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Title
アーティチョーク抽出物から得られたシナロピクリンのNF
-κB転写活性阻害による光老化抑制効果( 本文(Fulltext) )
Author(s)
田中, 友香
Report No.(Doctoral
Degree)
博士(薬科学) 連創博甲第25号
Issue Date
2014-03-25
Type
博士論文
Version
ETD
URL
http://repository.lib.gifu-u.ac.jp/handle/123456789/49053
※この資料の著作権は、各資料の著者・学協会・出版社等に帰属します。
࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࠿ࡽᚓࡽࢀࡓ
ࢩࢼࣟࣆࢡࣜࣥࡢ NF-κB ㌿෗άᛶ㜼ᐖ࡟ࡼࡿ
ග⪁໬ᢚไຠᯝ
Cynaropicrin from Cynara scolymus L. suppresses photoaging of skin
by inhibiting the transcription activity of nuclear factor- kappa B
2014
⏣୰ ཭㤶
┠ḟ
3
⥴ゝ
ヨ㦂ᮦᩱ࡜ヨ㦂᪉ἲ
1.
ᮦᩱ࡜ヨ⸆
13
2.
⣽⬊ᇵ㣴
13
3.
㑇ఏᏊᑟධ࡜ࣝࢩࣇ࢙࣮ࣛࢮ࢔ࢵࢭ࢖
14
4.
bFGF ࡜ MMP-1 ࡢᐃ㔞
14
5.
࣓ࣛࣀࢧ࢖ࢺቑṪ ᐃ
15
6.
ච␿ᰁⰍ࡟ࡼࡿ p65 ᒁᅾࡢほᐹ
15
7.
UVB ↷ᑕ⓶⭵ࣔࢹ࣐ࣝ࢘ࢫ
15
8.
⤫ィゎᯒ
17
⤖ᯝ
1. NF-κB ㌿෗άᛶ㜼ᐖస⏝
17
2. ࢩࢼࣟࣆࢡࣜࣥ࡟ࡼࡿ NF-κB ࡬ࡢస⏝ᶵᡤ
20
3. bFGF ࠾ࡼࡧ MMP-1 ⏘⏕࡟࠾ࡅࡿ⏘⏕㜼ᐖస⏝
21
4. ࣓ࣛࣀࢧ࢖ࢺቑṪ࡟࠾ࡅࡿ㜼ᐖຠᯝ
22
5. ࢩࢼࣟࣆࢡࣜࣥࡢ࣐࢘ࢫ⤒ཱྀᢞ୚࡟ࡼࡿ⾲⓶⫧ཌ࠾ࡼࡧ࣓ࣛࢽࣥ⏘⏕ࡢᢚไຠᯝ 23
⪃ᐹ
27
⤖ㄽ
28
1
ㅰ㎡
28
ཧ⪃ᩥ⊩
29
ཧ⪃㈨ᩱ࣭⥲ㄝ
35
2
⥴ゝ
㔝⳯ࡸᯝ≀ࡀ㇏ᐩ࡞㣗஦ࡣ೺ᗣ⥔ᣢ࡟Ḟ࠿ࡏ࡞࠸ࡇ࡜ࡣᗈࡃㄆ▱ࡉࢀ࡚࠸ࡿࠋཌ⏕ປാ
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ࢆண㜵ࡋࠊ೺ᗣ⥔ᣢࡢࡓࡵ࡟㔝⳯㢮ࡢ 1 ᪥ 350g ௨ୖࡢᦤྲྀࢆ᥎ዡࡋ࡚࠸ࡿࠋࡇࡢᵝ࡞㔝⳯
ࡸᯝ≀ࡢ᭷ຠᛶࡣ᳜≀ࡢ≉␗ⓗ࡞ᡂศ࡛࠶ࡿ phytochemicals ࡟ࡼࡿࡶࡢ࡜ࡉࢀ࡚࠸ࡿ 1ࠋ␿
Ꮫㄪᰝ࠿ࡽࡶ phytochemicals ࢆྵࡴ㣗஦࡟ࡼࡾ⒴ࡸ⅖⑕ᛶ⑌ᝈࠊᚰ⾑⟶⑌ᝈ࡞࡝ࡢ៏ᛶ㞀
ᐖࢆᢚไࡋࠊ࢔ࣝࢶࣁ࢖࣐࣮ࡸࣃ࣮࢟ࣥࢯࣥ⑓ࡢࣜࢫࢡࢆῶᑡࡉࡏࡿ࡜ሗ࿌ࡉࢀ࡚࠸ࡿ 1ࠋ
Phytochemicals ࡣ᳜≀୰࡟Ꮡᅾࡍࡿ஧ḟ௦ㅰ⏘≀ࡢࡇ࡜ࢆ࠸࠺ࠋ᳜≀ࡀᙉ࠸⣸እ⥺ࡸẼೃࠊ
