Advanced search
Publication Cover
Pharmaceutical Biology Volume 52, 2014 - Issue 10
Submit an article Journal homepage
1,180
Views
17
CrossRef citations to date
0
Altmetric
Research Article

Inhibitory effects of the ethyl acetate extract from bulbs of Scilla scilloides on lipoxygenase and hyaluronidase activities

Youichirou NishidaDepartment of Bioscience, School of Agriculture, Tokai University Kawayo, Minamiaso, Aso, KumamotoJapan;Research and Development Division, Aso Pharmaceutical Co., Ltd. Kikuyo, Kikuchi, KumamotoJapan
,
Shintaro SugaharaDepartment of Bioscience, School of Agriculture, Tokai University Kawayo, Minamiaso, Aso, KumamotoJapan
,
Kensuke WadaDepartment of Bioscience, School of Agriculture, Tokai University Kawayo, Minamiaso, Aso, KumamotoJapan
,
Daiki ToyohisaDepartment of Bioscience, School of Agriculture, Tokai University Kawayo, Minamiaso, Aso, KumamotoJapan
,
Toshiharu TanakaResearch and Development Division, Aso Pharmaceutical Co., Ltd. Kikuyo, Kikuchi, KumamotoJapan
,
Masateru OnoDepartment of Bioscience, School of Agriculture, Tokai University Kawayo, Minamiaso, Aso, KumamotoJapan
&
Shin YasudaDepartment of Bioscience, School of Agriculture, Tokai University Kawayo, Minamiaso, Aso, KumamotoJapanCorrespondence[email protected]
 show all
Pages 1351-1357 | Received 12 May 2013, Accepted 31 Jan 2014, Published online: 15 Jul 2014

