Hyaluronan (HA) is among the most used biopolymers for viscosupplementation and dermo-cosmetic applications. However, the current injectable HA-based formulations present relevant limitations: I) unmodified HA is quickly degraded by endogenous hyaluronidases (HAase), resulting in short lasting properties; II) cross-linked HA, although shows enhanced stability against HAase, often contains toxic chemical cross-linkers. As such, herein, we present biocompatible self-assembled hyaluronan-cholesterol nanohydrogels (HA-CH NHs) able to bind to HAase and inhibit the enzyme activity in vitro, more efficiently than currently marketed HA-based cross-linked formulations (e.g. JonexaTM). HA-CH NHs inhibit HAase through a mixed mechanism, by which NHs bind to HAase with an affinity constant 7-fold higher than that of native HA. Similar NHs, based on gellan-cholesterol, evidenced no binding to HAase, neither inhibition of the enzyme activity, suggesting this effect might be due to the specific binding of HA-CH to the active site of the enzyme. Therefore, HA-CH NHs were engineered into injectable hybrid HA mixtures or physical hydrogels, able to halt the enzymatic degradation of HA.
Halting hyaluronidase activity with hyaluronan-based nanohydrogels: development of versatile injectable formulations / Montanari, E.; Zoratto, N.; Mosca, L.; Cervoni, L.; Lallana, E.; Angelini, R.; Matassa, R.; Coviello, T.; Di Meo, C.; Matricardi, P.. - In: CARBOHYDRATE POLYMERS. - ISSN 0144-8617. - 221:(2019), pp. 209-220. [10.1016/j.carbpol.2019.06.004]
Halting hyaluronidase activity with hyaluronan-based nanohydrogels: development of versatile injectable formulations
Montanari, E.;Zoratto, N.;Mosca, L.;Cervoni, L.;Angelini, R.;Matassa, R.;Coviello, T.;Di Meo, C.;Matricardi, P.
2019
Abstract
Hyaluronan (HA) is among the most used biopolymers for viscosupplementation and dermo-cosmetic applications. However, the current injectable HA-based formulations present relevant limitations: I) unmodified HA is quickly degraded by endogenous hyaluronidases (HAase), resulting in short lasting properties; II) cross-linked HA, although shows enhanced stability against HAase, often contains toxic chemical cross-linkers. As such, herein, we present biocompatible self-assembled hyaluronan-cholesterol nanohydrogels (HA-CH NHs) able to bind to HAase and inhibit the enzyme activity in vitro, more efficiently than currently marketed HA-based cross-linked formulations (e.g. JonexaTM). HA-CH NHs inhibit HAase through a mixed mechanism, by which NHs bind to HAase with an affinity constant 7-fold higher than that of native HA. Similar NHs, based on gellan-cholesterol, evidenced no binding to HAase, neither inhibition of the enzyme activity, suggesting this effect might be due to the specific binding of HA-CH to the active site of the enzyme. Therefore, HA-CH NHs were engineered into injectable hybrid HA mixtures or physical hydrogels, able to halt the enzymatic degradation of HA.| File | Dimensione | Formato | |
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