참고문헌 (47)

1. Gu, Z.-M., Zhou, D., Wu, J., Shi, G., Zeng, L., McLaughlin, J. L.. Screening for Annonaceous Acetogenins in Bioactive Plant Extracts by Liquid Chromatography/Mass Spectrometry. Journal of natural products, vol.60, no.3, 242-248.

   상세보기

2. Carmen Zafra-Polo, M., Figadère, Bruno, Gallardo, Teresa, Tormo, JoséR., Cortes, Diego. Natural acetogenins from annonaceae, synthesis and mechanisms of action. Phytochemistry, vol.48, no.7, 1087-1117.

   상세보기

3. Bermejo, Almudena, Figadère, Bruno, Zafra-Polo, Maria-Carmen, Barrachina, Isabel, Estornell, Ernesto, Cortes, Diego. Acetogenins from Annonaceae: recent progress in isolation, synthesis and mechanisms of action. Natural product reports : a journal of current developments in bio-organic chemistry, vol.22, no.2, 269-303.

   상세보기

4. Miyoshi, Hideto, Ohshima, Michiyo, Shimada, Hiroko, Akagi, Toshio, Iwamura, Hajime, McLaughlin, Jerry L.. Essential structural factors of annonaceous acetogenins as potent inhibitors of mitochondrial complex I. Biochimica et biophysica acta, Bioenergetics, vol.1365, no.3, 443-452.

   상세보기

5. Lannuzel, A, Michel, P.P, Höglinger, G.U, Champy, P, Jousset, A, Medja, F, Lombès, A, Darios, F, Gleye, C, Laurens, A, Hocquemiller, R, Hirsch, E.C, Ruberg, M. The mitochondrial complex i inhibitor annonacin is toxic to mesencephalic dopaminergic neurons by impairment of energy metabolism. Neuroscience, vol.121, no.2, 287-296.

   상세보기

6. Helley, Martin P., Pinnell, Jennifer, Sportelli, Carolina, Tieu, Kim. Mitochondria: A Common Target for Genetic Mutations and Environmental Toxicants in Parkinson’s Disease. Frontiers in genetics, vol.8, 177-.

   상세보기

7. McLaughlin, Jerry L.. Paw Paw and Cancer: Annonaceous Acetogenins from Discovery to Commercial Products. Journal of natural products, vol.71, no.7, 1311-1321.

   상세보기

8. Pomper, Kirk W., Lowe, Jeremiah D., Crabtree, Sheri B., Keller, William. Identification of Annonaceous Acetogenins in the Ripe Fruit of the North American Pawpaw (Asimina triloba). Journal of agricultural and food chemistry, vol.57, no.18, 8339-8343.

   상세보기

9. Champy, Pierre, Höglinger, Günter U., Féger, Jean, Gleye, Christophe, Hocquemiller, Reynald, Laurens, Alain, Guérineau, Vincent, Laprévote, Olivier, Medja, Fadia, Lombès, Anne, Michel, Patrick P., Lannuzel, Annie, Hirsch, Etienne C., Ruberg, Merle. Annonacin, a lipophilic inhibitor of mitochondrial complex I, induces nigral and striatal neurodegeneration in rats: possible relevance for atypical parkinsonism in Guadeloupe. Journal of neurochemistry, vol.88, no.1, 63-69.

   상세보기

10. Escobar-Khondiker, Myriam, Höllerhage, Matthias, Muriel, Marie-Paule, Champy, Pierre, Bach, Antoine, Depienne, Christel, Respondek, Gesine, Yamada, Elizabeth S., Lannuzel, Annie, Yagi, Takao, Hirsch, Etienne C., Oertel, Wolfgang H., Jacob, Ralf, Michel, Patrick P., Ruberg, Merle, Höglinger, Günter U.. Annonacin, a Natural Mitochondrial Complex I Inhibitor, Causes Tau Pathology in Cultured Neurons. The Journal of neuroscience : the official journal of the Society for Neuroscience, vol.27, no.29, 7827-7837.