ᐖ⹸ࡸື≀࡞࡝ࡢᵝࠎ࡞⎔ቃ࣭እᩛ࠿ࡽ㌟ࢆᏲࡿࡓࡵ࡟⮬ࡽసࡾฟࡋࡓᶵ⬟ᛶᡂศ࡛ࠊⰍ
ࡸ㤶ࡾࠊ㎞࿡ࠊⱞ࿡࡞࡝࡟ྵࡲࢀࡿ㸦⾲㸯㸧2ࠋ୍⯡ⓗ࡟ࡣ㏻ᖖࡢ㌟య⥔ᣢ࡟ࡣᚲせ࡜ࡉࢀ
࡞࠸ࡀ೺ᗣ࡟Ⰻ࠸ᙳ㡪ࢆ୚࠼ࡿྍ⬟ᛶࡀ࠶ࡿ᳜≀⏤᮶ࡢ໬ྜ≀࡜ࡋ࡚ὀ┠ࡉࢀࠊ୍⯡㣗ရ
࡜ࡋ࡚㣗ࡉࢀࡿࡔࡅ࡛࡞ࡃࠊ໬⢝ရࡸ೺ᗣ㣗ရ࡞࡝࡟ከࡃ㓄ྜࡉࢀ࡚࠸ࡿࠋ౛࠼ࡤࠊࣈࢻ
࢘ࡢ࢔ࣥࢺࢩ࢔ࢽࣥࠊⲔࡢ࢝ࢸ࢟ࣥࠊࢽࣥࢪࣥࡸ࠿ࡰࡕࡷࡢș㸫࢝ࣟࢸࣥࠊࢺ࣐ࢺࡢࣜࢥ
ࣆࣥ࡞࡝ࡀⰋࡃ▱ࡽࢀ࡚࠸ࡿࠋᮏ᮶ࠊphytochemicals ࡣࠊ᳜≀ࡀᐖ⹸࡞࡝࠿ࡽ㌟ࢆᏲࡿࡓ
ࡵ࡟᳜≀ෆ࡛సࡾฟࡍࡶࡢ࡛ẅ⳦ຠᯝࡸᚷ㑊ຠᯝࢆ♧ࡍࠋࡋࡓࡀࡗ࡚㧗⏝㔞࡛ᦤྲྀࡋࡓሙ
ྜࠊⓎ⒴≀㉁ࡸ⚄⤒ẘ࡜࡞ࡾ࠺ࡿࡀࠊప⏝㔞࡛ᦤྲྀࡋࡓሙྜࠊ㐺ᛂྍ⬟࡞⣽⬊ࢫࢺࣞࢫᛂ
⟅⤒㊰ࢆάᛶ໬ࡋ೺ᗣ࡟᭷┈࡞ാࡁࢆࡍࡿ 1,2ࠋࡇࡢᵝ࡞⏝㔞࡟ᛂࡌ࡚㏫ࡢຠᯝࢆᘬࡁ㉳ࡇ
ࡍ⌧㇟ࡣ⏕≀Ꮫࡸ⸆๣࡛ᗈࡃほᐹࡉࢀ”hormesis” ࡜ゝࢃࢀ࡚࠸ࡿ 1-3ࠋ Phytochemicals ࡢ hormesis ຠᯝ࡟ࡼࡾࠊయࢆᵓᡂࡍࡿྛ⣽⬊ࡀࢫࢺࣞࢫ࡟⪏࠼ࡿࡓࡵࡢᢠ
3
㓟໬㓝⣲ࠊࢱࣥࣃࢡ㉁ࢩࣕ࣌ࣟࣥࠊࣇ࢙࣮ࢬ-2 㓝⣲ࠊ⚄⤒ᰤ㣴ᅉᏊ࡞࡝ࡢ⏘⏕ࢆಁ㐍ࡉࡏࠊ
⚄⤒⣽⬊ࡢಖㆤస⏝ࡸᢠ⒴స⏝ࠊ೺ᗣಁ㐍స⏝ࢆ♧ࡍࡇ࡜ࡀሗ࿌ࡉࢀ࡚࠸ࡿ 1,2ࠋ
໬⢝ရࡣ⸆஦ἲ➨ 2 ᮲➨ 3 㡯࡟࠾࠸࡚ࠊࡲࡓࠊᣦᐃࡉࢀࡓ⠊ᅖෆ࡛ຠ⬟࣭ຠᯝࢆ⾲♧࡛
ࡁࡿ་⸆㒊እရࡣ⸆஦ἲ➨ 2 ᮲➨ 2 㡯࡟࠾࠸࡚ᐃ⩏ࡉࢀ࡚࠸ࡿࠋ་⸆㒊እရࡢ୺࡞ヱᙜၟ
ရࡣ⨾ⓑࡸ⑫⒔ண㜵࡟ຠᯝࡀᮇᚅ࡛ࡁࡿ⸆⏝໬⢝ရࠊ⫱ẟ๣ࠊ࣊࢔࣮࢝ࣛࠊṑ࿘⑓࣭⹸ṑ
ண㜵ࡢṑࡳࡀࡁ࡞࡝ࡀ࠶ࡿࠋࡉࡽ࡟ࠊ2001 ᖺࡢ໬⢝ရࡢつไ⦆࿴࡟ࡼࡾࡑࢀࡲ࡛ཌ⏕ປാ
኱⮧࡟ㄆྍࡉࢀࡓᡂศ௨እࡣ໬⢝ရ࡟㓄ྜ࡛ࡁ࡞࠿ࡗࡓࡀࠊ඲ᡂศ⾲♧ࢆ⩏ົ௜ࡅࡽࢀࡓ
࠺࠼࡛ࠊ⸆஦ἲ໬⢝ရᇶ‽࡛⚗Ṇ࣭ไ㝈ࡀ࠶ࡿᡂศࢆ㝖ࡁࠊྛ௻ᴗࡀᏳ඲ᛶࢆ☜ㄆࡋࡓ࠺
࠼࡛⮬⏤࡟㓄ྜࡍࡿࡇ࡜ࡀྍ⬟࡜࡞ࡗࡓࠋ୍᪉ࠊ೺ᗣ㣗ရࡣᗈࡃ೺ᗣࢆቑ㐍ࡉࡏࡿ┠ⓗ࡛
㈍኎ࠊ฼⏝ࡉࢀࡿ㣗ရ඲⯡ࢆᣦࡋࠊἲᚊୖࠊᐃ⩏ࡣࡉࢀ࡚࠸࡞࠸ࠋࡑࡇ࡛ࠊ1991 ᖺ࡟೺ᗣ
ቑ㐍ἲ࡟ࡼࡾ≉ᐃಖ೺⏝㣗ရࡀᐃ⩏ࡉࢀࠊᅜࡢᐃࡵࡓつ᱁ࡸᇶ‽ࢆ‶ࡓࡍ㣗ရ࡟ࡘ࠸࡚ࡣ
ಖ೺ᶵ⬟ࡢ⾲♧ࡀྍ⬟࡟࡞ࡗࡓࠋࡇࡢᵝ࡞ὶࢀ࠿ࡽ୍⯡ᾘ㈝⪅ࡣ໬⢝ရࡸ೺ᗣ㣗ရࡢᡂศ
ࡢᶵ⬟ᛶ࡟ࡘ࠸࡚┠࡟ࡍࡿᶵ఍ࡀቑ࠼ࠊPhytochemicals ࡟ࡘ࠸࡚ࡶᵝࠎ࡞࣓ࢹ࢕࢔࡛⤂௓
ࡉࢀࠊㄆ▱ࡉࢀࡿࡼ࠺࡟࡞ࡗ࡚࠸ࡿࠋ౛࠼ࡤࠊ་⸆㒊እရࡢ⨾ⓑᡂศ࡛࠶ࡿ࢔ࣝࣈࢳࣥࡣ
ࢥࢣࣔࣔࡸ࢘࣡࢘ࣝࢩ⏤᮶ࡢࣇ࢙ࣀ࣮ࣝᛶ㓄⢾య࡛࣓ࣛࢽࣥࡢྜᡂ࡟㛵ࢃࡿ㓝⣲ࠊࢳࣟࢩ
ࢼ࣮ࢮࡢ㜼ᐖ࡟ࡼࡾ⨾ⓑస⏝ࢆ♧ࡍࠋࡲࡓࠊすὒࣁ࣮ࣈ࡛࠶ࡿ࣑࣮࢝ࣔࣝ࠿ࡽᢳฟࡉࢀࡓ
࣑࢝ࣔࣛ ET ࡶ」ᩘࡢ Phytochemicals ࢆ᭷ຠᡂศ࡜ࡍࡿ⨾ⓑᡂศ࡜ࡋ࡚ᐇ⏝໬ࡉࢀ࡚࠸ࡿࠋ
ࡲࡓࠊ2011 ᖺ࡟ࡣࠊ་⸆㒊እရ௨እࡢ୍⯡໬⢝ရ࡟࠾࠸࡚ࢩ࣡࡟㛵ࡍࡿຠᯝࢆㅻ࠺ࡇ࡜ࡀ
