The Highly Active Antiretroviral Therapy (HAART) [1] consists of the combination of two or more drugs acting against three viral enzymes: reverse transcriptase, protease, and integrase (IN). The latter catalyzes integration of viral DNA with host DNA and was recently identified as a target for a promising class of drugs, Integrase Strand Transfer Inhibitors (INSTI).[2] Currently, three drugs that seem to inhibit efficiently IN-HIV-1, namely Raltegravir, Elvitegravir and Dolutegravir, have been approved by FDA (American Food and Drug Administration) for therapeutic use.[3] Nevertheless, the outbreak of drug resistance during the therapeutic approach requires continuous and unceasing design of new antivirals. Presently, our research efforts are focused on the development of new INSTI cytosine-based systems (as depicted in the figure) that originate from preliminary conformational analysis showing the core moiety to provide adequate facial orientation in the bioactive conformation, when functional groups suitable for insertion of additional structural elements are present in their molecules. Under our conditions, a first generation of molecules have already been prepared and also tested to assess their biological activity in vitro, at Xpress Bio-laboratories (Maryland (USA). Molecular docking analysis prompted the possibility to improve their potential inhibitory activity by structural modifications at the side chains and, therefore, we report herein the exploitation of our procedure to get a second generation of cytosine-based molecules that are presently under biological evaluation. Abstracts [Arial 11, line spacing single] must be written in English and the abstract body, including figures, schemes, tables and references must not exceed one page. All references should be mentioned in the text. They should be numbered in the sequence in which they appear in the text, cited by numbers in square brackets (placed after the punctuation), as superscripts. Figures, schemes and tables may be inserted, provided that they are referenced in the abstract text and that they bear an appropriate caption formatted as follows
Pursuing the Development of New Antiviral INSTIs
MANFRA, MICHELE;
2015-01-01
Abstract
The Highly Active Antiretroviral Therapy (HAART) [1] consists of the combination of two or more drugs acting against three viral enzymes: reverse transcriptase, protease, and integrase (IN). The latter catalyzes integration of viral DNA with host DNA and was recently identified as a target for a promising class of drugs, Integrase Strand Transfer Inhibitors (INSTI).[2] Currently, three drugs that seem to inhibit efficiently IN-HIV-1, namely Raltegravir, Elvitegravir and Dolutegravir, have been approved by FDA (American Food and Drug Administration) for therapeutic use.[3] Nevertheless, the outbreak of drug resistance during the therapeutic approach requires continuous and unceasing design of new antivirals. Presently, our research efforts are focused on the development of new INSTI cytosine-based systems (as depicted in the figure) that originate from preliminary conformational analysis showing the core moiety to provide adequate facial orientation in the bioactive conformation, when functional groups suitable for insertion of additional structural elements are present in their molecules. Under our conditions, a first generation of molecules have already been prepared and also tested to assess their biological activity in vitro, at Xpress Bio-laboratories (Maryland (USA). Molecular docking analysis prompted the possibility to improve their potential inhibitory activity by structural modifications at the side chains and, therefore, we report herein the exploitation of our procedure to get a second generation of cytosine-based molecules that are presently under biological evaluation. Abstracts [Arial 11, line spacing single] must be written in English and the abstract body, including figures, schemes, tables and references must not exceed one page. All references should be mentioned in the text. They should be numbered in the sequence in which they appear in the text, cited by numbers in square brackets (placed after the punctuation), as superscripts. Figures, schemes and tables may be inserted, provided that they are referenced in the abstract text and that they bear an appropriate caption formatted as followsI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
