NSK Co., Ltd.
担子菌培養抽出物のパイオニア

論文発表
[直近20報告]

シイタケ菌糸体培養培地抽出物

  1. 小早川幸子ら (2018) 椎茸菌糸体培養培地抽出物(LEM)由来水溶性リグニン画分(JLS-18)の抗アレルギー効果. New food industry 60. 42–48
  2.  Kuroki T. et al. (2018) Inhibition of Influenza Virus Infection by Lentinus edodes Mycelia Extract Through Its Direct Action and Immunopotentiating Activity. Frontiers in microbiology 9.
  3.  玄美燕ら (2017) 椎茸菌糸体培養培地抽出物の脳保護効果. New food industry 59. 1–14
  4. 堀内重紀ら (2016) 椎茸菌糸体培養培地抽出物(LEM)の神経保護作用. New food industry 58. 1–10
  5. Yamamoto Y. et al. (1997) Immunopotentiating Activity of the Water-soluble Lignin Rich Fraction Prepared from LEM -The Extract of the Solid Culture Medium of Lentinus edodes Mycelia. Bioscience, Biotechnology, and Biochemistry 61. 1909–1912
  6. 大橋康宏 (1996) 椎茸菌糸体培養抽出物「LEM」の生理作用. 月刊フ-ドケミカル 12. 56–61
  7. Morinaga H. et al. (1994) An in vivo Study of Hepatic and Splenic Interleukin-lβ mRNA Expression Following Oral PSK or LEM Administration. Japanese Journal of Cancer Research 85. 1298–1303
  8. Hibino Y. et al. (1994) Productions of interferon-γ and nitrite are induced in mouse splenic cells by a heteroglycan-protein fraction from culture medium of Lentinus edodes mycelia. Immunopharmacology 28. 77–85
  9. Sarkar S. et al. (1993) Antiviral effect of the extract of culture medium of Lentinus edodes mycelia on the replication of herpes simplex virus type 1. Antiviral Research 20. 293–303
  10. Kajihara J. et al. (1993) Characterization of Antiviral Water-Soluble Lignin from Bagasse Degraded by Lentinus edodes. Holzforshung 47. 479–485
  11.  Hattori T. et al. (1993) Formate and Oxalate Esters in Lignin Obtained from Bagasse Degraded by Lentinus edodes. 木材学会誌 39. 1317–1321
  12. 森永秀夫ら (1992) Lentinus edodes mycelia(LEM)の経口投与による肝転移抑制効果. Biotherapy 6. 763–765
  13. 溝口靖紘ら (1992) 肝類洞内皮細胞の血小板活性化因子産生に及ぼすLentinus edodes mycelia 培養抽出物 (LEM) の影響. 日本東洋医学雑誌 42. 307–311
  14. Tabata T. et al. (1992) Mitogenic activities of heteroglycan and heteroglycan-protein fractions from culture medium of Lentinus edodesmycelia. Immunopharmacology 24. 57–63
  15. 市川裕三ら (1991) 腹腔滲出マクロファージの細胞内遊離カルシウムイオン濃度に及ぼす椎茸(Lentinus edodes)菌糸体培養抽出物(LEM)の影響. 和漢医薬学会誌 8. 162–166
  16. 鈴木康將ら (1990) 椎茸菌糸体 (Lentinus Edodes Mycelia) の温水抽出物によるAzoxymethane誘発ラット大腸癌発生に対する抑制効果. 日本大腸肛門病学会雑誌 43. 178–191
  17. 白幡聡ら (1990) 多糖類によるHIV感染者の免疫改善効果. 免疫薬理 9. 103–106
  18. 華房徹ら (1990) 生物活性を持つ水溶性14-Cリグニンのラットにおける腸管吸収および体内動態. 薬物動態 5. 661–674
  19. Suzuki H. et al. (1990) Structural Characterization of the Immunoactive and Antiviral Water-solubilized Lignin in an Extract of the Culture Medium of Lentinus edodes Mycelia (LEM). Agricultural and Biological Chemistry 54. 479–487
  20. Sorimachi K. et al. (1990) Morphological Changes of Tumor Cells Caused by Macrophages Treated with Lignin Derivatives. Agricultural and Biological Chemistry 54. 1611–1613

 