ㄆྍࡉࢀࡓࠋ᪥ᮏࢆྵࡵୡ⏺࡛⮬⏕ࡍࡿࣄ࣓ࣇ࢘ࣟ࠿ࡽᢳฟࡉࢀࡿᡂศࡣࠊ⣸እ⥺࡟ࡼࡾ
άᛶ໬ࡍࡿ࣐ࢫࢺࢭࣝ⏤᮶ࡢ㓝⣲ࠊࢺࣜࣉࢱ࣮ࢮࢆ㜼ᐖࡍࡿࠋࢺࣜࣉࢱ࣮ࢮࡣࠊ⣽⬊እ࣐
4
ࢺࣜࢵࢡࢫࡸᇶᗏ⭷ࢆศゎࡋࠊග⪁໬࡟㛵ಀࡍࡿ࡜ࡉࢀ࡚࠸ࡿ 4ࠋࡋࡓࡀࡗ࡚ࠊࣄ࣓ࣇ࢘
ࣟᡂศࡣ⣸እ⥺࡟ࡼࡾᘬࡁ㉳ࡇࡉࢀࡿࢺࣜࣉࢱ࣮ࢮࢆ㜼ᐖࡋࠊࢥ࣮ࣛࢤࣥࡸᇶᗏ⭷ࡢศゎ
࡟ࡼࡿࢩ࣡ࡢᙧᡂࢆᢚไࡍࡿග⪁໬ᢚไస⏝ࢆ♧ࡍࠋ኱㇋ࡢ࢖ࢯࣇࣛ࣎ࣥࡣዪᛶ࣍ࣝࣔࣥ
࡛࠶ࡿ࢚ࢫࢺࣟࢤࣥࣞࢭࣉࢱ࣮࡟⤖ྜࡍࡿࡇ࡜ࡀሗ࿌ࡉࢀ࡚࠾ࡾࠊ࣍ࣝࣔࣥᵝάᛶࢆ᭷ࡍ
ࡿࡇ࡜ࡀ▱ࡽࢀ࡚࠸ࡿ 5ࠋዪᛶࡣ᭦ᖺᮇ࡟ධࡿ࡜ዪᛶ࣍ࣝࣔࣥ⏘⏕㔞ࡀపୗࡋࠊ᭦ᖺᮇ㞀
ᐖࢆᘬࡁ㉳ࡇࡍ Aࠋࡇࡢ㝿ࠊ⓶⭵࡟࠾࠸࡚ࡶ┿⓶ᵓᡂᡂศ࡛࠶ࡿࢥ࣮ࣛࢤࣥࡸ࢚ࣛࢫࢳࣥ
ࡢ᪂⏕ࡀῶᑡࡍࡿࡇ࡜࡛ࢩ࣡ࡸࡓࡿࡳࡢཎᅉ࡜࡞ࡿࠋ኱㇋࢖ࢯࣇࣛ࣎ࣥࡣዪᛶ࣍ࣝࣔࣥᵝ
άᛶࢆ♧ࡍࡇ࡜࠿ࡽࠊᨃఝⓗ࡟࣍ࣝࣔࣥࡢ୙㊊ࢆ⿵࠸⨾ᐜຠᯝࢆ♧ࡍࠋࢥ࢞ࢿࣂࢼ࡟ྵࡲ
ࢀࡿࣂ࢖࢝ࣜࣥࠊࣂ࢖࢝ࣞ࢖ࣥ࡟ࡣᙉ࠸ᢠ㓟໬స⏝ࡀㄆࡵࡽࢀࠊάᛶ㓟⣲࡟ࡼࡿ⣽⬊㞀ᐖ
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࡞άᛶ㓟⣲ࡣᚲせ௨ୖ࡟㌟యࢆᵓᡂࡍࡿ⣽⬊ࡸྛ✀⺮ⓑ㉁➼ࢆ◚ቯࡍࡿࡇ࡜ࡀ▱ࡽࢀ࡚࠾
ࡾࠊࡇࢀࡀ⪁໬ࡸ⑌⑓ࡢཎᅉ࡜ၐ࠼ࡿᏛ⪅ࡶ࠸ࡿ Aࠋ≉࡟⣸እ⥺ࡣ⓶⭵ෆ࡛ࡢάᛶ㓟⣲ࡢ
ቑຍࢆᘬࡁࡇࡍࡓࡵࠊάᛶ㓟⣲࡟ࡼࡿ㞀ᐖࢆ㏿ࡸ࠿࡟ண㜵ᨵၿࡍࡿᚲせࡀ࠶ࡿࠋࡇࡢᢠ㓟
໬ᶵ⬟ࢆྲྀࡾධࢀࡿࡓࡵ࡟ࠊ┤᥋⫙࡟ሬᕸࡍࡿࡇ࡜ࡀྍ⬟࡞໬⢝ရࡣ᭷ຠ࡞ᡭẁࡢࡦ࡜ࡘ
࡛࠶ࡾࠊࡑࡢ㟂せࡀ㧗ࡲࡗ࡚࠸ࡿࠋࡑࢀ௨እ࡟ࡶ Phytochemicals ࡟ࡼࡿ hormesis ຠᯝࢆᛂ
⏝ࡋ࡚࠸ࡿ࡜⪃࠼ࡽࢀࡿ᳜≀࢚࢟ࢫࡣᩘⓒ✀㢮࡟ࡶཬࡧࠊከࡃࡢ໬⢝ရࠊ་⸆㒊እရࠊ೺
ᗣ㣗ရ࡟ῧຍࡉࢀ࡚࠸ࡿࠋ
2012 ᖺ࡟ㄪᰝ఍♫࢖ࣥࢸ࢖࣮ࢪ࡟ࡼࡿ 10~70 ௦ࡢ⏨ዪᑐ㇟ࡢㄪᰝ࡛ࡣ೺ᗣ㣗ရ࣭ࢧࣉࣜ
࣓ࣥࢺࡢᕷሙつᶍࡣ 1 ඙ 4 ༓൨෇࡟ࡶࡢࡰࡿࠋ೺ᗣ㣗ရ࡟ࡣࠊ⨾⫙࣭⫙ࢣ࢔ࠊ೺ᗣ⥔ᣢࠊ
㛵⠇ࡢ೺ᗣ⥔ᣢࠊῶ㔞࡞࡝ᵝࠎ࡞࢝ࢸࢦ࣮ࣜࡀᏑᅾࡍࡿࡀࠊ᭱ࡶ኱ࡁ࡞ᕷሙࡣ⨾⫙࣭⫙ࢣ
5
࢔࡛ࡑࡢつᶍࡣ 1,674 ൨෇ࠊࡘ࠸࡛೺ᗣ⥔ᣢ࣭ቑ㐍ࡢ 1,450 ൨෇࡜⥆ࡃࠋࡇࢀࡣ⏨ᛶࡼࡾࡶ
ዪᛶࠊ≉࡟ 40 ௦௨ୖࡢዪᛶࡢ฼⏝⪅ࡀከ࠸ࡇ࡜࠿ࡽ࢔ࣥࢳ࢚࢖ࢪࣥࢢ࡜࠸࠺ゝⴥ࡜࡜ࡶ࡟
೺ᗣ㣗ရ࡛ࡶ⨾ᐜ࡟㛵ࡍࡿὀ┠ᗘࡀ㧗࠸ࡓࡵ࡜ᛮࢃࢀࡿࠋ
⣸እ⥺ࡣࠊ⓶⭵ࡢග⪁໬ࢆᘬࡁ㉳ࡇࡍ᭷ᐖ࡞⎔ቃせᅉࡢࡦ࡜ࡘ࡛࠶ࡿ 7ࠋග⪁໬ࡣ៏ᛶ
ⓗ࡞⣸እ⥺↷ᑕ࡟ࡼࡗ࡚⓶⭵ࡀ᪩ᮇ࡟⪁໬ࡋࡓ≧ែ࡛ࠊ⩦័ⓗ࡟ኴ㝧ගࢆᾎࡧࡓ⪁ேࡢ⓶
⭵ࡣ⾰᭹࡛そࢃࢀࡓ㒊ศ࡜㟢ฟࡋࡓ㒊ศࢆẚ㍑ࡋࡓሙྜࠊ㟢ฟ㒊ศࡢ᪉ࡀࡼࡾ⪁໬ࡋ࡚ぢ
࠼ࡿ 8ࠋ୍⯡࡟ᖺࢆ㔜ࡡࡿࡈ࡜࡟ᖺ┦ᛂࡢ㢦❧ࡕ࡟࡞ࡗ࡚ࡃࡿࡀࠊ↓ព㆑࡟ࡇࡢุ᩿ᇶ‽
࡜࡞ࡗ࡚࠸ࡿࡢࡀࠊࢩ࣡ࠊࡓࡿࡳࠊࢩ࣑࡛࠶ࡿ Aࠋࡇࡢኚ໬ࡢ≉ᚩࡣࠊே✀ࡈ࡜࡟␗࡞ࡿࠋ
