Thapsigargin (BioDeep_00000000710)
PANOMIX_OTCML-2023 Chemicals and Drugs natural product Volatile Flavor Compounds
代谢物信息卡片
化学式: C34H50O12 (650.33021)
中文名称: 毒胡萝卜素, 毒胡萝卜内酯
谱图信息:
最多检出来源 Chinese Herbal Medicine(otcml) 12.12%
Last reviewed on 2024-11-06.
Cite this Page
Thapsigargin. BioDeep Database v3. PANOMIX ltd, a top metabolomics service provider from China.
https://query.biodeep.cn/s/thapsigargin (retrieved
2024-11-22) (BioDeep RN: BioDeep_00000000710). Licensed
under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).
分子结构信息
SMILES: C/C=C(/C)C(=O)O[C@H]1C(C)=C2[C@@H]3OC(=O)[C@@](C)(O)[C@@]3(O)[C@@H](OC(=O)CCC)C[C@](C)(OC(C)=O)[C@H]2[C@@H]1OC(=O)CCCCCCC
InChI: InChI=1S/C34H50O12/c1-9-12-13-14-15-17-24(37)43-28-26-25(20(5)27(28)44-30(38)19(4)11-3)29-34(41,33(8,40)31(39)45-29)22(42-23(36)16-10-2)18-32(26,7)46-21(6)35/h11,22,26-29,40-41H,9-10,12-18H2,1-8H3/b19-11-/t22-,26+,27-,28-,29-,32-,33+,34+/m0/s1
描述信息
Thapsigargin is an organic heterotricyclic compound that is a hexa-oxygenated 6,7-guaianolide isolated fron the roots of Thapsia garganica L., Apiaceae. A potent skin irritant, it is used in traditional medicine as a counter-irritant. Thapsigargin inhibits Ca(2+)-transporting ATPase mediated uptake of calcium ions into sarcoplasmic reticulum and is used in experimentation examining the impacts of increasing cytosolic calcium concentrations. It has a role as an EC 3.6.3.8 (Ca(2+)-transporting ATPase) inhibitor and a calcium channel blocker. It is a sesquiterpene lactone, an organic heterotricyclic compound and a butyrate ester.
Thapsigargin is a natural product found in Thapsia gymnesica, Thapsia villosa, and Thapsia garganica with data available.
A sesquiterpene lactone found in roots of THAPSIA. It inhibits SARCOPLASMIC RETICULUM CALCIUM-TRANSPORTING ATPASES.
C1907 - Drug, Natural Product > C28269 - Phytochemical > C93252 - Sesquiterpene Lactone
D004791 - Enzyme Inhibitors
(-)-Thapsigargin. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=67526-95-8 (retrieved 2024-11-06) (CAS RN: 67526-95-8). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).
同义名列表
35 个代谢物同义名
OCTANOIC ACID [3S-[3ALPHA, 3ABETA, 4ALPHA, 6BETA, 6ABETA, 7BETA, 8ALPHA(Z), 9BALPHA]]-6-(ACETYLOXY)-2,3,-3A,4,5,6,6A,7,8,9B-DECAHYDRO-3,3A-DIHYDROXY-3,6,9-TRIMETHYL-8-[(2-METHYL-1-OXO-2-BUTENYL)OX Y]-2-OXO-4-(1-OXOBUTOXY)-AZULENO[4,5-B]FURAN-7-YL ESTER; OCTANOIC ACID [3S-[3ALPHA, 3ABETA, 4ALPHA, 6BETA, 6ABETA, 7BETA, 8ALPHA(Z), 9BALPHA]]-6-(ACETYLOXY)-2,3,-3A,4,5,6,6A,7,8,9B-DECAHYDRO-3,3A-DIHYDROXY-3,6,9-TRIMETHYL-8-[(2-METHYL-1-OXO-2-BUTENYL)OXY]-2-OXO-4-(1-OXOBUTOXY)-AZULENO[4,5-B]FURAN-7-YL ESTER; Octanoic Acid [3s-[3alpha, 3abeta, 4alpha,6beta, 6abeta, 7beta, 8alpha(Z), 9balpha]]-6-(Acetyloxy)-2,3,-3a,4,5,6,6a,7,8,9b-Decahydro-3,3a-Dihydroxy-3,6,9-Trimethyl-8-[(2-Methyl-1-Oxo-2-Butenyl)oxy]-2-Oxo-4-(1-Oxobutoxy)-Azuleno[4,5-B]furan-7-Yl Ester; Octanoic Acid [3s-[3alpha, 3abeta, 4alpha, 6beta,6abeta, 7beta, 8alpha(Z), 9balpha]]-6-(Acetyloxy)-2,3,-3a,4,5,6,6a,7,8,9b-Decahydro-3,3a-Dihydroxy-3,6,9-Trimethyl-8-[(2-Methyl-1-Oxo-2-Butenyl)oxy]-2-Oxo-4-(1-Oxobutoxy)-Azuleno[4,5-B]furan-7-Yl Ester; Octanoic acid, 6-(acetyloxy)-2,3,3a,4,5,6,6a,7,8,9b-decahydro-3,3a-dihydroxy-3,6,9-trimethyl-8-((2-methyl-1-oxo-2-butenyl)oxy)-2-oxo-4-(1-oxobutoxy)azuleno(4,5-b)furan-7-yl