Jun Takouda, Moeka Nakamura, Akane Murasaki, Waka Shimosako, Aoi Hidaka, Shino Honda, Susumu Tanimura, Fumito Ishibashi, Norihiko Kawasaki, Jun Ishihara, Tsutomu Fukuda, Kohsuke Takeda
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However, whereas the effect of AZL-N on R837-induced pyroptosis was relatively weak, AZL-N strongly inhibited pyroptosis induced by extracellular ATP or nigericin, which are different types of NLRP3 inflammasome agonists. This was in contrast with the results that MCC950, a well-established NLRP3 inhibitor, consistently inhibited pyroptosis irrespective of the type of stimulus. We also found that AZL-N inhibited activation of caspase-1 and apoptosis-associated speck-like proteins containing a caspase activation and recruitment domain (ASC), which are components of the NLRP3 inflammasome. Analysis of the structure-activity relationship revealed that a lactam ring of AZL-N, which has been shown to contribute to the strong binding of AZL-N to its known target protein kinases, is required for its inhibitory effects on pyroptosis. These results suggest that AZL-N inhibits pyroptosis by targeting molecule(s), which may be protein kinase(s), that act upstream of NLRP3 inflammasome activation, rather than by directly targeting the components of the NLRP3 inflammasome. Further identification and analysis of target molecule(s) of AZL-N will shed light on the regulatory mechanisms of pyroptosis, particularly those depending on proinflammatory stimuli.</p>","PeriodicalId":8955,"journal":{"name":"Biological & pharmaceutical bulletin","volume":"47 1","pages":"28-36"},"PeriodicalIF":1.7000,"publicationDate":"2024-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Identification of Azalamellarin N as a Pyroptosis Inhibitor.\",\"authors\":\"Jun Takouda, Moeka Nakamura, Akane Murasaki, Waka Shimosako, Aoi Hidaka, Shino Honda, Susumu Tanimura, Fumito Ishibashi, Norihiko Kawasaki, Jun Ishihara, Tsutomu Fukuda, Kohsuke Takeda\",\"doi\":\"10.1248/bpb.b23-00569\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Pyroptosis is a form of regulated cell death that promotes inflammation; it attracts much attention because its dysregulation leads to various inflammatory diseases. To help explore the precise mechanisms by which pyroptosis is regulated, in this study, we searched for chemical compounds that inhibit pyroptosis. From our original compound library, we identified azalamellarin N (AZL-N), a hexacyclic pyrrole alkaloid, as an inhibitor of pyroptosis induced by R837 (also called imiquimod), which is an agonist of the intracellular multiprotein complex nucleotide-binding and oligomerization domain-like receptor (NLR) family pyrin domain containing 3 (NLRP3) inflammasome. However, whereas the effect of AZL-N on R837-induced pyroptosis was relatively weak, AZL-N strongly inhibited pyroptosis induced by extracellular ATP or nigericin, which are different types of NLRP3 inflammasome agonists. This was in contrast with the results that MCC950, a well-established NLRP3 inhibitor, consistently inhibited pyroptosis irrespective of the type of stimulus. We also found that AZL-N inhibited activation of caspase-1 and apoptosis-associated speck-like proteins containing a caspase activation and recruitment domain (ASC), which are components of the NLRP3 inflammasome. Analysis of the structure-activity relationship revealed that a lactam ring of AZL-N, which has been shown to contribute to the strong binding of AZL-N to its known target protein kinases, is required for its inhibitory effects on pyroptosis. These results suggest that AZL-N inhibits pyroptosis by targeting molecule(s), which may be protein kinase(s), that act upstream of NLRP3 inflammasome activation, rather than by directly targeting the components of the NLRP3 inflammasome. 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Identification of Azalamellarin N as a Pyroptosis Inhibitor.
Pyroptosis is a form of regulated cell death that promotes inflammation; it attracts much attention because its dysregulation leads to various inflammatory diseases. To help explore the precise mechanisms by which pyroptosis is regulated, in this study, we searched for chemical compounds that inhibit pyroptosis. From our original compound library, we identified azalamellarin N (AZL-N), a hexacyclic pyrrole alkaloid, as an inhibitor of pyroptosis induced by R837 (also called imiquimod), which is an agonist of the intracellular multiprotein complex nucleotide-binding and oligomerization domain-like receptor (NLR) family pyrin domain containing 3 (NLRP3) inflammasome. However, whereas the effect of AZL-N on R837-induced pyroptosis was relatively weak, AZL-N strongly inhibited pyroptosis induced by extracellular ATP or nigericin, which are different types of NLRP3 inflammasome agonists. This was in contrast with the results that MCC950, a well-established NLRP3 inhibitor, consistently inhibited pyroptosis irrespective of the type of stimulus. We also found that AZL-N inhibited activation of caspase-1 and apoptosis-associated speck-like proteins containing a caspase activation and recruitment domain (ASC), which are components of the NLRP3 inflammasome. Analysis of the structure-activity relationship revealed that a lactam ring of AZL-N, which has been shown to contribute to the strong binding of AZL-N to its known target protein kinases, is required for its inhibitory effects on pyroptosis. These results suggest that AZL-N inhibits pyroptosis by targeting molecule(s), which may be protein kinase(s), that act upstream of NLRP3 inflammasome activation, rather than by directly targeting the components of the NLRP3 inflammasome. Further identification and analysis of target molecule(s) of AZL-N will shed light on the regulatory mechanisms of pyroptosis, particularly those depending on proinflammatory stimuli.
期刊介绍:
Biological and Pharmaceutical Bulletin (Biol. Pharm. Bull.) began publication in 1978 as the Journal of Pharmacobio-Dynamics. It covers various biological topics in the pharmaceutical and health sciences. A fourth Society journal, the Journal of Health Science, was merged with Biol. Pharm. Bull. in 2012.
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