౛࠼ࡤࠊ࣓ࣛࢽࣥⰍ⣲ࡢከ࠸㯮ேࡣ⣸እ⥺⪏ᛶࡀ㧗ࡃࠊࢩ࣡࡞࡝ࡀᙧᡂࡉࢀ࡟ࡃ࠸ࠋ୍᪉ࠊ
࣓ࣛࢽࣥⰍ⣲ࡢᑡ࡞࠸ⓑேࡣẚ㍑ⓗ┿⓶࡬ࡢࢲ࣓࣮ࢪࡀ㧗ࡃ࡞ࡿࡇ࡜࡛ࠊࢩ࣡ࡸࡓࡿࡳࡀ
࠾ࡁࡸࡍ࠸ࠋࡑࡢ୰㛫࡛࠶ࡿ㯤Ⰽே✀ࡣࠊ㐺ᗘ࡟⣸እ⥺㜵ᚚࡍࡿࡓࡵࢩ࣡ࡸࡓࡿࡳࡣⓑே
࡟ẚ࡭࡚ᑡ࡞࠸ࡀࠊ࣓ࣛࢽࣥⰍ⣲ࡢ␗ᖖ⏘⏕࡟ࡼࡿࢩ࣑ࡀࡼࡾ┠❧ࡕࡸࡍ࠸ഴྥࡀ࠶ࡿࠋ
ࡲࡓࠊ⣸እ⥺ࡢᙉ࠸࣮࢜ࢫࢺࣛࣜ࢔࡛ࡣ೺ᗣ⿕ᐖࢆண㜵ࡍࡿ┠ⓗ࡛ࠊᅜ⟇࡜ࡋ࡚ ᖺ௦
࡟ࠕࢫࣜࢵࣉࠊࢫࣟࢵࣉࠊࢫࣛࢵࣉࠊࣛࢵࣉ㸦6OLS6ORS6ODS:UDS㸧
ࠖࣉࣟࢢ࣒ࣛࡀᑟධ
ࡉࢀ࡚࠸ࡿࠋࡇࢀࡣࠊ㛗ࡑ࡛ࢆ╔ࡿࠊ᪥↝ࡅṆࡵࢆሬࡿࠊᖗᏊࢆ࠿ࡪࡿࠊࢧࣥࢢࣛࢫࢆࡍ
ࡿࡇ࡜ࢆ᥎ዡࡍࡿࡶࡢ࡛࠶ࡾࠊ⣸እ⥺ࡢ೺ᗣ⿕ᐖࡀ῝้࡞ၥ㢟࡛࠶ࡿࡇ࡜ࢆ≀ㄒࡗ࡚࠸ࡿࠋ
᪥ᮏ࡟࠾࠸࡚ࡶࠊ࠿ࡘ࡚ẕᏊᡭᖒ࡟ࡣ᪥ගᾎࡀ᥎ዡࡍࡿグ㏙ࡀ࠶ࡗࡓࡀࠊ ᖺࡼࡾ๐㝖
ࡉࢀ࡚࠸ࡿࠋ᪥ගᾎࡣࣅࢱ࣑ࣥ ' ࢆయෆ࡛సࡿࡓࡵ࡟ᚲせ࡜ࡉࢀ࡚࠸ࡓࡀࠊ⌧ᅾࡣ㏻ᖖࡢ
㣗஦࡛౪⤥ྍ⬟࡛࠶ࡿࡓࡵࡑࡢᜠᜨࡣᑡ࡞࠸࡜ุ᩿ࡉࢀࡓࠋ
௒ᅇࠊᡃࠎࡣ⣸እ⥺࡟ࡼࡗ࡚ࡶࡓࡽࡉࢀࡿ⓶⭵⪁໬ࠊࡍ࡞ࢃࡕ⓶⭵ග⪁໬࡟╔┠ࡋࡓࠋ
6
⣸እ⥺ࡣࠊ࢖ࣥࢱ࣮ࣟ࢖࢟ࣥ-1㸦IL-1㸧ࡸ⭘⒆ቯṚᅉᏊ࢔ࣝࣇ࢓㸦TNF-α㸧࡞࡝ࡢࢧ࢖ࢺ࢝
࢖ࣥࢆศἪࡉࡏࠊ⅖⑕ࣉࣟࢭࢫࢆㄏᑟࡍࡿࠋࡑࡢ⤖ᯝࠊ⣸እ⥺ࢆ↷ᑕࡉࢀࡓ⓶⭵ࡣࠊ⓾ࡸ
࣓࢟ࡢ஘ࢀࠊ஝⇱ࠊࡓࡿࡳ࡞࡝ࡢ≉ᚩⓗእほࡀㄆࡵࡽࢀࡿ 8,9ࠋ⾲ 2 ࡟♧ࡋࡓ࡜࠾ࡾຍ㱋࡟
ࡼࡿ⮬↛⪁໬࡜ග⪁໬࡟ࡣእほࡢ᫂ࡽ࠿࡞㐪࠸ࡔࡅ࡛࡞ࡃࢣࣛࢳࣀࢧ࢖ࢺࡸ࣓ࣛࣀࢧ࢖ࢺ
࡞࡝ࡢ⣽⬊ࡸ⏘⏕ࡉࢀࡿᡂศ࡟ࡶ㐪࠸ࡀㄆࡵࡽࢀࡿ Bࠋࡇࢀࡽࡢኚ໬࡟ࡣࠊࢣࣛࢳࣀࢧ࢖
ࢺࡸ࣓ࣛࣀࢧ࢖ࢺࡢ㐣ቑṪ࡜ࢥ࣮ࣛࢤࣥ⥺⥔ࡢศゎࡀ㛵୚ࡋ࡚࠸ࡿ 10,11ࠋࡇࡢ⓶⭵ග⪁໬
ࡢⓎ⏕ᶵᗎ࡟ࠊ㌿෗ᅉᏊ Nuclear factor κB 㸦NF-κB㸧ࡀ῝ࡃ㛵୚ࡋ࡚࠸ࡿࡇ࡜ࡀ㏆ᖺሗ࿌
ࡉࢀ࡚࠸ࡿ 8,9ࠋNF-κB ࡣࠊ⅖⑕࡟㛵ࢃࡿ㔜せ࡞㌿෗ᅉᏊ࡜ࡋ࡚ࠊ㛗ᖺ࡟ࢃࡓࡾ་⒪ࡢศ㔝
࡛◊✲ࡀ㔜ࡡࡽࢀ࡚ࡁࡓࠋࡓ࡜࠼ࡤࠊNF-κB ࡣࡀࢇࡸ࣐ࣜ࢘ࢳࡢ⑓ែ㐍⾜࡟㛵୚ࡋ࡚࠾ࡾ
12,13
ࠊࡑࡢ㜼ᐖ๣ࡢ㛤Ⓨࡀୡ⏺୰ࡢ◊✲ᶵ㛵࡛࡞ࡉࢀ࡚࠸ࡿࠋNF-κB ࡑࡢࡶࡢࡣࠊ⏕࿨ά
ື࡟ᚲ㡲࡞㌿෗ᅉᏊ࡛ࡣ࠶ࡿࡀࠊ௚ࡢ㌿෗ᅉᏊ࡟ẚ࡭ࠊከࡃࡢ⑌⑓࡟ࡘ࡞ࡀࡿ⅖⑕཯ᛂ࡟
㛵୚ࡍࡿ㑇ఏᏊⓎ⌧ࢆࡼࡾከࡃ㌿෗ࡍࡿࡇ࡜࠿ࡽࠊண㜵ᨵၿ⸆࡜ࡋ࡚ࡢࢱ࣮ࢤࢵࢺ࡟࡞ࡾ
ࡸࡍ࠸⫼ᬒࡀ࠶ࡿ 14ࠋ⓶⭵ศ㔝࡟㛵ࡋ࡚ࡶࠊ࢔ࢺࣆ࣮ᛶ⓶⭵⅖ࡸ஝Ⓞ࡟ NF-κB ࡀ῝ࡃ㛵୚
ࡋ࡚࠾ࡾ 12ࠊ௚ࡢ⑌⑓࡜ྠᵝ࡟◊✲ࡀ࡞ࡉࢀ࡚࠸ࡿࠋࡋ࠿ࡋ࡞ࡀࡽࠊ⑌⑓࡟⮳ࡽ࡞࠸㌟య
ࡢኚ໬࡟ᑐࡍࡿ NF-κB ࡢᙳ㡪࡟ࡘ࠸࡚ࡢ▱ぢࡣᑡ࡞࠸ࠋࡓ࡜࠼ࡤࠊ⪁໬࡜࠸࠺⏕⌮⌧㇟ࡣ
☜ᐇ࡟㌟యࡢ௙⤌ࡳࢆኚ໬ࡉࡏᚓࡿ⌧㇟࡛࠶ࡿࡀࠊ⑌⑓࡛ࡣ࡞࠸ࡓࡵ✚ᴟⓗ࡟◊✲ࡀ࡞ࡉ
ࢀ࡚ࡇ࡞࠿ࡗࡓࠋࡑࡢࡼ࠺࡞⫼ᬒࡢ࡞࠿ࠊ⣸እ⥺࡟ࡼࡿ⓶⭵⪁໬࡜ NF-κB ࡜ࡢ㛵㐃࡟ࡘ࠸
࡚ሗ࿌ࡀ࡞ࡉࢀࠊ⣸እ⥺࡟ࡼࡗ࡚άᛶ໬ࡋࡓ㐣๫࡞ NF-κB ࡀ⓶⭵⪁໬ࢆಁ㐍ࡍࡿࡇ࡜ࡀ࿘