ester, (3S-(3alpha,3abeta,4alpha,6beta,6abeta,7beta,8alpha(Z),9balpha))-; octanoic acid {3S-[3alpha,3abeta,4alpha,6beta,6abeta,7beta,8alpha(Z),9balpha]}-6-(acetoxy)-2,3,3a,4,5,6,6a,7,8,9b-decahydro-3,3a-dihydroxy-3,6,9-trimethyl-8-[(2-methyl-1-oxo-2-butenyl)oxy]-2-oxo-4-(1-oxobutoxy)-azuleno[4,5-b]furan-7-yl ester; OCTANOIC ACID, (3S,3AR,4S,6S,6AR,7S,8S,9BS)-6-(ACETYLOXY)-2,3,3A,4,5,6,6A,7,8,9B-DECAHYDRO-3,3A-DIHYDROXY-3,6,9-TRIMETHYL-8-(((2Z)-2-METHYL-1-OXO-2-BUTEN-1-YL)OXY)-2-OXO-4-(1-OXOBUTOXY)AZULENO(4,5-B)FURAN-7-YL ESTER; (3S,3aR,4S,6S,6AR,7S,8S,9bS)-6-(Acetyloxy)-2,3,3a,4,5,6,6a,7,8,9b- decahydro-3,3a-dihydroxy-3,6,9-trimethyl-8-[[(2Z)-2-methyl-1-oxo-2-butenyl]oxy]-2-oxo-4-(1-oxobutoxy)azuleno[4,5-b]furan-7-yl octanoate; (3S,3aR,4S,6S,6aR,7S,8S,9bS)-6-(acetyloxy)-2,3,3a,4,5,6,6a,7,8,9b-decahydro-3,3a-dihydroxy-3,6,9-trimethyl-8-[[(2Z)-2-methyl-1-oxo-2-buten-1-yl]oxy]-2-oxo-4-(1-oxobutoxy)azuleno[4,5-b]f uran-7-yl ester; (3S,3aR,4S,6S,6AR,7S,8S,9bS)-6-(Acetyloxy)-2,3,3a,4,5,6,6a,7,8,9b-decahydro-3,3a-dihydroxy-3,6,9-trimethyl-8-[[(2Z)-2-methyl-1-oxo-2-butenyl]oxy]-2-oxo-4-(1-oxobutoxy)azuleno[4,5-b]furan-7-yl octanoate; Octanoic acid, (3S,3aR,4S,6S,6aR,7S,8S,9bS)-6-(acetyloxy)-2,3,3a,4,5,6,6a,7,8,9b-decahydro-3,3a-dihydroxy-3,6,9-trimethyl-8-[[(2Z)-2-methyl-1-oxo-2-butenyl]oxy]-2-oxo-4-(1-oxobutoxy)azuleno[4,5-b]fura; Octanoic acid, 6-(acetyloxy)-2,3,3a,4,5,6,6a,7,8,9b-decahydro-3,3a-dihydroxy-3,6,9-trimethyl-8-[(2-methyl-1-oxo-2-butenyl)oxy]-2-oxo-4-(1-oxobutoxy)azuleno[4,5-b]furan-7-yl ester, [3S-[3alpha,3abeta,4; octanoic acid, (3S,3aR,4S,6S,6aR,7S,8S,9bS)-6-(acetyloxy)-2,3,3a,4,5,6,6a,7,8,9b-decahydro-3,3a-dihydroxy-3,6,9-trimethyl-8-[[(2Z)-2-methyl-1-oxo-2-butenyl]oxy]-2-oxo-4-(-oxobutoxy)azuleno[4,5-b]furan; (3S,3aR,4S,6S,6aR,7S,8S,9bS)-6-(acetyloxy)-4-(butanoyloxy)-3,3a-dihydroxy-3,6,9-trimethyl-8-{[(2Z)-2-methylbut-2-enoyl]oxy}-2-oxo-2H,3H,3aH,4H,5H,6H,6aH,7H,8H,9bH-azuleno[4,5-b]furan-7-yl octanoate; (3S,3aR,4S,6S,6aR,7S,8S,9bS)-6-(acetyloxy)-4-(butanoyloxy)-3,3a-dihydroxy-3,6,9-trimethyl-8-{[(2Z)-2-methylbut-2-enoyl]oxy}-2-oxo-2,3,3a,4,5,6,6a,7,8,9b-decahydroazuleno[4,5-b]furan-7-yl octanoate; 9BALPHA]]-6-(ACETYLOXY)-2,3,-3A,4,5,6,6A,7,8,9B-DECAHYDRO-3,3A-DIHYDROXY-3,6,9-TRIMETHYL-8-[(2-METHYL-1-OXO-2-BUTENYL)OX; OCTANOIC ACID [3S-[3ALPHA, 3ABETA, 4ALPHA, 6BETA, 6ABETA, 7BETA, 8ALPHA(Z),; Y]-2-OXO-4-(1-OXOBUTOXY)-AZULENO[4,5-B]FURAN-7-YL ESTER; alpha,6beta,6abeta,7beta,8alpha(Z),9balpha]]-; Azuleno[4,5-b]furan, octanoic acid deriv.; Thapsigargin, >=98\\% (HPLC), solid film; n-7-yl ester (9CI); THAPSIGARGIN [MI]; (-)-Thapsigargin; UNII-Z96BQ26RZD; Lopac0_001262; Tox21_501262; Thapsigargin; IDI1_033971; -7-yl ester; Z96BQ26RZD; C34H50O12; TG1; octanoic acid [6-acetyloxy-3,3a-dihydroxy-3,6,9-trimethyl-8-(2-methyl-1-oxobut-2-enoxy)-2-oxo-4-(1-oxobutoxy)-4,5,6a,7,8,9b-hexahydroazuleno[4,5-b]furan-7-yl] ester; Thapsigargin
数据库引用编号
21 个数据库交叉引用编号
- ChEBI: CHEBI:93212
- ChEBI: CHEBI:9516
- KEGG: C09561
- PubChem: 446378
- Metlin: METLIN41196
- ChEMBL: CHEMBL96926
- Wikipedia: Thapsigargin
- LipidMAPS: LMPR0103410001
- MeSH: Thapsigargin
- ChemIDplus: 0067526958
- CAS: 67526-95-8
- medchemexpress: HY-13433
- PMhub: MS000012341
- KNApSAcK: C00003375
- PDB-CCD: TG1
- 3DMET: B03081
