Economic and practical advantages are offered by the iron(III)-catalyzed and air-mediated tandem coupling/hydroarylation/dehydrogenation of simple readily available aldehydes, alkynes, and amines for the synthesis of 2, 4-disubstituted quinolines (see scheme).
Background:
Many human diseases are associated with dysregulation of HDACs. HDAC6
exhibits deacetylase activity not only to histone protein but also to non-histone proteins such as α-
tubulin, HSP90, cortactin, and peroxiredoxin. These unique functions of HDAC6 have gained significant
attention in the medicinal chemistry community in recent years. Thus a great deal of effort has
devoted to developing selective HDAC6 inhibitors for therapy with the hope to minimize the side effects
caused by pan-HDAC inhibition.
Objective:
The review intends to analyze the structural feature of the scaffolds, to provide useful information
for those who are interested in this field, as well as to spark the future design of the new
inhibitors.
Methods:
The primary tool used for patent searching is SciFinder. All patents are retrieved from the
following websites: the World Intellectual Property Organization (WIPO®), the United States Patent
Trademark Office (USPTO®), Espacenet®, and Google Patents. The years of patents covered in this
review are between 2016 and 2019.
Results:
Thirty-six patents from seventeen companies/academic institutes were classified into three
categories based on the structure of ZBG: hydroxamic acid, 1,3,4-oxadiazole, and 1,2,4-oxadiazole.
ZBG connects to the cap group through a linker. The cap group can tolerate different functional groups,
including amide, urea, sulfonamide, sulfamide, etc. The cap group appears to modulate the selectivity
of HDAC6 over other HDAC subtypes.
Conclusion:
Selectively targeting HDAC6 over other subtypes represents two fold advantages: it
maximizes the pharmacological effects and minimizes the side effects seen in pan-HDAC inhibitors.
Many small molecule selective HDAC6 inhibitors have advanced to clinical studies in recent years. We
anticipate the approval of selective HDAC6 inhibitors as therapeutic agents in the near future.
An efficient strategy for the total synthesis of (+)-przewalskin B is reported. The key steps feature an intermolecular S(N)2' substitution of iodoallylic phosphate with organocupper reagent, a diastereoselective organocatalytic aldol cyclization, as well as a Rh(2)(OAc)(4)-mediated intramolecular carbene insertion to the tertiary C-H bond.
Herein, we report the first access of β-elemene derivatives through the SeO
2
-mediated oxidation reaction. Several new compounds were isolated through such a one-step reaction, and their structures were elucidated using various 2D-NMR techniques. This method provides easy access to multiple oxidative β-elemene derivatives in one single step and represents the first modifications on cyclohexyl ring of β-elemene. It is expected to open up the opportunity for future derivatization on cyclohexyl ring of β-elemene. The new compounds obtained above showed better anti-proliferation activities than β-elemene itself on several cancer cell lines. Among them, compound
17
shows the best activity in antiproliferation assays of A549 and U-87MG cell lines.
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