▱ࡉࢀࡓ 8,9ࠋࡋ࠿ࡋࠊ᪤Ꮡࡢ೺ᗣ㣗ရࡸ໬⢝ရࠊ་⸆㒊እရ࡟࠾࠸࡚ࡶᢠග⪁໬ຠᯝࢆㅻ
ࡗࡓࡶࡢࡣ࠶ࡿࡀ NF-κB ࢆࢱ࣮ࢤࢵࢺ࡜ࡋࡓ〇ရࡣ࡞࠿ࡗࡓࠋ
7
⓶⭵⣽⬊ෆ࡛⣸እ⥺ࡸ⅖⑕ᛶࢧ࢖ࢺ࢝࢖ࣥ࡞࡝ࡢ่⃭࡟ࡼࡾࠊNF-κB ࡀάᛶ໬ࡋࠊ࣐
ࢺࣜࢵࢡࢫ࣭࣓ࢱࣟࣉࣟࢸ࢔࣮ࢮ-1㸦MMP-1㸧ࡀ⏘⏕ࡉࢀࠊࡑࡢ⤖ᯝࠊࢥ࣮ࣛࢤࣥ⥺⥔ࡢ
◚ቯࡀ㉳ࡁࡿ 15,16ࠋࡲࡓ NF-κB ࡣࠊሷᇶᛶ⥺⥔ⱆ⣽⬊ᡂ㛗ᅉᏊ㸦bFGF㸧ࡢ⏘⏕ࢆಁ㐍ࡍࡿ
ࡇ࡜ࡶሗ࿌ࡉࢀࠊࢣࣛࢳࣀࢧ࢖ࢺࡸ࣓ࣛࣀࢧ࢖ࢺࡢ㐣ቑṪࡢཎᅉ࡜࡞ࡿ 17,18ࠋࡉࡽ࡟ࠊ⣸
እ⥺↷ᑕ࡟ࡼࡿ NF-κB άᛶ໬ࢆ㏻ࡋ࡚ bFGF ⏘⏕ࡀㄏⓎࡉࢀࡿࡇ࡜ࡶሗ࿌ࡉࢀ࡚࠸ࡿ 19,20ࠋ
NF-κB ࡣಶูࡢࢧࣈࣘࢽࢵࢺ࡛࠶ࡿ 5 ࡘࡢ⊂❧ࡋࡓ㑇ఏᏊ NFKB1㸦p105㸧ࠊNFKB2㸦p100㸧ࠊ
RelA㸦p65㸧ࠊc-rel ཬࡧ relB ࠿ࡽᡂࡿ 21ࠋ࣍ࣔཪࡣ࣊ࢸࣟࢲ࢖࣐࣮࠿ࡽ࡞ࡿ NF-κB ࢱࣥࣃ
ࢡ㉁ࡣᶆⓗ㑇ఏᏊࡢ⤖ྜ㒊఩࡛ DNA 㓄ิ࡜⤖ྜࡍࡿࡇ࡜࡛㌿෗ࢆㄪ⠇ࡍࡿ 22ࠋ
NF-κB ࡣ㏻ᖖࠊᢚไศᏊ࡜ࡋ࡚▱ࡽࢀࡿ inhibitor κB 㸦IκB㸧࡜⤖ྜࡋ୙άᛶ」ྜయ࡜ࡋ
࡚⣽⬊㉁࡟␃ࡲࡿࠋࡋ࠿ࡋࠊIL-1 ࡸ TNF-αࡢࡼ࠺࡞ࢧ࢖ࢺ࢝࢖ࣥ࡟ࡼࡾࣜࣥ㓟໬ࠊࣘࣅ࢟
ࢳࣥ໬ࡉࢀࡓᚋࠊIκB ࢱࣥࣃࢡ㉁ࡀศゎࡉࢀ NF-κB ࡀ᰾࡬⛣⾜ࡍࡿ 23-25ࠋࡉࡽ࡟ NF-κB ࡢ
άᛶ໬࡟ࡼࡾග⪁໬ࡀᘬࡁ㉳ࡇࡉࢀࡓ᫬ࠊࡑࡢ㜼ᐖ๣࡛࠶ࡿ parthenolide ࢆ⭡⭍ෆᢞ୚ࡋࡓ
࡜ࡇࢁࠊ⣸እ⥺↷ᑕ࡟ࡼࡿ bFGF ࡸ MMP-1 ࡢ⏘⏕ࢆ㜼ᐖࡋࠊ⾲⓶ゅ໬⣽⬊ࡸ࣓ࣛࣀࢧ࢖ࢺ
ࡢ㐣ቑṪࢆᢚไࡍࡿࡇ࡜ࡀሗ࿌ࡉࢀ࡚࠸ࡿ 17,18,23,26ࠋParthenolide ࡣ࢟ࢡ⛉ࢼࢶࢩࣟࢠࢡ࡟
ྵࡲࢀࡿࢭࢫ࢟ࢸࣝ࣌ࣥࣛࢡࢺࣥࡢ 1 ✀࡛࠶ࡿࠋࢭࢫ࢟ࢸࣝ࣌ࣥࣛࢡࢺࣥࡣ⅖⑕ᛶ⑌ᝈࡢ
἞⒪࡟౑⏝ࡉࢀࡿ⸆⏝᳜≀ࡢ᭷ຠᡂศ࡜ࡋ࡚▱ࡽࢀࠊα−࣓ࢳࣞࣥ−γ−ࣛࢡࢺࣥ⎔ࡀᣢࡘࢳ
࣮࢜ࣝᇶ࡬ࡢ཯ᛂᛶ࡟ࡼࡗ࡚⏕⌮άᛶࢆ♧ࡍࡇ࡜ࡀ▱ࡽࢀ࡚࠸ࡿ27ࠋParthenolide ࡣࣜࣥ㓟
໬ࡉࢀࡓΙκB ࡢศゎࢆ㜼ᐖࡍࡿࡇ࡜࡛ NF-κB 㜼ᐖάᛶࢆ♧ࡍࡇ࡜ࡀሗ࿌ࡉࢀ࡚࠸ࡿ27ࠋ
NF-κB ࡢ㜼ᐖࡣࠊ⅖⑕཯ᛂࡢᝏᚠ⎔ࢆᢚไࡋࠊ⓶⭵ࡢග⪁໬ࡢ㜵Ṇ࡟ຠᯝⓗ࡞ാࡁࢆࡍ
ࡿ㸦ᅗ 1㸧ࠋParthenolide ௨እ࡟ࡶኳ↛≀ࡢ୰࡟ࡣ NF-κB 㜼ᐖάᛶࢆࡶࡘ᭷┈࡞ᡂศࡢᏑᅾ
8
ࡀᮇᚅࡉࢀࡓࠋ
ᡃࠎࡣࠊTNF-α่⃭࡟ࡼࡿ NF-κB ࡢ㌿෗άᛶ㜼ᐖ࡬ࡢస⏝ࢆ 200 ௨ୖࡢ᳜≀࢚࢟ࢫ࡛ヨ
㦂ࡋࡓࠋࡑࡢ⤖ᯝࠊ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡ㸦Cynara scolymus L.㸧࡟ᙉ࠸ NF-κB ㌿෗άᛶ㜼ᐖ
స⏝ࢆ☜ㄆࡋࡓ㸦ᅗ 2㸧ࠋ