- NIKKAJI: J34.328E
- RefMet: Thapsigargin
- PubChem: 11752
- KNApSAcK: 9516
- LOTUS: LTS0269367
分类词条
相关代谢途径
Reactome(0)
BioCyc(0)
PlantCyc(0)
代谢反应
0 个相关的代谢反应过程信息。
Reactome(0)
BioCyc(0)
WikiPathways(0)
Plant Reactome(0)
INOH(0)
PlantCyc(0)
COVID-19 Disease Map(0)
PathBank(0)
PharmGKB(0)
19 个相关的物种来源信息
- 4037 - Apiaceae: LTS0269367
- 2759 - Eukaryota: LTS0269367
- 3398 - Magnoliopsida: LTS0269367
- 35493 - Streptophyta: LTS0269367
- 79021 - Thapsia: LTS0269367
- 79022 - Thapsia garganica:
- 79022 - Thapsia garganica: 10.1016/0021-9673(93)80322-Y
- 79022 - Thapsia garganica: 10.1016/J.PHYTOCHEM.2006.10.005
- 79022 - Thapsia garganica: 10.1021/NP049781Y
- 79022 - Thapsia garganica: 10.1021/NP050115M
- 79022 - Thapsia garganica: 10.1055/S-2006-961614
- 79022 - Thapsia garganica: 10.1055/S-2006-961724
- 79022 - Thapsia garganica: LTS0269367
- 1484034 - Thapsia gymnesica: 10.1055/S-2006-957769
- 1484034 - Thapsia gymnesica: LTS0269367
- 512635 - Thapsia villosa: 10.1021/NP50072A012
- 512635 - Thapsia villosa: LTS0269367
- 58023 - Tracheophyta: LTS0269367
- 33090 - Viridiplantae: LTS0269367
在这里通过桑基图来展示出与当前的这个代谢物在我们的BioDeep知识库中具有相关联信息的其他代谢物。在这里进行关联的信息来源主要有:
- PubMed: 来源于PubMed文献库中的文献信息,我们通过自然语言数据挖掘得到的在同一篇文献中被同时提及的相关代谢物列表,这个列表按照代谢物同时出现的文献数量降序排序,取前10个代谢物作为相关研究中关联性很高的代谢物集合展示在桑基图中。
- NCBI Taxonomy: 通过文献数据挖掘,得到的代谢物物种来源信息关联。这个关联信息同样按照出现的次数降序排序,取前10个代谢物作为高关联度的代谢物集合展示在桑吉图上。
- Chemical Taxonomy: 在物质分类上处于同一个分类集合中的其他代谢物
- Chemical Reaction: 在化学反应过程中,存在为当前代谢物相关联的生化反应过程中的反应底物或者反应产物的关联代谢物信息。
点击图上的相关代谢物的名称,可以跳转到相关代谢物的信息页面。
文献列表
- Abeer Al Otaibi, Sindiyan Al Shaikh Mubarak, Fatimah Al Hejji, Abdulrahman Almasaud, Haya Al Jami, Jahangir Iqbal, Ali Al Qarni, Naif Khalaf Al Harbi, Ahmed Bakillah. Thapsigargin and Tunicamycin Block SARS-CoV-2 Entry into Host Cells via Differential Modulation of Unfolded Protein Response (UPR), AKT Signaling, and Apoptosis.
Cells.
2024 Apr; 13(9):. doi:
10.3390/cells13090769
. [PMID: 38727305] - Huan Zhang, Chao Yang, Songjiao Wang, Aohong Xu, Qian Zhang, Xiuqun Duan, Guofu Gong, Yuxue Wang. Overexpression of salusin‑α upregulates AdipoR2 and activates the PPARα/ApoA5/SREBP‑1c pathway to inhibit lipid synthesis in HepG2 cells.
International journal of molecular medicine.
2023 May; 51(5):. doi:
10.3892/ijmm.2023.5244
. [PMID: 37026514] - Maria H Jäntti, Shelley N Jackson, Jeffrey Kuhn, Ilmari Parkkinen, Sreesha Sree, Joshua J Hinkle, Eija Jokitalo, Leesa J Deterding, Brandon K Harvey. Palmitate and thapsigargin have contrasting effects on ER membrane lipid composition and ER proteostasis in neuronal cells.
Biochimica et biophysica acta. Molecular and cell biology of lipids.
2022 11; 1867(11):159219. doi:
10.1016/j.bbalip.2022.159219
. [PMID: 35981704] - Mohammed Samer Shaban, Christin Mayr-Buro, Johanna Meier-Soelch, Benadict Vincent Albert, M Lienhard Schmitz, John Ziebuhr, Michael Kracht. Thapsigargin: key to new host-directed coronavirus antivirals?.
Trends in pharmacological sciences.
2022 Jul; 43(7):557-568. doi:
10.1016/j.tips.2022.04.004
. [PMID: 35534355] - Hassan O J Morad, Suaib Luqman, Larissa Garcia Pinto, Kevin P Cunningham, Bruno Vilar, Georgia Clayton, Manu Shankar-Hari, Peter A McNaughton. Artemisinin inhibits neutrophil and macrophage chemotaxis, cytokine production and NET release.
