- Removal of metabolic liabilities enables development of derivatives of procaspase-activating compound 1 (PAC-1) with improved pharmacokinetics
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Procaspase-activating compound 1 (PAC-1) is an o-hydroxy-N-acylhydrazone that induces apoptosis in cancer cells by chelation of labile inhibitory zinc from procaspase-3. PAC-1 has been assessed in a wide variety of cell culture experiments and in vivo models of cancer, with promising results, and a phase 1 clinical trial in cancer patients has been initiated (NCT02355535). For certain applications, however, the in vivo half-life of PAC-1 could be limiting. Thus, with the goal of developing a compound with enhanced metabolic stability, a series of PAC-1 analogues were designed containing modifications that systematically block sites of metabolic vulnerability. Evaluation of the library of compounds identified four potentially superior candidates with comparable anticancer activity in cell culture, enhanced metabolic stability in liver microsomes, and improved tolerability in mice. In head-to-head experiments with PAC-1, pharmacokinetic evaluation in mice demonstrated extended elimination half-lives and greater area under the curve values for each of the four compounds, suggesting them as promising candidates for further development.
- Roth, Howard S.,Botham, Rachel C.,Schmid, Steven C.,Fan, Timothy M.,Dirikolu, Levent,Hergenrother, Paul J.
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p. 4046 - 4065
(2015/05/27)
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- Parallel synthesis and biological evaluation of 837 analogues of procaspase-activating compound 1 (PAC-1)
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Procaspase-Activating Compound 1 (PAC-1) is an ortho-hydroxy N-acyl hydrazone that enhances the enzymatic activity of procaspase-3 in vitro and induces apoptosis in cancer cells. An analogue of PAC-1, called S-PAC-1, was evaluated in a veterinary clinical trial in pet dogs with lymphoma and found to have considerable potential as an anticancer agent. With the goal of identifying more potent compounds in this promising class of experimental therapeutics, a combinatorial library based on PAC-1 was created, and the compounds were evaluated for their ability to induce death of cancer cells in culture. For library construction, 31 hydrazides were condensed in parallel with 27 aldehydes to create 837 PAC-1 analogues, with an average purity of 91%. The compounds were evaluated for their ability to induce apoptosis in cancer cells, and through this work, six compounds were discovered to be substantially more potent than PAC-1 and S-PAC-1. These six hits were further evaluated for their ability to relieve zinc-mediated inhibition of procaspase-3 in vitro. In general, the newly identified hit compounds are two- to four-fold more potent than PAC-1 and S-PAC-1 in cell culture, and thus have promise as experimental therapeutics for treatment of the many cancers that have elevated expression levels of procaspase-3.
- Hsu, Danny C.,Roth, Howard S.,West, Diana C.,Botham, Rachel C.,Novotny, Chris J.,Schmid, Steven C.,Hergenrother, Paul J.
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experimental part
p. 44 - 50
(2012/03/10)
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- DESIGN, SYNTHESIS AND EVALUATION OF PROCASPASE ACTIVATING COMPOUNDS AS PERSONALIZED ANTI-CANCER DRUGS
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Compositions and methods are disclosed in embodiments relating to induction of cell death such as in cancer cells. Compounds and related methods for synthesis and use thereof, including the use of compounds in therapy for the treatment of cancer and selective induction of apoptosis in cells are disclosed. Compounds are disclosed that have lower neurotoxicity effects than other compounds.
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Page/Page column 31
(2010/08/18)
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- COMPOSITIONS AND METHODS INCLUDING CELL DEATH INDUCERS AND PROCASPASE ACTIVATION
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Compositions and methods are disclosed in embodiments relating to induction of cell death such as in cancer cells. Compounds and related methods for synthesis and use thereof, including the use of compounds in therapy for the treatment of cancer and selective induction of apoptosis in cells are disclosed. Compounds are disclosed in connection with modification of procaspases such as procaspase-3. In embodiments, compositions are capable of activation of procaspase-3.
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Page/Page column 68
(2008/12/08)
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- SELECTIVE APOPTOTIC INDUCTION IN CANCER CELLS INCLUDING ACTIVATION OF PROCASPASE-3
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Compounds and related methods for synthesis, and the use of compounds in therapy for the treatment of cancer and selective induction of apoptosis in cells are disclosed. Compounds are disclosed in connection with modification of procaspases such as procaspase-3, and particular embodiments are capable of direct activation of procaspase-3 and procaspase-7 to the effector forms of caspase-3 and caspase-7. Procaspase-3 levels can vary among cancer cell types; several types have relatively high levels and can have increased susceptibility to chemotherapy by compounds and methods herein. Therapeutic applications are relevant for a variety of cancer conditions and cell types, e.g. breast, lung, brain, colon, renal, adrenal, melanoma, and others.
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Page/Page column 32-33
(2008/06/13)
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