࢔࣮ࢸ࢕ࢳ࣮ࣙࢡࡣᆅ୰ᾏἢᓊ࠾ࡼࡧ࢔ࣇࣜ࢝໭㒊ཎ⏘ࡢ࢟ࢡ⛉ࡢ᳜≀࡛ࠊ⣙ 2 ࣓࣮ࢺ
ࣝࡢ㧗ࡉ࡟ᡂ㛗ࡋࠊ㟷⣸Ⰽࡢⰼᘚࢆ᭷ࡍࡿࠋࡶ࡜ࡶ࡜ࡣᆅ୰ᾏ୰す㒊࡟㔝⏕ࡋࠊⴥ᯶ࢆ㣗
⏝࡜ࡋࡓ࢝ࣝࢻࣥ Cynara cardunculus ࢆရ✀ᨵⰋࡋࡓࡶࡢ࡜⪃࠼ࡽࢀ࡚࠸ࡿ C,Dࠋ㛤ⰼ┤๓
ࡢⷣࡸⱝⴥࢆ㔝⳯࡜ࡋ࡚㣗࡭ࡿ௚ࠊⴥࢆࣁ࣮ࣈࢸ࢕࣮࡜ࡋ࡚㣧⏝ࠊษࡾⰼ࡜ࡋ࡚㚷㈹ࡉࢀ
ࡿ࡞࡝ୡ⏺୰࡛ぶࡋࡲࢀ࡚࠸ࡿ Eࠋ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡࡢṔྐࡣྂࡃࠊ⣖ඖ๓ࡢࢠࣜࢩ࢔࣭
࣮࣐ࣟ᫬௦࠿ࡽ㔝⳯࡜ࡋ࡚㣗ࡉࢀࠊᆅ୰ᾏᆅ᪉ࡢẸ㛫⒪ἲ࡛ࡣ⏕ࡸⴥࡢỒࢆ࣡࢖ࣥ࡟ΰࡐ
࡚⫢⮚ࡢẸ㛫⸆࡜ࡋ࡚౑⏝ࡉࢀ Dࠊ࣮ࣚࣟࢵࣃ࡛ࡣ࣮ࣚࢢࣝࢺ࡟ΰࡐ࡚⨾ᐜࣃࢵࢡ࡜ࡋ࡚
⏝࠸ࡿ࡞࡝ F ᵝࠎ࡞ሙ㠃࡛㔜⏝ࡉࢀ࡚࠾ࡾࠊ⌧௦࡟࠾࠸࡚ࡶ⬡⫫ࡸ࢔ࣝࢥ࣮ࣝࡢ௦ㅰࢆຓ
ࡅࡿ㣗ᮦ࡜ࡋ࡚ᩱ⌮࡟⏝࠸ࡽࢀࡿࠋ⸆⌮స⏝࡜ࡋ࡚ⴥࡸⰼᡸࠊ⥲ⱖ∦࡟฼ᒀࠊᙉኊࠊ⫹Ồ
ศἪಁ㐍ࠊ⾑୰ࢥࣞࢫࢸ࣮ࣟࣝపୗࠊ⫹ಖㆤ࡞࡝ࡢస⏝ࡀ▱ࡽࢀࠊື⬦◳໬ࡸ㯤⑇ࠊᾘ໬
୙Ⰻࠊ㣗ḧ୙᣺࡟⏝࠸ࡽࢀ࡚࠸ࡿ G,Hࠋ᪥ᮏ࡟ࡣỤᡞ᫬௦࡟Ώ᮶ࡋࡓࡀᅜෆ࡛ࡣ୕ᾆ༙ᓥ࡜
ᡣ⥲༙ᓥ࡛ࢃࡎ࠿࡟᱂ᇵࡉࢀ࡚࠸ࡿࡢࡳ࡛࠶ࡿ Cࠋ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡࡣࠊ⏕⌮άᛶᡂศ࡜
ࡋ࡚ࠊࢩࢼࣜࣥࠊࣇࣛ࣎ࣀ࢖ࢻࠊ࣏ࣜࣇ࢙ࣀ࣮ࣝࠊ࢝ࣇ࢙㓟ࠊࢡࣟࣟࢤࣥ㓟ࠊ࢝ࣟࢸࣥࠊ
ࣅࢱ࣑ࣥ C ࡸࢭࢫ࢟ࢸࣝ࣌ࣥࣛࢡࢺࣥࡢ㸯ࡘ࡛࠶ࡿࢩࢼࣟࣆࢡࣜࣥࢆྵࡴ C,Iࠋᡃࠎࡣࢤࣝ
ศ㓄࣒࢝ࣛࢡ࣐ࣟࢺࢢࣛࣇ࢕࣮࡟ࡼࡗ࡚࢔࣮ࢸ࢕ࢳ࣮ࣙࢡࡢࢩࢼࣟࣆࢡࣜࣥࢆศ㞳ࡋࠊᙉ
࠸ NF-κB ㌿෗άᛶ㜼ᐖస⏝ࡀ᭷ࡿࡇ࡜ࢆぢฟࡋࡓࠋ
9
࢔࣮ࢸ࢕ࢳ࣮ࣙࢡ࡟ࡣ࢔ࣝࢥ࣮ࣝࡸ D-࢞ࣛࢡࢺࢧ࣑ࣥ࡟ࡼࡿ⫢ᶵ⬟పୗࢆ㜼ᐖࡍࡿస
⏝ࡀᩘከࡃሗ࿌ࡉࢀ࡚࠾ࡾࠊከᩘࡢࢧࣉ࣓ࣜࣥࢺࡶ㈍኎ࡉࢀ࡚࠸ࡿ 28,29ࠋᡃࠎࡀ࢔࣮ࢸ࢕
ࢳ࣮ࣙࢡᢳฟ≀ࢆ⏝࠸࡚࢞ࣛࢡࢺࢧ࣑ࣥࢆ⏝࠸ࡓ⫢ᶵ⬟ホ౯ヨ㦂ࢆᐇ᪋ࡋࡓ࡜ࡇࢁࠊሗ࿌
ࡉࢀ࡚࠸ࡿ࡜࠾ࡾࠊD-࢞ࣛࢡࢺࢧ࣑ࣥ࡟ࡼࡗ࡚ୖ᪼ࡋࡓ⾑୰ࡢ GPT ್ࡀ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡ
ᢳฟ≀ࡢ⤒ཱྀᢞ୚࡟ࡼࡾୖ᪼ࡀᢚไࡉࢀࡓࠋࡉࡽ࡟ࠊ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࡟ࡣ↓Ỉ࢚
ࢱࣀ࣮ࣝࡢᢞ୚ࡸỈᾐᣊ᮰ࢫࢺࣞࢫ࡟ࡼࡾㄏⓎࡉࢀࡓ⫶⢓⭷യᐖࡢᢚไࡸ⫶⢓ᾮࡢቑຍࠊ
⫶⢓ᾮྵ㔞ῶᑡࢆ㜵ࡄࡇ࡜ࡶ☜ㄆࡉࢀࡓࠋࡇࡢຠᯝࡣࠊ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡࡢᡂศ࡛࠶ࡿࢩ
ࢼࣟࣆࢡࣜࣥ࡟ࡼࡿࡶࡢ࡜ሗ࿌ࡉࢀ࡚࠸ࡿ 30ࠋࡋ࠿ࡋࠊࡇࢀࡲ࡛࡟㈍኎ࡉࢀ࡚࠸ࡿ࢔࣮ࢸ
࢕ࢳ࣮ࣙࢡࢆ୺ཎᩱ࡜ࡍࡿࢧࣉ࣓ࣜࣥࢺ࡟ࡣࠊࢩࢼࣜࣥࠊࢡࣟࣟࢤࣥ㓟࡞࡝ࡀ୺ᡂศ࡜ࡋ