Scientific reports.
2022 06; 12(1):11078. doi:
10.1038/s41598-022-15214-6
. [PMID: 35773325] - Atousa Khalatbari, Zahra Aghazadeh, Cheng Ji. Adverse Effects of Anti-Covid-19 Drug Candidates and Alcohol on Cellular Stress Responses of Hepatocytes.
Hepatology communications.
2022 06; 6(6):1262-1277. doi:
10.1002/hep4.1887
. [PMID: 34910385] - Duygu Elif Yilmaz, Karin Kirschner, Hasan Demirci, Nina Himmerkus, Sebastian Bachmann, Kerim Mutig. Immunosuppressive calcineurin inhibitor cyclosporine A induces proapoptotic endoplasmic reticulum stress in renal tubular cells.
The Journal of biological chemistry.
2022 03; 298(3):101589. doi:
10.1016/j.jbc.2022.101589
. [PMID: 35033536] - Eric D Deihl, Luke T Jesikiewicz, Logan J Newman, Peng Liu, Kay M Brummond. Rh(I)-Catalyzed Allenic Pauson-Khand Reaction to Access the Thapsigargin Core: Influence of Furan and Allenyl Chloroacetate Groups on Enantioselectivity.
Organic letters.
2022 02; 24(4):995-999. doi:
10.1021/acs.orglett.1c03951
. [PMID: 35081313] - Wing-Kee Lee, Michelle Maaß, Amy Quach, Nataliya Poscic, Holly Prangley, Erin-Claire Pallott, Jiyoon L Kim, Jason S Pierce, Besim Ogretmen, Anthony H Futerman, Frank Thévenod. Dependence of ABCB1 transporter expression and function on distinct sphingolipids generated by ceramide synthases-2 and -6 in chemoresistant renal cancer.
The Journal of biological chemistry.
2022 02; 298(2):101492. doi:
10.1016/j.jbc.2021.101492
. [PMID: 34915026] - Min Yao, Gan Li, Long-Yun Zhou, Zhong Zheng, Yue-Li Sun, Shu-Fen Liu, Yong-Jun Wang, Xue-Jun Cui. Shikonin inhibits neuronal apoptosis via regulating endoplasmic reticulum stress in the rat model of double-level chronic cervical cord compression.
Cell biology and toxicology.
2022 Jan; ?(?):. doi:
10.1007/s10565-021-09648-3
. [PMID: 35028790] - Sarah Al-Beltagi, Leah V Goulding, Daniel K E Chang, Kenneth H Mellits, Christopher J Hayes, Pavel Gershkovich, Christopher M Coleman, Kin-Chow Chang. Emergent SARS-CoV-2 variants: comparative replication dynamics and high sensitivity to thapsigargin.
Virulence.
2021 12; 12(1):2946-2956. doi:
10.1080/21505594.2021.2006960
. [PMID: 34793280] - Kazuhiro Ogi, Tetsuji Takabayashi, Kaori Tomita, Masafumi Sakashita, Taiyo Morikawa, Takahiro Ninomiya, Masayuki Okamoto, Norihiko Narita, Shigeharu Fujieda. ORMDL3 overexpression facilitates FcεRI-mediated transcription of proinflammatory cytokines and thapsigargin-mediated PERK phosphorylation in RBL-2H3 cells.
Immunity, inflammation and disease.
2021 12; 9(4):1394-1405. doi:
10.1002/iid3.489
. [PMID: 34288557] - Anqi Kong, Yao Zhang, Bo Ning, Kongdong Li, Zhen Ren, Shuya Dai, Dongfeng Chen, Yang Zhou, Jie Gu, Haifeng Shi. Cadmium induces triglyceride levels via microsomal triglyceride transfer protein (MTTP) accumulation caused by lysosomal deacidification regulated by endoplasmic reticulum (ER) Ca2+ homeostasis.
Chemico-biological interactions.
2021 Oct; 348(?):109649. doi:
10.1016/j.cbi.2021.109649
. [PMID: 34516972] - Mohammed Samer Shaban, Christin Müller, Christin Mayr-Buro, Hendrik Weiser, Johanna Meier-Soelch, Benadict Vincent Albert, Axel Weber, Uwe Linne, Torsten Hain, Ilya Babayev, Nadja Karl, Nina Hofmann, Stephan Becker, Susanne Herold, M Lienhard Schmitz, John Ziebuhr, Michael Kracht. Multi-level inhibition of coronavirus replication by chemical ER stress.
Nature communications.
2021 09; 12(1):5536. doi:
10.1038/s41467-021-25551-1
. [PMID: 34545074] - Simon Ngao Mule, Vinícius De Morais Gomes, Rosangela A M Wailemann, Janaina Macedo-da-Silva, Livia Rosa-Fernandes, Martin R Larsen, Letícia Labriola, Giuseppe Palmisano. HSPB1 influences mitochondrial respiration in ER-stressed beta cells.
Biochimica et biophysica acta. Proteins and proteomics.
2021 09; 1869(9):140680. doi:
10.1016/j.bbapap.2021.140680
. [PMID: 34051341] - Nanami Goto, Shusaku Shibutani, Noboru Miura, Rie Watanabe, Hiroyuki Iwata. Thapsigargin suppresses alpha 1-acid glycoprotein secretion independently of N-glycosylation and ER stress.
Biochemical and biophysical research communications.
2021 05; 552(?):30-36. doi:
10.1016/j.bbrc.2021.03.017
. [PMID: 33740662] - Chinmayee Das, Manoj K Rout, Willem C Wildering, Mathilakath M Vijayan. Cortisol modulates calcium release-activated calcium channel gating in fish hepatocytes.
