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Abstract
Aims: In human diabetes, the deleterious effects of chronic hyperglycemia are the result of excessive nonenzymatic modification of proteins and phospholipids by glucose and its by-products leading to the formation of irreversible oxidized, aromatic, and fluorescent ligands known as advanced glycation end products. This glycation process has been associated with deleterious health effects. The present invention provides the potent inhibitors of protein glycation and AGEs formation, which are particularly advantageous for eyedrop delivery in the prevention and treatment of diabetes- and age-related pathologies.
Main Methods and Key findings: We proposed a deglycation system involving removal, by transglycation of sugar or aldehyde moieties from the Schiff bases by ophthalmic aldehyde scavenger l-carnosine derived from its ocular bioactivating sustained release prodrug 1% N-acetylcarnosine (NAC) lubricant eyedrops containing a mucoadhesive cellulose compound combined with corneal absorption promoters in drug delivery system.
Carnosine analogs bearing the histidyl-hydrazide moiety were synthesized and patented in ophthalmic formulations with NAC bioactivating prodrug to moderate the enzymatic hydrolysis of a dipeptide by carnosinase (inhibited by a nonhydrolyzable substrate analog so that this keeps steadier levels of the drug active principle in the aqueous humor). Leucyl-histidylhydrazide peptidomimetic demonstrated the transglycation activity more pronounced than l-carnosine accounting for the ability of either molecule to reverse pre-existing, glycation-induced, cross-linking, and checking the nonenzymatic glycation cascade in the ophthalmic pathologies.
The ophthalmic drug N-acetylcarnosine eye drop formulation with sustained time- release and increased absorption of L-carnosine in the aqueous humor (a prolonged effective dose) showed follow-up treatment efficacy for age-related cataracts for enrolled patients into the randomized double blind placebo controlled crossover clinical trial, and in over 50250 various cohort patients, was demonstrated to have an efficacy, safety and good tolerability for prevention and treatment of visual impairment in the older population data base.
Significance: The bioactivating antioxidant NAC and histidyl-hydrazide are potent agents with the pleiotropic effects for ophthalmic therapy of senile cataracts and diabetic ocular complications.
Acknowledgements
This work was planned, organized, and supported by IVP, Inc. IVP, Inc. is a holder of the worldwide patent (including PCT International Publication Number WO 2004/028536 A1) for the application of NAC for the treatment of ophthalmic disorders, including cataracts as well as (PCT International Publication Number WO 2004/064866 PCT/JP2004/000351) protecting the therapeutic applications and formulations of carnosine and amino acid derivatives stabilizing carnosine from enzymatic hydrolysis by carnosinase (inhibited by a nonhydrolyzable substrate analog). IVP Inc. is a Pharmaceutical and Nanotechnology Development Company with a focus on innovative chemical entities, drug delivery systems, and unique medical devices to target specific biomedical applications. Over the last decade, IVP has developed a track record in developing these technologies to effectively address the unmet needs of specific diseased populations. A.G. was supported by Consiglio Nazionale delle Ricerche - Progetto di Ricerca a Tema Libero DG.RSTL.019.009.
Declaration of interest: The authors report no conflicts of interest.