Abstract
HSV infections, both type 1 and type 2, are among the most widespread viral diseases affecting people of all ages. Their symptoms could be mild, with cold sores up to 10 days of infection, blindness and encephalitis caused by HSV-1 affecting immunocompetent and immunosuppressed individuals. The severe effects derive from co-evolution with the host, resulting in immune evasion mechanisms, including latency and growing resistance to acyclovir and derivatives. An efficient alternative to controlling the spreading of HSV mutations is the exploitation of new drugs, and the possibility of enhancing their delivery through the encapsulation of drugs into nanoparticles, such as liposomes. In this work, liposomes were loaded with a series of 2-aminomethyl- 3-hydroxy-1,4-naphthoquinones derivatives with n-butyl (compound 1), benzyl (compound 2) and nitrobenzene (compound 3) substituents in the primary amine of naphthoquinone. They were previously identified to have significant inhibitory activity against HSV-1. All of the aminomethylnaphthoquinones derivatives encapsulated in the phosphatidylcholine liposomes were able to control the early and late phases of HSV-1 replication, especially those substituted with the benzyl (compound 2) and nitrobenzene (compound 3), which yields selective index values that are almost nine times more efficient than acyclovir. The growing interest of the industry in topical administration against HSV supports our choice of liposome as a drug carrier of aminomethylnaphthoquinones derivatives for formulations of in vivo pre-clinical assays.
Highlights
Most studies reveal that lawsone is effective mainly on tumoral cells, we showed that aminomethylnaphthoquinone derivatives could inhibit both the early and late phases of replication in two different models of the Herpesviridae family: Herpes Bovine type 5 and Herpes Simplex type
Over the last few decades, anti-Herpes SimplexVirus 1 (HSV-1) drug development has essentially been based on the modification of the acyclovir prototype; as a matter of fact, currently, the three classes of licensed HSV-1 drugs act on viral DNA replication
Viral resistance to ACV has been shown to be more common in immunocompromised patients undergoing long-term therapy, as seen for most other viral infections, highlighting the need for new drugs with novel mechanisms of action [39,40]
Summary
67% of people under the age of 50 are infected with Herpes Simplex. Virus 1 (HSV-1) and 13% of people aged 15–49 are infected with Herpes Simplex Virus 2. (HSV-2), urgently pushing the need for new therapies. In immunocompromised people, such as those with advanced HIV infection, HSV may have more severe symptoms and can lead to more severe complications, such as encephalitis or keratitis [1,2]. HSV infections are efficiently treated with antiviral drugs, such as acyclovir (ACV). Its derivatives; long-term treatments may lead to drug resistance, mainly among immunocompromised patients, representing an additional critical emergence. There is an urgent need to explore new and effective strategies to face this problem
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