Scientific reports.
2021 05; 11(1):9621. doi:
10.1038/s41598-021-88957-3
. [PMID: 33953236] - Jung Woo Han, Woon Heo, Donghyuk Lee, Choeun Kang, Hye-Yeon Kim, Ikhyun Jun, Insuk So, Hyuk Hur, Min Goo Lee, Minkyu Jung, Joo Young Kim. Plasma Membrane Localized GCaMP-MS4A12 by Orai1 Co-Expression Shows Thapsigargin- and Ca2+-Dependent Fluorescence Increases.
Molecules and cells.
2021 Apr; 44(4):223-232. doi:
10.14348/molcells.2021.2031
. [PMID: 33935043] - Pavla Taborska, Dmitry Stakheev, Jirina Bartunkova, Daniel Smrz. Thapsigargin-Stimulated LAD2 Human Mast Cell Line Is a Potent Cellular Adjuvant for the Maturation of Monocyte-Derived Dendritic Cells for Adoptive Cellular Immunotherapy.
International journal of molecular sciences.
2021 Apr; 22(8):. doi:
10.3390/ijms22083978
. [PMID: 33921475] - Julien Allard, Simon Bucher, Julie Massart, Pierre-Jean Ferron, Dounia Le Guillou, Roxane Loyant, Yoann Daniel, Youenn Launay, Nelly Buron, Karima Begriche, Annie Borgne-Sanchez, Bernard Fromenty. Drug-induced hepatic steatosis in absence of severe mitochondrial dysfunction in HepaRG cells: proof of multiple mechanism-based toxicity.
Cell biology and toxicology.
2021 04; 37(2):151-175. doi:
10.1007/s10565-020-09537-1
. [PMID: 32535746] - Sarah Al-Beltagi, Cristian Alexandru Preda, Leah V Goulding, Joe James, Juan Pu, Paul Skinner, Zhimin Jiang, Belinda Lei Wang, Jiayun Yang, Ashley C Banyard, Kenneth H Mellits, Pavel Gershkovich, Christopher J Hayes, Jonathan Nguyen-Van-Tam, Ian H Brown, Jinhua Liu, Kin-Chow Chang. Thapsigargin Is a Broad-Spectrum Inhibitor of Major Human Respiratory Viruses: Coronavirus, Respiratory Syncytial Virus and Influenza A Virus.
Viruses.
2021 02; 13(2):. doi:
10.3390/v13020234
. [PMID: 33546185] - Søren Brøgger Christensen, Henrik Toft Simonsen, Nikolai Engedal, Poul Nissen, Jesper Vuust Møller, Samuel R Denmeade, John T Isaacs. From Plant to Patient: Thapsigargin, a Tool for Understanding Natural Product Chemistry, Total Syntheses, Biosynthesis, Taxonomy, ATPases, Cell Death, and Drug Development.
Progress in the chemistry of organic natural products.
2021; 115(?):59-114. doi:
10.1007/978-3-030-64853-4_2
. [PMID: 33797641] - Noemi Esteras, Franziska Kundel, Giuseppe F Amodeo, Evgeny V Pavlov, David Klenerman, Andrey Y Abramov. Insoluble tau aggregates induce neuronal death through modification of membrane ion conductance, activation of voltage-gated calcium channels and NADPH oxidase.
The FEBS journal.
2021 01; 288(1):127-141. doi:
10.1111/febs.15340
. [PMID: 32338825] - Yulin Ren, A Douglas Kinghorn. Development of Potential Antitumor Agents from the Scaffolds of Plant-Derived Terpenoid Lactones.
Journal of medicinal chemistry.
2020 12; 63(24):15410-15448. doi:
10.1021/acs.jmedchem.0c01449
. [PMID: 33289552] - Tomáš Zimmermann, Pavel Drašar, Silvie Rimpelová, Søren Brøgger Christensen, Vladimir A Khripach, Michal Jurášek. Large Scale Conversion of Trilobolide into the Payload of Mipsagargin: 8-O-(12-Aminododecanoyl)-8-O-Debutanoylthapsigargin.
Biomolecules.
2020 12; 10(12):. doi:
10.3390/biom10121640
. [PMID: 33291419] - A G Gomes Coutinho, E Pinheiro, R Fernandez. The calcium sensing receptor modulates H+-ATPase activity in intercalated cells.
Journal of physiology and pharmacology : an official journal of the Polish Physiological Society.
2020 Dec; 71(6):. doi:
10.26402/jpp.2020.6.09
. [PMID: 33901996] - Yohan Bignon, Virginie Poindessous, Luca Rampoldi, Violette Haldys, Nicolas Pallet. Chemically based transmissible ER stress protocols are unsuitable to study cell-to-cell UPR transmission.
The Biochemical journal.
2020 10; 477(20):4037-4051. doi:
10.1042/bcj20200699
. [PMID: 33016323] - Taiding Wu, Nina Yin, Xiaoyun Chen, Hao Huang, Yanhong Liao. Functional coupling between BKCa and SOC channels.
Tissue & cell.
2020 Oct; 66(?):101394. doi:
10.1016/j.tice.2020.101394
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Toxicology and applied pharmacology.
2020 07; 399(?):115036. doi:
10.1016/j.taap.2020.115036
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Journal of molecular cell biology.
2020 07; 12(7):499-514. doi:
10.1093/jmcb/mjaa005
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International journal of molecular sciences.
2020 Jun; 21(11):. doi:
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Cell death & disease.
2020 05; 11(5):388. doi:
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Scientific reports.
2020 04; 10(1):6812. doi:
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ACS chemical biology.