    상세보기

11. Hollerhage, M., Matusch, A., Champy, P., Lombes, A., Ruberg, M., Oertel, W.H., Hoglinger, G.U.. Natural lipophilic inhibitors of mitochondrial complex I are candidate toxins for sporadic neurodegenerative tau pathologies. Experimental neurology, vol.220, no.1, 133-142.

    상세보기

12. Yamada, E.S., Respondek, G., Mussner, S., de Andrade, A., Hollerhage, M., Depienne, C., Rastetter, A., Tarze, A., Friguet, B., Salama, M., Champy, P., Oertel, W.H., Hoglinger, G.U.. Annonacin, a natural lipophilic mitochondrial complex I inhibitor, increases phosphorylation of tau in the brain of FTDP-17 transgenic mice. Experimental neurology, vol.253, 113-125.

    상세보기

13. Bonneau, N., Schmitz-Afonso, I., Brunelle, A., Touboul, D., Champy, P.. Method development for quantification of the environmental neurotoxin annonacin in Rat plasma by UPLC-MS/MS and application to a pharmacokinetic study. Journal of chromatography. B, Analytical technologies in the biomedical and life sciences, vol.1004, 46-52.

    상세보기

14. Potts, L.F., Luzzio, F.A., Smith, S.C., Hetman, M., Champy, P., Litvan, I.. Annonacin in Asimina triloba fruit: Implication for neurotoxicity. Neurotoxicology, vol.33, no.1, 53-58.

    상세보기

15. Coothankandaswamy, Veena, Liu, Yang, Mao, Shui-Chun, Morgan, J. Brian, Mahdi, Fakhri, Jekabsons, Mika B., Nagle, Dale G., Zhou, Yu-Dong. The Alternative Medicine Pawpaw and Its Acetogenin Constituents Suppress Tumor Angiogenesis via the HIF-1/VEGF Pathway. Journal of natural products, vol.73, no.5, 956-961.

    상세보기

16. Lab. Invest. Nicosia R. F. 115 63 1990 

    상세보기

17. Karimov, Rashad R., Sharma, Ankit, Hartwig, John F.. Late Stage Azidation of Complex Molecules. ACS central science, vol.2, no.10, 715-724.

    상세보기

18. Gehringer, Matthias, Laufer, Stefan A.. Click Chemistry: Novel Applications in Cell Biology and Drug Discovery. Angewandte Chemie. international edition, vol.56, no.49, 15504-15505.

    상세보기

19. Tulloch, Lindsay B., Menzies, Stefanie K., Fraser, Andrew L., Gould, Eoin R., King, Elizabeth F., Zacharova, Marija K., Florence, Gordon J., Smith, Terry K.. Photo-affinity labelling and biochemical analyses identify the target of trypanocidal simplified natural product analogues. PLoS neglected tropical diseases, vol.11, no.9, e0005886-.

    상세보기

20. 10.1007/978-3-211-45295-0_24 

    

21. Bonneau, N., Schmitz-Afonso, I., Brunelle, A., Touboul, D., Champy, P.. Quantification of the environmental neurotoxin annonacin in Rat brain by UPLC-MS/MS. Toxicon, vol.118, 129-133.

    상세보기

22. Monaghan-Benson, E., Wittchen, E.S.. In Vitro Analyses of Endothelial Cell Permeability. Methods in molecular biology, vol.763, 281-290.

    상세보기

23. Ottaviani, G., Martel, S., Carrupt, P.-A.. Parallel Artificial Membrane Permeability Assay: A New Membrane for the Fast Prediction of Passive Human Skin Permeability. Journal of medicinal chemistry, vol.49, no.13, 3948-3954.

    상세보기

24. Malakoutikhah, Morteza, Teixidó, Meritxell, Giralt, Ernest. Toward an Optimal Blood−Brain Barrier Shuttle by Synthesis and Evaluation of Peptide Libraries. Journal of medicinal chemistry, vol.51, no.16, 4881-4889.

