, with the two components coexisting within the same self-assembled structures. We use an enzymatic approach to increase the pH, resulting in a gel-to-sol transition, followed by a hydrolysis to lower the pH once again. As the pH decreases, a self-sorted network is formed by a two-stage gelation process determined by the pK a of each component. This approach can be expanded to layered systems to generate many varied systems by changing composition and rates of pH change, adapting their microstructure and so allowing access to a far greater range of morphologies and complexity than can be achieved in single component systems.

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Paolo Ravarino

Designing a Transparent and Fluorine Containing Hydrogel

l-Dopa in small peptides: an amazing functionality to form supramolecular materials

Controlled Hydrolysis of Odorants Schiff Bases in Low-Molecular-Weight Gels

Spatiotemporal Control Over Base‐Catalyzed Hydrogelation Using a Bilayer System

Water Remediation from Pollutant Agents by the Use of an Environmentally Friendly Supramolecular Hydrogel

Fluorine Effect in the Gelation Ability of Low Molecular Weight Gelators

Delivery of Active Peptides by Self-Healing, Biocompatible and Supramolecular Hydrogels

Controlled Annealing in Adaptive Multicomponent Gels

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