2020 02; 15(2):543-553. doi:
10.1021/acschembio.9b01014
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Scientific reports.
2020 02; 10(1):2649. doi:
10.1038/s41598-020-59565-4
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Molecules (Basel, Switzerland).
2020 Jan; 25(3):. doi:
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Cells.
2020 01; 9(1):. doi:
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Diabetologia.
2020 01; 63(1):162-178. doi:
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The American journal of Chinese medicine.
2020; 48(6):1435-1454. doi:
10.1142/s0192415x20500706
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ACS sensors.
2019 11; 4(11):2858-2863. doi:
10.1021/acssensors.9b00568
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Proceedings of the National Academy of Sciences of the United States of America.
2019 11; 116(47):23671-23681. doi:
10.1073/pnas.1910097116
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Aging.
2019 11; 11(21):9875-9892. doi:
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Molecules (Basel, Switzerland).
2019 Nov; 24(21):. doi:
10.3390/molecules24213961
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Physical chemistry chemical physics : PCCP.
2019 Oct; 21(39):21991-21995. doi:
10.1039/c9cp04736k
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The Journal of general physiology.
2019 09; 151(9):1094-1115. doi:
10.1085/jgp.201912351
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Scientific reports.
2019 08; 9(1):12403. doi:
10.1038/s41598-019-48716-x
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The Journal of biological chemistry.
2019 05; 294(22):9007-9015. doi:
10.1074/jbc.ra119.007997
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Cell calcium.
2019 05; 79(?):68-74. doi:
10.1016/j.ceca.2019.02.008
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Archives of toxicology.
2019 04; 93(4):965-986. doi:
10.1007/s00204-019-02415-8
. [PMID: 30796460] - Chi Teng Vong, Hisa Hui Ling Tseng, Yiu Wa Kwan, Simon Ming-Yuen Lee, Maggie Pui Man Hoi. Novel protective effect of O-1602 and abnormal cannabidiol, GPR55 agonists, on ER stress-induced apoptosis in pancreatic β-cells.
Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.
2019 Mar; 111(?):1176-1186. doi:
10.1016/j.biopha.2018.12.126
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FASEB journal : official publication of the Federation of American Societies for Experimental Biology.
2019 02; 33(2):2669-2679. doi:
10.1096/fj.201800387r
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Drug design, development and therapy.
2019; 13(?):2787-2798. doi:
10.2147/dddt.s209947
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Cellular signalling.
2019 01; 53(?):140-150. doi:
10.1016/j.cellsig.2018.10.003
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Cell reports.
2018 11; 25(7):1829-1840.e6. doi:
10.1016/j.celrep.2018.10.055
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Oncology reports.
2018 Nov; 40(5):2674-2682. doi:
10.3892/or.2018.6664
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Disease models & mechanisms.
2018 09; 11(9):. doi:
10.1242/dmm.033530
. [PMID: 30254132] - Mingjuan Yan, Shaoqun Shu, Chunyuan Guo, Chengyuan Tang, Zheng Dong. Endoplasmic reticulum stress in ischemic and nephrotoxic acute kidney injury.
Annals of medicine.
2018 08; 50(5):381-390. doi:
10.1080/07853890.2018.1489142
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The Journal of biological chemistry.
2018 03; 293(11):3981-3988. doi:
10.1074/jbc.ra117.000885
. [PMID: 29414781] - Feixue Li, Huihui Ma, Jing Liu. Pyrethroid Insecticide Cypermethrin Modulates Gonadotropin Synthesis via Calcium Homeostasis and ERK1/2 Signaling in LβT2 Mouse Pituitary Cells.
Toxicological sciences : an official journal of the Society of Toxicology.
2018 03; 162(1):43-52. doi:
10.1093/toxsci/kfx248
. [PMID: 29149324] - Jonas Sieber, Nicolas Wieder, Abbe Clark, Manuel Reitberger, Sofia Matan, Jeannine Schoenfelder, Jianming Zhang, Anna Mandinova, Joshua Adam Bittker, Juan Gutierrez, Ozan Aygün, Namrata Udeshi, Steven Carr, Peter Mundel, Andreas Werner Jehle, Anna Greka. GDC-0879, a BRAFV600E Inhibitor, Protects Kidney Podocytes from Death.
Cell chemical biology.
2018 02; 25(2):175-184.e4. doi:
10.1016/j.chembiol.2017.11.006
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Chemico-biological interactions.
2018 Jan; 279(?):43-50. doi:
10.1016/j.cbi.2017.11.002
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The Journal of experimental medicine.
2018 01; 215(1):197-216. doi:
10.1084/jem.20151778
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Nutrition research (New York, N.Y.).
2018 01; 49(?):88-95. doi:
10.1016/j.nutres.2017.10.016
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Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry, and pharmacology.
2018; 51(1):278-289. doi:
10.1159/000495229
. [PMID: 30453283] - Keimin Lee, Yoon-Jung Kim, Yoon Young Cho, Sungkwon Chung, Su-Hyun Jo, Se-Young Choi. Polychlorinated biphenyl 19 blocks the most common form of store-operated Ca2+ entry through Orai.
Naunyn-Schmiedeberg's archives of pharmacology.
2017 Dec; 390(12):1221-1228. doi:
10.1007/s00210-017-1420-1
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The Journal of biological chemistry.
2017 10; 292(43):17897-17908. doi:
10.1074/jbc.m117.803775
. [PMID: 28887310] - Nilanjan Dey, Asfa Ali, Santosh Podder, Shamik Majumdar, Dipankar Nandi, Santanu Bhattacharya. Dual-Mode Optical Sensing of Histamine at Nanomolar Concentrations in Complex Biological Fluids and Living Cells.