    상세보기

25. Maalej, E., Chabchoub, F., Oset-Gasque, M.J., Esquivias-Perez, M., Gonzalez, M.P., Monjas, L., Perez, C., de los Rios, C., Rodriguez-Franco, M.I., Iriepa, I., Moraleda, I., Chioua, M., Romero, A., Marco-Contelles, J., Samadi, A.. Synthesis, biological assessment, and molecular modeling of racemic 7-aryl-9,10,11,12-tetrahydro-7H-benzo[7,8]chromeno[2,3-b]quinolin-8-amines as potential drugs for the treatment of Alzheimer's disease. European journal of medicinal chemistry, vol.54, 750-763.

    상세보기

26. Campbell, Scott D., Regina, Karen J., Kharasch, Evan D.. Significance of Lipid Composition in a Blood-Brain Barrier–Mimetic PAMPA Assay. Journal of biomolecular screening : the official journal of the Society for Biomolecular Screening, vol.19, no.3, 437-444.

    상세보기

27. Furukawa, Akihiro, Townsend, Chad E., Schwochert, Joshua, Pye, Cameron R., Bednarek, Maria A., Lokey, R. Scott. Passive Membrane Permeability in Cyclic Peptomer Scaffolds Is Robust to Extensive Variation in Side Chain Functionality and Backbone Geometry. Journal of medicinal chemistry, vol.59, no.20, 9503-9512.

    상세보기

28. Elkamhawy, Ahmed, Park, Jung-eun, Hassan, Ahmed H.E., Ra, Hyunhwa, Pae, Ae Nim, Lee, Jiyoun, Park, Beoung-Geon, Moon, Bongjin, Park, Hyun-Mee, Roh, Eun Joo. Discovery of 1-(3-(benzyloxy)pyridin-2-yl)-3-(2-(piperazin-1-yl)ethyl)urea: A new modulator for amyloid beta-induced mitochondrial dysfunction. European journal of medicinal chemistry, vol.128, 56-69.

    상세보기

29. Freese, C., Hanada, S., Fallier-Becker, P., Kirkpatrick, C.J., Unger, R.E.. Identification of neuronal and angiogenic growth factors in an in vitro blood-brain barrier model system: Relevance in barrier integrity and tight junction formation and complexity. Microvascular research, vol.111, 1-11.

    상세보기

30. Garegg, Per J., Samuelsson, Bertil. Novel reagent system for converting a hydroxy-group into an iodo-group in carbohydrates with inversion of configuration. Journal of the Chemical Society, Chemical communications, vol.1979, no.22, 978-980.

    상세보기

31. Garegg, Per J., Johansson, Rolf, Ortega, Carmen, Samuelsson, Bertil. Novel reagent system for converting a hydroxy-group into an iodogroup in carbohydrates with inversion of configuration. Part 3. Journal of the Chemical Society. Perkin transactions I, vol.1982, 681-683.

    상세보기

32. Blacher, Silvia; Devy, Laetitia etc. "Improved quantification of angiogenesis in the rat aortic ring assay." Angiogenesis, v.4 no.2 (2001), pp. 133-142, doi:10.1023/A:1012251229631.

    

33. Kruger, Erwin A, Figg, William D. TNP-470: an angiogenesis inhibitor in clinical development for cancer. Expert opinion on investigational drugs, vol.9, no.6, 1383-1396.

    상세보기

34. Wilhelm, Scott M., Adnane, Lila, Newell, Philippa, Villanueva, Augusto, Llovet, Josep M., Lynch, Mark. Preclinical overview of sorafenib, a multikinase inhibitor that targets both Raf and VEGF and PDGF receptor tyrosine kinase signaling. Molecular cancer therapeutics, vol.7, no.10, 3129-3140.