࡚ྵࡲࢀ࡚࠸ࡿࡀࢩࢼࣟࣆࢡࣜࣥࡣྵࡲࢀ࡚࠸࡞࠿ࡗࡓࠋࢩࢼࣜࣥࡸࢡࣟࣟࢤࣥ㓟࡟ࡣ
NF-κB 㜼ᐖάᛶࡣㄆࡵࡽࢀ࡞࠿ࡗࡓⅭࠊ᪤Ꮡ〇ရ࡟࠾࠸࡚ྠᵝࡢຠᯝࡣᮇᚅ࡛ࡁ࡞࠸࡜ᛮ
ࢃࢀࡿࠋࢩࢼࣟࣆࢡࣜࣥࡣ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡ௨እ࡟ࡶ࢟ࢲࢳ࢟ࢶࢿ࢔ࢨ࣑ 31 ࡸᮌ㤶 32 ࡞࡝
ᵝࠎ࡞࢟ࢡ⛉ࡢ᳜≀࡟ࡶྵࡲࢀࡿ࡜ሗ࿌ࡉࢀ࡚࠸ࡿࡀࠊ᳜≀࡟࠾ࡅࡿࢩࢼࣟࣆࢡࣜࣥྵ᭷
㔞ࢆẚ㍑ࡋࡓሗ࿌ࡣࡉࢀ࡚࠸࡞࠸ࠋ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡࡣࠊୡ⏺୰࡛㣗ࡉࢀࡿ㔝⳯ࡢࡦ࡜ࡘ
࡛࠶ࡿࡀࠊ୍⯡࡟ὶ㏻ࡍࡿⷣ≧ࡢⰼᡸ㒊ศ࡟ࡣࢩࢼࣟࣆࢡࣜࣥࡣ࡯࡜ࢇ࡝ྵࡲࢀ࡚࠾ࡽࡎࠊ
ࡑࡢ࡯࡜ࢇ࡝ࡣⴥࡢ୰࡟Ꮡᅾࡋ࡚࠸ࡿࠋࡍ࡞ࢃࡕࠊ௒ᅇ NF-κB 㜼ᐖάᛶࢆぢฟࡋࡓࢩࢼࣟ
ࣆࢡࣜࣥࡣࡇࢀࡲ࡛༑ศ࡞◊✲ࡀ࡞ࡉࢀ࡚࠸࡞࠸ࡔࡅ࡛࡞ࡃࠊࡑࡢ⸆⌮άᛶࡶ᭷ຠ࡟฼⏝
࡛ࡁ࡚࠸࡞࠿ࡗࡓྍ⬟ᛶࡀ㧗࠸ࠋ
ᮏ◊✲࡛ࡣࢩࢼࣟࣆࢡࣜࣥࡢ NF-κB ㌿෗άᛶ㜼ᐖస⏝࡜ࡑࡢస⏝ᶵᗎࠊࡉࡽ࡟࣐࢘ࢫ࡟
࠾࠸࡚ࡢ⤒ཱྀᢞ୚࡟ࡼࡿ⓶⭵ග⪁໬㜵Ṇࡢྍ⬟ᛶ࡟ࡘ࠸᳨࡚ウࡋࡓࠋ
10
⾲ 1
௦⾲ⓗ࡞ Phytochemicals
✀㢮
ྡ⛠
䝣䝷䝪䝜䜲䝗
䝫䝸䝣䜵䝜䞊䝹
䝣䜵䝜䞊䝹㢮
䝃䝫䝙䞁
䜲䜸䜴໬ྜ≀
䜹䝻䝔䞁㢮
䝔䝹䝨䞁㢮
ྵ䜎䜜䜛᳜≀
䜰䞁䝖䝅䜰䝙䞁
䝦䝇䝨䝸䝆䞁
䜹䝔䜻䞁
䜿䝹䝉䝏䞁
䜲䝋䝣䝷䝪䞁
䝸䜾䝘䞁
䜽䝻䝻䝀䞁㓟
䜽䝹䜽䝭䞁
䝃䝫䝙䞁
䝇䝹䝣䜷䝷䝣䜯䞁
䜰䝸䝹䜲䝋䝏䜰䝅䝛䞊䝖
䝅䝇䝔䜲䞁䝇䝹䝩䜻䝅䝗
β㻙䜹䝻䝔䞁
α㻙䜹䝻䝔䞁
䝤䝗䜴䞉㯮⡿䞉䝤䝹䞊䝧䝸䞊
䜏䛛䜣䞉䛿䛳䛥䛟
Ⲕ䞉䝽䜲䞁
⋢䛽䛞䞉᯿ᶲ㢮䞉䝋䝞
኱㇋䛺䛹
䝂䝬
䝁䞊䝠䞊䞉䛤䜌䛖
䜴䝁䞁䛺䛹
኱㇋䞉㧗㯇䝙䞁䝆䞁
䝤䝻䝑䝁䝸䞊䞉䜻䝱䝧䝒
䝽䝃䝡
䝙䞁䝙䜽䞉⋢䛽䛞䞉䜻䝱䝧䝒
䝙䞁䝆䞁䞉䛛䜌䛱䜓
䝙䞁䝆䞁䞉䛛䜌䛱䜓䞉䝖䜴䝰䝻䝁䝅
䝸䝁䝢䞁
䝹䝔䜲䞁
䝊䜰䜻䝃䞁䝏䞁
β㻙䜽䝸䝥䝖䜻䝃䞁䝏䞁
䝖䝬䝖䞉䝇䜲䜹䞉ᰠ
䝖䜴䝰䝻䝁䝅䞉䝩䜴䝺䞁䝋䜴䞉䝤䝻䝑䝁䝸䞊
䝖䜴䝰䝻䝁䝅䞉䝩䜴䝺䞁䝋䜴
䜏䛛䜣䞉䜸䝺䞁䝆
䜸䜲䝀䝜䞊䝹
䝸䝰䝛䞁
䝯䞁䝖䞊䝹
䝏䝰䞊䝹
䜽䝻䞊䝤
᯿ᶲ㢮
䝝䝑䜹
䝍䜲䝮䞉䜸䝺䜺䝜
⾲ 2
⮬↛⪁໬࡜ග⪁໬ࡢẚ㍑
ග⪁໬⓶⭵
⾲⓶඲ᒙ
䜿䝷䝏䝜䝃䜲䝖
⾲
⓶
┿
⓶
ཌ䛔
ከᵝ䛺⣽⬊
ᴟᛶ䛾ᾘኻ
䛧䜀䛧䜀⫧኱
䝯䝷䝜䝃䜲䝖
⣽⬊ᩘቑຍ
䝯䝷䝜䝋䞊䝮⏘⏕ቑຍ
ከᵝ䛺⣽⬊
ங㢌┿⓶
ᡥᖹ໬
⥙≧┿⓶
⫧ཌᛶᙎᛶⴎ⦰⑕
ᙎᛶ⧄⥔
ᴟ䜑䛶ቑຍ
↓ᐃᙧ䛾ሢ䜢ᙧᡂ
䝁䝷䞊䝀䞁
⥺⥔᮰ཬ䜃⥺⥔䛿ⴭྡ䛻ῶᑡ
䜾䝸䝁䝃䝭䝜䜾䝸䜹䞁 ⴭྡ䛻ቑຍ
11
ᮏ᮶䛾⪁໬⓶⭵
ⷧ䛔
ᆒ୍䛺⣽⬊
ᴟᛶ䛾ಖᏑ
㏻ᖖⴎ⦰
⣽⬊ᩘῶᑡ
䝯䝷䝜䝋䞊䝮⏘⏕୙඲
ᆒ୍䛺⣽⬊
ᡥᖹ໬
ⷧ䛟䛺䜛
䜋䛸䜣䛹ṇᖖ
⥺⥔᮰䛿ኴ䛟↓㉮ྥ
㍍ᚤῶᑡ
ᅗ 1
NF-κ
κB ࡢάᛶ໬࡟ࡼࡿ⓶⭵࡬ࡢᙳ㡪