Chemistry (Weinheim an der Bergstrasse, Germany).
2017 Sep; 23(49):11891-11897. doi:
10.1002/chem.201702208
. [PMID: 28618014] - Hyun Jung Kim, Guem San Lee, Hyungwoo Kim, Byung Joo Kim. Hwangryunhaedok-tang induces the depolarization of pacemaker potentials through 5-HT3 and 5-HT4 receptors in cultured murine small intestine interstitial cells of Cajal.
World journal of gastroenterology.
2017 Aug; 23(29):5313-5323. doi:
10.3748/wjg.v23.i29.5313
. [PMID: 28839431] - E Chiappisi, R Ringseis, K Eder, D K Gessner. Effect of endoplasmic reticulum stress on metabolic and stress signaling and kidney-specific functions in Madin-Darby bovine kidney cells.
Journal of dairy science.
2017 Aug; 100(8):6689-6706. doi:
10.3168/jds.2016-12406
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Toxicology.
2017 05; 383(?):13-23. doi:
10.1016/j.tox.2017.03.016
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Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.
2017 May; 89(?):1286-1296. doi:
10.1016/j.biopha.2017.03.023
. [PMID: 28320096] - Tara P Chambers, Luis Santiesteban, David Gomez, Jeremy W Chambers. Sab mediates mitochondrial dysfunction involved in imatinib mesylate-induced cardiotoxicity.
Toxicology.
2017 05; 382(?):24-35. doi:
10.1016/j.tox.2017.03.006
. [PMID: 28315715] - Peter V Minorsky. On the Inside.
Plant physiology.
2017 May; 174(1):1-2. doi:
10.1104/pp.17.00492
. [PMID: 28461397] - Trine Bundgaard Andersen, Karen Agatha Martinez-Swatson, Silas Anselm Rasmussen, Berin Alain Boughton, Kirsten Jørgensen, Johan Andersen-Ranberg, Nils Nyberg, Søren Brøgger Christensen, Henrik Toft Simonsen. Localization and in-Vivo Characterization of Thapsia garganica CYP76AE2 Indicates a Role in Thapsigargin Biosynthesis.
Plant physiology.
2017 May; 174(1):56-72. doi:
10.1104/pp.16.00055
. [PMID: 28275147] - Chandak Upagupta, Rachel E Carlisle, Jeffrey G Dickhout. Analysis of the potency of various low molecular weight chemical chaperones to prevent protein aggregation.
Biochemical and biophysical research communications.
2017 04; 486(1):163-170. doi:
10.1016/j.bbrc.2017.03.019
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Chemical biology & drug design.
2017 04; 89(4):514-528. doi:
10.1111/cbdd.12874
. [PMID: 27717142] - Sarah E Kobylewski, Kimberly A Henderson, Kristin E Yamada, Curtis D Eckhert. Activation of the EIF2α/ATF4 and ATF6 Pathways in DU-145 Cells by Boric Acid at the Concentration Reported in Men at the US Mean Boron Intake.
Biological trace element research.
2017 Apr; 176(2):278-293. doi:
10.1007/s12011-016-0824-y
. [PMID: 27587023] - Lingaku Lee, Tetsuhide Ito, Taichi Nakamura, Robert T Jensen, Hisato Igarashi, Ryoichi Takayanagi. Antifibrotic Effect of Saturated Fatty Acids via Endoplasmic Reticulum Stress Response in Rat Pancreatic Stellate Cells.
Pancreas.
2017 03; 46(3):385-394. doi:
10.1097/mpa.0000000000000757
. [PMID: 28099257] - Z I Krutetskaya, L S Milenina, A A Naumova, S N Butov, V G Antonov, A D Nozdrachev. Methyl-β-cyclodextrin modulates thapsigargin-induced store-dependent Ca2+ entry in macrophages.
Doklady. Biochemistry and biophysics.
2017 Mar; 473(1):88-90. doi:
10.1134/s1607672917020028
. [PMID: 28510132] - Alex Gutterres Taranto, Sônia Carine Cova Costa, Franco Henrique Andrade Leite, Matheus Santos de Sá, Milena Botelho Pereira Soares, Miriam Moreira Mussi, Alexsandro Branco. Caffeoylquinic acids from antiplasmodial active extract of Xanthium cavanillesii fruits and their molecular modelling studies.
Natural product research.
2017 Mar; 31(6):729-733. doi:
10.1080/14786419.2016.1219856
. [PMID: 27686750] - Nozomi Takahashi, Miyuki Harada, Yasushi Hirota, Lin Zhao, Jerilee M K Azhary, Osamu Yoshino, Gentaro Izumi, Tetsuya Hirata, Kaori Koga, Osamu Wada-Hiraike, Tomoyuki Fujii, Yutaka Osuga. A Potential Role for Endoplasmic Reticulum Stress in Progesterone Deficiency in Obese Women.
Endocrinology.
2017 01; 158(1):84-97. doi:
10.1210/en.2016-1511
. [PMID: 27886513] - Thomas S Weiss, Madeleine Lupke, Sara Ibrahim, Christa Buechler, Julia Lorenz, Petra Ruemmele, Ute Hofmann, Michael Melter, Rania Dayoub. Attenuated lipotoxicity and apoptosis is linked to exogenous and endogenous augmenter of liver regeneration by different pathways.
PloS one.
2017; 12(9):e0184282. doi:
10.1371/journal.pone.0184282
. [PMID: 28877220] - Daniel R Beriault, Vi T Dang, Lexy H Zhong, Christina I Petlura, Cameron S McAlpine, Yuanyuan Shi, Geoff H Werstuck. Glucosamine induces ER stress by disrupting lipid-linked oligosaccharide biosynthesis and N-linked protein glycosylation.