    상세보기

35. Chojnacki, Jeremy E., Liu, Kai, Yan, Xing, Toldo, Stefano, Selden, Tyler, Estrada, Martin, Rodríguez-Franco, María Isabel, Halquist, Matthew S., Ye, Dexian, Zhang, Shijun. Discovery of 5-(4-Hydroxyphenyl)-3-oxo-pentanoic Acid [2-(5-Methoxy-1H-indol-3-yl)-ethyl]-amide as a Neuroprotectant for Alzheimer’s Disease by Hybridization of Curcumin and Melatonin. ACS chemical neuroscience, vol.5, no.8, 690-699.

    상세보기

36. Green, Douglas R., Reed, John C.. Mitochondria and Apoptosis. Science, vol.281, no.5381, 1309-1312.

    상세보기

37. Mattson, Mark P.. Apoptosis in neurodegenerative disorders. Nature reviews. Molecular cell biology, vol.1, no.2, 120-130.

    상세보기

38. Mattson, Mark P., Kroemer, Guido. Mitochondria in cell death: novel targets for neuroprotection and cardioprotection. Trends in molecular medicine, vol.9, no.5, 196-205.

    상세보기

39. Kroemer, Guido, Galluzzi, Lorenzo, Brenner, Catherine. Mitochondrial Membrane Permeabilization in Cell Death. Physiological reviews, vol.87, no.1, 99-163.

    상세보기

40. Kann, Oliver, Kovács, Richard. Mitochondria and neuronal activity. American journal of physiology. Cell physiology, vol.292, no.2, C641-C657.

    상세보기

41. Li, Nianyu, Ragheb, Kathy, Lawler, Gretchen, Sturgis, Jennie, Rajwa, Bartek, Melendez, J. Andres, Robinson, J. Paul. Mitochondrial Complex I Inhibitor Rotenone Induces Apoptosis through Enhancing Mitochondrial Reactive Oxygen Species Production. The Journal of biological chemistry, vol.278, no.10, 8516-8525.

    상세보기

42. Castello, Pablo R., Drechsel, Derek A., Patel, Manisha. Mitochondria Are a Major Source of Paraquat-induced Reactive Oxygen Species Production in the Brain. The Journal of biological chemistry, vol.282, no.19, 14186-14193.

    상세보기

43. Kerns, Edward H., Di, Li, Petusky, Susan, Farris, Michele, Ley, Rob, Jupp, Phil. Combined application of parallel artificial membrane permeability assay and Caco-2 permeability assays in drug discovery. Journal of pharmaceutical sciences : a publication of the American Pharmaceutical Association, vol.93, no.6, 1440-1453.

    상세보기

44. Di, Li, Kerns, Edward H, Fan, Kristi, McConnell, Oliver J, Carter, Guy T. High throughput artificial membrane permeability assay for blood–brain barrier. European journal of medicinal chemistry, vol.38, no.3, 223-232.

    상세보기

45. Vucicevic, J., Nikolic, K., Dobricic, V., Agbaba, D.. Prediction of blood-brain barrier permeation of α-adrenergic and imidazoline receptor ligands using PAMPA technique and quantitative-structure permeability relationship analysis. European journal of pharmaceutical sciences, vol.68, 94-105.

    상세보기

46. Houdai, Toshihiro, Matsuoka, Shigeru, Matsumori, Nobuaki, Murata, Michio. Membrane-permeabilizing activities of amphidinol 3, polyene-polyhydroxy antifungal from a marine dinoflagellate. Biochimica et biophysica acta, Biomembranes, vol.1667, no.1, 91-100.

    상세보기

47. Ehrhardt, Carsten, Kneuer, Carsten, Bies, Christiane, Lehr, Claus-Michael, Kim, Kwang-Jin, Bakowsky, Udo. Salbutamol is actively absorbed across human bronchial epithelial cell layers. Pulmonary pharmacology & therapeutics, vol.18, no.3, 165-170.

    상세보기