マンネンタケ菌糸体培養培地抽出物

  1. 岩田直洋 (2019) 虚血性脳障害に対する霊芝菌糸体培養培地抽出物の脳保護効果. アグリバイオ 3. 1072–1074
  2. 神内伸也 (2018) 霊芝菌糸体培養培地抽出物の血糖上昇抑制作用と抗酸化作用. New food industry 60. 1–12
  3. 小早川幸子ら (2018) 霊芝菌糸体培養培地抽出物(MAK)の肥満細胞の脱顆粒抑制による抗アレルギー効果. New food industry 60. 8–14
  4.  岩田直洋 (2018) 一過性脳虚血に対する霊芝菌糸体培養培地抽出物の脳保護効果. アグリバイオ 2. 1095–1097
  5. 助川寧 (2017) 担癌マウスにおけるCyclophosphamideと椎茸菌糸体培養培地抽出物(LEM)・霊芝菌糸体培養培地抽出物(MAK)の併用による延命効果. 癌と化学療法 44. 896–899
  6. 岩田直洋 (2017) 霊芝菌糸体培養培地抽出物(MAK)による虚血性脳障害の軽減メカニズム. New food industry 59. 15–30
  7. Nagai K. et al. (2017) Polysaccharides derived from Ganoderma lucidum fungus mycelia ameliorate indomethacin-induced small intestinal injury via induction of GM-CSF from macrophages. Cellular Immunology 320. 20–28
  8.  神内伸也(2016) 霊芝菌糸体培養培地抽出物の2型糖尿病マウス肝臓の脂質代謝に与える影響. New food industry 58. 5–12
  9. 神内伸也ら (2015) 霊芝菌糸体培養培地抽出物のラット骨格筋培養細胞における GLUT4 膜移行促進作用. 日本補完代替医療学会誌 12. 19–27
  10. 深谷睦 (2015) 高血圧自然発症ラットにおける霊芝菌糸体培養培地抽出物(MAK)の血圧上昇抑制作用. New food industry 57. 1–11
  11. Xuan M. et al. (2015) Chronic Treatment with a Water-Soluble Extract from the Culture Medium of Ganoderma lucidum Mycelia Prevents Apoptosis and Necroptosis in Hypoxia/Ischemia-Induced Injury of Type 2 Diabetic Mouse Brain. Evid Evidence-Based Complementary and Alternative Medicine 2015. 865986
  12. Nagai K. et al. (2015) The Potential Role of Polysaccharides Derived from Ganoderma Lucidum Fungus Mycelia (designated as MAK) on Ameliorating Indomethacin-Induced Small Intestinal Injuries Through GM-CSF. Gastroenterology 148. S-919
  13. 神内伸也ら (2014) 2 型糖尿病マウスの肝臓における霊芝菌糸体培養培地抽出物 (WER) の糖質代謝に与える影響. 日本補完代替医療学会誌 11. 57–66
  14. 岩田直洋 (2014) 虚血性脳障害メカニズムと抗酸化作用を有する食品の脳保護効果に関する基礎的研究.城西大学学位論文
  15. 玄美燕 (2013) 霊芝菌糸体培養培地抽出物中の抗酸化活性成分の探索と脳保護効果に関する研究. 城西大学学位論文
  16. Watanabe H. et al. (2013) Effects of a water-soluble extract of Ganoderma lucidum mycelia on aberrant crypt foci induced by azoxymethane and small-intestinal injury by 5-FU in F344 rats. Medical Molecular Morphology 46. 97–103
  17. Matsuzaki H. et al. (2013) Antidepressant-like effects of a water-soluble extract from the culture medium of Ganoderma lucidum mycelia in rats. BMC Complementary and Alternative Medicine 13. 370
  18. Iwata N. et al. (2012) Diabetes-Mediated Exacerbation of Neuronal Damage and Inflammation After Cerebral Ischemia in Rat: Protective Effects of Water-Soluble Extract from Culture Medium of Ganoderma lucidum Mycelia. Advances in the Preclinical Study of Ischemic Stroke
  19. 川原由紀子ら (2011) 2 型糖尿病マウスにおける霊芝菌糸体培養培地抽出物の糖負荷後の血糖上昇抑制効果と食後過血糖改善薬との併用効果. 日本補完代替医療学会誌 8. 1–9
  20.  Hanaoka R. et al. (2011) The Water-Soluble Extract from Cultured Medium of Ganoderma lucidum (Reishi) Mycelia (Designated as MAK) Ameliorates Murine Colitis Induced by Trinitrobenzene Sulphonic Acid. Scandinavian Journal of Immunology 74. 454–462