American journal of physiology. Endocrinology and metabolism.
2017 01; 312(1):E48-E57. doi:
10.1152/ajpendo.00275.2016
. [PMID: 27879249] - Tengfei Bian, Joseph M Autry, Denise Casemore, Ji Li, David D Thomas, Gaohong He, Chengguo Xing. Direct detection of SERCA calcium transport and small-molecule inhibition in giant unilamellar vesicles.
Biochemical and biophysical research communications.
2016 Dec; 481(3-4):206-211. doi:
10.1016/j.bbrc.2016.10.096
. [PMID: 27815070] - Lijuan Zhang, Lina Wang, Run Wang, Yonghua Pan, Yuan Gao, Peng Fu. Protective effects of GTM-1 on endoplasmic reticulum stress induced by thapsgargin in rat neurons.
Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.
2016 Dec; 84(?):821-827. doi:
10.1016/j.biopha.2016.09.050
. [PMID: 27723573] - Yongzhong Zhao, Shuvojit Banerjee, Ping Huang, Xinning Wang, Candece L Gladson, Warren D Heston, Charles B Foster. Selenoprotein P neutralizes lipopolysaccharide and participates in hepatic cell endoplasmic reticulum stress response.
FEBS letters.
2016 Dec; 590(24):4519-4530. doi:
10.1002/1873-3468.12494
. [PMID: 27859223] - Bogeon Yun, HeeJung Lee, Heather Ewing, Michael H Gelb, Christina C Leslie. Off-target effect of the cPLA2α inhibitor pyrrophenone: Inhibition of calcium release from the endoplasmic reticulum.
Biochemical and biophysical research communications.
2016 10; 479(1):61-6. doi:
10.1016/j.bbrc.2016.09.033
. [PMID: 27620490] - Kayleen Vannuvel, Martine Van Steenbrugge, Catherine Demazy, Noëlle Ninane, Antoine Fattaccioli, Maude Fransolet, Patricia Renard, Martine Raes, Thierry Arnould. Effects of a Sublethal and Transient Stress of the Endoplasmic Reticulum on the Mitochondrial Population.
Journal of cellular physiology.
2016 09; 231(9):1913-31. doi:
10.1002/jcp.25292
. [PMID: 26680008] - Lauren A Biwer, Evan P Taddeo, Brandon M Kenwood, Kyle L Hoehn, Adam C Straub, Brant E Isakson. Two functionally distinct pools of eNOS in endothelium are facilitated by myoendothelial junction lipid composition.
Biochimica et biophysica acta.
2016 Jul; 1861(7):671-9. doi:
10.1016/j.bbalip.2016.04.014
. [PMID: 27106139] - Pedro Chacón-Fernández, Katharina Säuberli, Maria Colzani, Thomas Moreau, Cedric Ghevaert, Yves-Alain Barde. Brain-derived Neurotrophic Factor in Megakaryocytes.
The Journal of biological chemistry.
2016 May; 291(19):9872-81. doi:
10.1074/jbc.m116.720029
. [PMID: 27006395] - Tomofumi Nakayama, Noriko Saitoh, Keiko Morotomi-Yano, Ken-Ichi Yano, Mitsuyoshi Nakao, Hisato Saitoh. Nuclear extrusion precedes discharge of genomic DNA fibers during tunicamycin-induced neutrophil extracellular trap-osis (NETosis)-like cell death in cultured human leukemia cells.
Cell biology international.
2016 May; 40(5):597-602. doi:
10.1002/cbin.10594
. [PMID: 26888435] - Xiujie Liang, Na Duan, Yue Wang, Shuangshuang Shu, Xiaohong Xiang, Tingting Guo, Lei Yang, Shaojie Zhang, Xun Tang, Jun Zhang. Advanced oxidation protein products induce endothelial-to-mesenchymal transition in human renal glomerular endothelial cells through induction of endoplasmic reticulum stress.
Journal of diabetes and its complications.
2016 May; 30(4):573-9. doi:
10.1016/j.jdiacomp.2016.01.009
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British journal of cancer.
2016 Apr; 114(9):986-94. doi:
10.1038/bjc.2016.72
. [PMID: 27115568] - Bao Hoang, Yijiang Shi, Patrick J Frost, Veena Mysore, Carolyne Bardeleben, Alan Lichtenstein. SGK Kinase Activity in Multiple Myeloma Cells Protects against ER Stress Apoptosis via a SEK-Dependent Mechanism.
Molecular cancer research : MCR.
2016 Apr; 14(4):397-407. doi:
10.1158/1541-7786.mcr-15-0422
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Molecular neurobiology.
2016 Mar; 53(2):983-994. doi:
10.1007/s12035-014-9039-4
. [PMID: 25575678] - Chang-Xiang Shi, Ming-Xia Zhao, Xiao-Dong Shu, Xiao-Qing Xiong, Jue-Jin Wang, Xing-Ya Gao, Qi Chen, Yue-Hua Li, Yu-Ming Kang, Guo-Qing Zhu. β-aminoisobutyric acid attenuates hepatic endoplasmic reticulum stress and glucose/lipid metabolic disturbance in mice with type 2 diabetes.
Scientific reports.
2016 Feb; 6(?):21924. doi:
10.1038/srep21924
. [PMID: 26907958] - T B Vasconcelos, H V Ribeiro-Filho, L T Lucetti, P J C Magalhães. β-Citronellol, an alcoholic monoterpene with inhibitory properties on the contractility of rat trachea.
Brazilian journal of medical and biological research = Revista brasileira de pesquisas medicas e biologicas.
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