27559-59-7Relevant articles and documents
Chromatography-free, Mitsunobu-triggered heterocyclizations of salicylhydroxamic acids to 3-hydroxybenzisoxazoles
Van Eker, Daniel,Chauhan, Jay,Murphy, William A.,Conlon, Ivie L.,Fletcher, Steven
, p. 5301 - 5303 (2016/11/16)
The Mitsunobu reaction has become one of the most powerful tools to alkylate acidic pronucleophiles. A significant caveat of Mitsunobu chemistry, however, is that the reaction mixture is often plagued with purification problems owing to the phosphine oxide and hydrazine dicarboxylate by-products. In addition to the development of more readily separable Mitsunobu reagents, the product's physicochemical properties may be exploited to facilitate purification. In this regard, we present a swift and efficient preparation of 3-hydroxybenzisoxazoles by the Mitsunobu-triggered heterocyclizations of salicylhydroxamic acids, which can be isolated by an acid–base work-up. As expected, a range of functional groups was compatible with the chemistry.
TYROSINE PHOSPHATASE INHIBITORS AND USES THEREOF TO MODULATE THE ACTIVITY OF LYP
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Page/Page column 88; 89; 97, (2012/11/13)
A variety of benzofurans and indole derivatives some with an acetyl linker are disclosed herein. These compounds are not highly charged at physiological pH and have good bioavailability characteristics. These compounds exhibit selective or at least preferential affinity for the active sites of various sub-sets of protein tyrosine phosphatases. The lymphoid- specific tyrosine phosphatase (Lyp) has received enormous attention because of the finding that a single- nucleotide polymorphism (SNP) in the gene (PTPN22) encoding Lyp is associated with several autoimmune diseases, including type I diabetes. Many of these compounds and pharmaceutically acceptable salts thereof are novel therapeutic compounds useful for the treatment of various diseases including a number of autoimmune diseases.
Synthesis and modeling of new benzofuranone histone deacetylase inhibitors that stimulate tumor suppressor gene expression
Charrier, Cédric,Clarhaut, Jonathan,Gesson, Jean-Pierre,Estiu, Guillermina,Wiest, Olaf,Roche, Jo?lle,Bertrand, Philippe
supporting information; experimental part, p. 3112 - 3115 (2010/02/28)
New benzofuranones were synthesized and evaluated toward NCI-H661 non-small cell lung cancer cells. Benzamide derivatives possessed micromolar antiproliferative and histone deacetylase inhibitory activities and modulate histone H4 acetylation. Hydroxamic acids were found to be potent nanomolar antiproliferative agents and HDAC inhibitors. Computational analysis presented a rationale for the activities of the hydroxamate derivatives. Impact of the HDAC inhibition on the expression of E-cadherin and the SEMA3F tumor suppressor genes revealed new promising compounds for lung cancer treatments.