References

  • Anthon GE, Barret DM. (2003). Thermal inactivation of lipoxygenase and hydroperoxytrienoic acid lyase in tomatoes. Food Chem 81:275–9
  • Araki H. (1985). The distribution of diploids and polypoids of the Scilla scilloides complex in Korea. Genetica 66:3–10
  • Aronson NN, Davidson EA. (1967). Lysosomal hyaluronidase from rat liver I. Preparation. J Biol Chem 10:437–40
  • Asada M, Sugie M, Inoue M, et al. (1997). Inhibitory effect of alginic acids on hyaluronidase and on histamine release from mast cells. Biosci Biotechnol Biochem 61:1030–2
  • Bogdan C. (2001). Nitric oxide and the immune response. Nat Immunol 2:907–16
  • Engstrom-Laurent A, Hellstrom S. (1990). The role of liver and kidneys in the removal of circulating hyaluronan. An experimental study in the rat. Connect Tissue Res 24:219–24
  • Ferrara JJ, Reed RK, Dyess DL, et al. (1991). Increased hyaluronan flux from skin following burn injury. J Surg Res 50:240–4
  • Giannaras A, Selig W, Ellis J, Hullinger T. (2005). The effect of a novel, dual function histamine H1 receptor antagonist/5-lipoxygenase enzyme inhibitor on in vivo dermal inflammation and extravasation. Eur J Pharmacol 506:265–71
  • Girish KS, Kemparaju K. (2005a). Inhibition of Naja naja venom hyaluronidase by plant-derived bioactive components and polysaccharides. Biochemistry (Mosc) 70:948–52
  • Gleason JG, Perchonock CD, Torphy T. (1986). Pulmonary and antiallergy agents. Annu Rep Med Chem 21:73–83
  • Guerra F. (1946). Hyaluronidase inhibition by sodium salicylate in rheumatic fever. Science 103:686–7
  • Henderson WR Jr. (1994). The role of leukotrienes in inflammation. Ann Intern Med 121:684–97
  • Horton MR, McKee CM, Bao C, et al. (1998). Hyaluronan fragments synergize with interferon-gamma to induce the C-X-C chemokines mig and interferon-inducible protein-10 in mouse macrophages. J Biol Chem 273:35088–94
  • Kakegawa H, Matsumoto H, Satoh T. (1985). Activation of hyaluronidase by metallic salts and compound 48/80, and inhibitory effect of anti-allergic agents on hyaluronidase. Chem Pharm Bull 33:642–6
  • Kakegawa H, Matsumoto H, Satoh T. (1988). Inhibitory effects of hydrangenol derivatives on the activation of hyaluronidase and their antiallergic activities. Planta Med 54:385–9
  • Komoda T, Kishi M, Abe N, et al. (2004). Novel lipoxygenase inhibitors, tetrapetalone B, C, and D from Streptomyces sp. Biosci Biotechnol Biochem 68:903–8
  • Lee SM, Chun HK, Lee CH, et al. (2002). Eucosterol oligoglycosides isolated from Scilla scilloides and their anti-tumor activity. Chem Pharm Bull 50:1245–9
  • Lewis RA, Austen KF, Soberman RJ. (1990). Leukotrienes and other products of the 5-lipoxygenase pathway. N Engl J Med 323:645–55
  • Ling S-K, Tanaka T, Kouno I. (2003). Effects of iridoids on lipoxygenase and hyaluronidase activities and their activation by β-glucosidase in the presence of amino acids. Biol Pharm Bull 26:352–6
  • Maekawa F. (1944). Prehistoric-naturalized plants to Japan proper. Acta Phytotax Geobot 13:274–9
  • Marcocci L, Maguire JJ, Droy-Lefaix MT, Packer L. (1994). The nitric oxide-scavenging properties of Ginkgo biloba extract EGb 761. Biochem Biophys Res Commun 201:748–55
  • Mikami Y, Nishino H, Ori K, et al. (1994). Lanosterol oligosaccharides from plants of the subfamily Scilloideae and their antitumor-promoter activity. Chem Pharm Bull 42:327–32
  • Mio K, Stern R. (2002). Inhibitors of the hyaluronidases. Matrix Biol 21:31–7
  • Namba T. (1993). The Encyclopedia of Wakan-Yaku. Osaka, Japan: Hoikusha
  • Nathan C. (1992). Nitric oxide as a secretory product of mammalian cells. FASEB J 6:3051–64
  • Nishida Y, Eto M, Ikeda T, et al. (2008). A new homostilbene and two new homoisoflavones from the bulbs of Scilla scilloides. Chem Pharm Bull 56:1022–5
  • Nishida Y, Wada K, Toyohisa D, et al. (2013). Homoisoflavones as the antioxidants responsible from bulbs of Scilla scilloides. Nat Prod Res 27:2360–2
  • Noda S. (1976). Outline of natural habitats and geographical distributions of Scilla scilloides in East Asia. Bull Cult Nat Sci Osaka Gakuin Univ 2:77–102
  • Onarheim H, Missavage AE, Gunther RA, et al. (1991a). Marked increase of plasma hyaluronan after major thermal injury and infusion therapy. J Surg Res 50:259–65
  • Onarheim H, Reed RK, Laurent TC. (1991b). Elevated hyaluronan blood concentrations in severely burned patients. Scand J Clin Lab Invest 51:693–7
  • Ono M, Toyohisa D, Morishita T, et al. (2011). Three new nortriterpene glycosides and two new triterpene glycosides from the bulbs of Scilla scilloides. Chem Pharm Bull (Tokyo) 59:1348–54
  • Ono M, Takatsu Y, Ochiai T, et al. (2012). Two new nortriterpenoid glycosides and a new phenylpropanoid glycoside from the bulbs of Scilla scilloides. Chem Pharm Bull (Tokyo) 60:1314–19
  • Ono M, Ochiai T, Yasuda S, et al. (2013). Five new nortriterpenoid glycosides from the bulbs of Scilla scilloides. Chem Pharm Bull (Tokyo) 61:592–8
  • Reissig JL, Strominger JL, Leloir LF. (1955). A modified colorimetric method for the estimation of N-acetylamino sugars. J Biol Chem 217:959–66
  • Samuelsson B. (1983). Leukotrienes: Mediators of immediate hypersensitivity reactions and inflammation. Science 220:568–75
  • Sasaki Y, Hosokawa T, Nagai M, Nagumo S. (2007). In vitro study for inhibition of NO production about constituents of Sappan lignum. Biol Pharm Bull 30:193–6
  • Sawabe Y, Nakagomi K, Iwagami S, et al. (1992). Inhibitory effects of pectic substances on activated hyaluronidase and histamine release from mast cells. Biochim Biophys Acta 1137:274–8
  • Swarnalatha D, Satyanarayana T. (2011). Anti inflammatory activity of Bauhinia tomentosa (stem bark and roots) and Bauhinia vahlii roots. J Global Trends Pharmaceut Sci 2:108–16
  • Suda I, Hajika M, Nishiba Y, et al. (1995). Simple and rapid method for the selective detection of individual lipoxygenase isoenzymes in soybean seeds. J Agric Food Chem 43:742–7
  • Wang B-S, Yu HM, Chang LW, et al. (2008). Protective effects of pu-erh tea on LDL oxidation and nitric oxide generation in macrophage cells. LWT – Food Sci Technol 41:1122–32
  • Yamaguchi T. (1959). The journey of the Lycoris radiata herb to Japan as a relief plant in a rice lean year. Nat Sci Mus Tokyo 26:147–53
  • Yamazaki R, Aiyama R, Matsuzaki T, et al. (1998). Anti-inflammatory effect of YPE-01, a novel diarylheptanoid derivative, on dermal inflammation in mice. Inflamm Res 47:182–6
  • Yeo E-J, Kim K-T, Han YS, et al. (2006). Antimicrobial, anti-inflammatory, and anti-oxidative activities of Scilla scilloides (Lindl.) Druce root extract. Food Sci Biotechnol 15:639–42
  • Yodsaoue O, Cheenpracha S, Karalai C, et al. (2009). Anti-allergic activity of principles from the roots and heartwood of Caesalpinia sappan on antigen-induced beta-hexosaminidase release. Phytother Res 23:1028–31

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.