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Terapeutyczny potencjał pochodnych izotiazolowych : wpływ struktury związku na aktywność

Jęśkowiak I., Mączyński M., Ryng S.

Wiadomości Chemiczne

2018

[Z] 72, 11-12

867--885

Isothiazole derivatives are compounds with potentially interesting biological activity. The work on the isothiazole ring was successfully conducted by Machoń from the Department of Organic Chemistry at Wrocław Medical University. Machoń received an isothiazole derivative – Denotivirum, which is an original Polish drug. This compound has antiviral, anti-inflammatory and bacteriostatic activity against Staphylococcus aureus. Within the group of isothiazolpyrimidine derivatives, Machoń selected a compound with a very strong antitumor effect (IP-10). This combination has gone through a preclinical study. The high antitumor activity was confirmed by the Bethesda USA Research Center, which qualified him for clinical trials [1–5]. The aim of the study was to review and evaluate the latest scientific works in the field of isothiazole derivatives and, above all, the dependence of their structure on activity. The Chemical Abstracts Database and Reaxys, together with other sources of information, was searched using isothiazole keyword. As a result of the search, the majority of works describing isothiazole derivatives for the anticancer (Tab. 1), immunological among other anti-inflammatory, immunosuppressive (Tab. 2) and antiviral (Tabs 3 and 4) activity were selected. Some substances have been tested for antibacterial, antifungal, insecticidal, antiparasitic, analgesic, antidiabetic and neuroprotective properties (Tab. 5). Analyzed were only compounds containing the isothiazole ring, which are not belong to condensed heterocyclic compounds such as benzoisothiazoles, isothiazolpyridines or furoisothiazoles. In conclusion, the most interesting works presented herein illustrate a wide range of activities of isothiazole derivatives depending on their structure, which also extend the scope of biological research revealing previously barren activities of this group of compounds.

Nowoczesne metody pozyskiwania substancji biologicznie aktywnych przy zastosowaniu reakcji wieloskładnikowych ze szczególnym uwzględnieniem reakcji Ugi

Ryng S., Jęśkowiak I.

Wiadomości Chemiczne

2017

[Z] 71, 1-2

45--63

In the last decade a change of thought has taken place in the pharmaceutical industry which has led to a renaissance of the Multicomponent reactions (MCRs) [1]. Under the inspiration of diversity-oriented-synthesis (DOS), numerous efforts have been devoted to find powerful synthetic tools for rapidly accessing maximum molecular diversity with minimum cost. In the toolbox enabling DOS for generating molecular libraries, MCRs are now recognized as one of the most useful and powerful strategies [2], which provide the highest number of compounds for the least synthetic effort [3]. Following the rapid progress in the research area of MCRs, widespread application has been found in many different areas such as chemical biology, natural product synthesis, pharmaceuticals as well as agrochemistry [2]. The overall aim of a DOS is to generate a small-molecule collection with a high degree of structural, and thus functional, diversity that interrogates large areas of chemical space simultaneously [4]. In Targed-Oriented Synthesis (TOS) a complex target is transformed into a sequence of progressively simpler structures by formally performing chemical reactions in the reverse-synthetic direction [3]. Special subclasses are isocyanide based MCRs (IMCRs). They are particularly interesting because they are more versatile and diverse than the remaining MCRs. Today most MCRs chemistry performed with isocyanides relates to the classical reactions of Passerini and Ugi (Scheme 1)[5]. In Ugi four-component reaction (U-4CR), carboxylic acids, primary amines and oxo components (aldehydes or ketones) react with isocyanides in polar solvents to obtain -amino carboxamides (Schemes 2 and 3). Occasionally however, selective conversion of amide groups into other functional groups is desirable for an increase of diversity of the IMCR-derived compounds [6]. In this reaction two substituted amide groups are formed under release of one equivalent of water. Thus, the U-4CR is an atom-economic and environmentally friendly reaction. It was also shown that water can be used as the solvent. This reaction is typically performed by stirrling the components for approximately 1 day in small quantities of a protic solvent (e.g. methanol or trifluoroethanol) [7]. The examples of Ugi reactions are described in the Schemes 4–10. Multicomponent reactions have become attractive tools in modern synthetic organic chemistry. Among their many advantages, they allow the creation of large chemical libraries of diverse, complex molecular structures, starting from simple materials within a short time frame. Not surprisingly, these particular features have made MCRs especially appealing to medicinal chemists [8].