ᅗ 2
ྛ✀᳜≀࢚࢟ࢫ࡟ࡼࡿ NF-κ
κB ࡟౫Ꮡࡍࡿ㌿෗άᛶ㜼ᐖస⏝
ྛ✀᳜≀࢚࢟ࢫࡣ 10 ಸ㔞ࡢ 30㸣࢚ࢱࣀ࣮ࣝࢆຍ࠼࡚ᾐₕࡋࠊࢁ㐣ࡋࡓࠋ4κBwt-Luc ࣉࣛࢫ࣑ࢻ࡛ࢺࣛ
ࣥࢫࣇ࢙ࢡࢩࣙࣥࡉࡏࡓ 293 ⣽⬊ࡣࠊ
⤊⃰ᗘ࡜ࡋ࡚ 1%ࡢ᳜≀࢚࢟ࢫࢆຍ࠼ࡓ 2 ᫬㛫ᚋ 1 ng/ml ࡢ TNF-α
࡛ฎ⌮ࡋࡓࠋࡇࢀࡽࡢヨ㦂ࡣᑡ࡞ࡃ࡜ࡶ 3 ᅇ⧞ࡾ㏉ࡉࢀࡓࠋ
12
ヨ㦂ᮦᩱ࡜ヨ㦂᪉ἲ
ヨ㦂ᮦᩱ࡜ヨ㦂᪉ἲ
1.
ᮦᩱ࡜ヨ⸆
࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀ࡣࠊ Cynara scolymus L.ࡢⴥ࡟ 15 ಸ㔞ࡢ 45%࢚ࢱࣀ࣮ࣝࢆຍ࠼
࡚ᾐₕࡋࠊࢁ㐣ᚋࠊࢁᾮࢆ⃰⦰ࠊࡑࡢᚋࠊࢩࢼࣟࣆࢡࣜࣥࡀ 1%࡟࡞ࡿࡼ࠺ࠊࢹ࢟ࢫࢺࣜ
࡛ࣥㄪ〇ࡋࠊ෾⤖஝⇱ࡋࡓࠋࢩࢼࣟࣆࢡࣜࣥࣃ࢘ࢲ࣮㸦CP㸧ࡣ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࠿
ࡽࢤࣝศ㞳࣒࢝ࣛࢆ⏝࠸࡚⢭〇ࡋࠊࢩࢼࣟࣆࢡࣜࣥࡀ 0.65%࡟࡞ࡿࡼ࠺ࢹ࢟ࢫࢺ࡛ࣜࣥㄪ
〇ࡋࡓࠋࢩࢼࣟࣆࢡࣜࣥࡣࠊᕷ㈍ࡢᶆရࢆ bionaturis㸦Sevilleࠊࢫ࣌࢖ࣥ㸧࠿ࡽ㉎ධࡋࡓࠋ
TNF-αࡣ࿴ග⣧⸆㸦Osaka, Japan㸧࠿ࡽ㉎ධࡋࡓࠋNF-κB ౫Ꮡⓗ࡟࣍ࢱࣝࣝࢩࣇ࢙࣮ࣛࢮࢆ
Ⓨ⌧ࡍࡿ pGL3-4kBwt-luc ࣉࣛࢫ࣑ࢻࡣ pGL3-ࣉ࣮ࣟࣔࢱ࣮࣭࣋ࢡࢱ࣮㸦Promega, Madison,
W㸧࡟ HIV-1 ࢚ࣥࣁࣥࢧ࣮⏤᮶ࡢ NF-κB ⤖ྜ㓄ิ㸦GGGACTTTCC㸧ࢆ 4 ࢥࣆ࣮ᤄධࡍࡿ
ࡇ࡜࡟ࡼࡗ࡚స〇ࡉࢀࡓ 17,33-35ࠋNF-κB ࡢࢧࣈࣘࢽࢵࢺ࡛࠶ࡿ p65 ࢆⓎ⌧ࡍࡿࣉࣛࢫ࣑ࢻ
㸦pCMV-p65㸧ࡣࠊᡭሯࡽࡢሗ࿌ࡢ㏻ࡾస〇ࡋࡓ 35ࠋ࣏࣮ࣜࢱ࣮࣭ࣉࣛࢫ࣑ࢻࡣࠊྡྂᒇᕷ
❧኱Ꮫࠊᒸᮏᩍᤵࡼࡾᥦ౪㡬࠸ࡓࠋ
2.
⣽⬊ᇵ㣴
293 ⣽⬊㸦ࣄࢺ⭈⏤᮶ୖ⓶⣔⣽⬊㸧㸦Riken, Tsukuba, Japan㸧ࡣ 10%FBSࠊ1 mM ࡢࢢࣝࢱ
࣑ࣥ㓟ሷࠊ100 units/ml ࡢ࣌ࢽࢩࣜࣥ࡜ 100 mg/ml ࡢࢫࢺࣞࣉࢺ࣐࢖ࢩࣥῧຍࡢ DMEM ࢆ
⏝࠸ࠊ37Υ࡛ᇵ㣴ࡋࡓࠋ⣽⬊ẘᛶࡣࠊMTT ἲ࡟ࡼࡗ࡚ホ౯ࡋࡓࠋࣄࢺṇᖖ⾲⓶࣓ࣛࣀࢧ࢖
ࢺ㸦TOYOBO, Tokyo, Japan㸧ࡣࠊ37Υ࡛ 1㸣࢘ࢩ⫾ඣ⾑Ύࠊ100 units/ml ࣌ࢽࢩࣜࣥࠊ100 μg
13
/ ml ࡢࢫࢺࣞࣉࢺ࣐࢖ࢩࣥῧຍࡢ࣓ࣛࢽࣥ⣽⬊ᇶᮏᇵᆅ㸦TOYOBO㸧࡛ᇵ㣴ࡋࡓࠋࣄࢺṇ
ᖖ⾲⓶ゅ໬⣽⬊㸦KURABO, Osaka, Japan㸧ࡣࠊࢣࣛࢳࣀࢧ࢖ࢺᇶᮏᇵᆅ㸦KURABO㸧ࢆ⏝
࠸ࠊ37Υ࡛ᇵ㣴ࡋࡓࠋࣄࢺṇᖖ⥺⥔ⱆ⣽⬊㸦KURABO㸧ࡣ 5㸣࢘ࢩ⫾ඣ⾑Ύࠊ100 units/ml
࣌ࢽࢩࣜࣥࠊ100 μg/ml ࡢࢫࢺࣞࣉࢺ࣐࢖ࢩࣥῧຍࡢ DMEM ࢆ⏝࠸ࠊ37Υ࡛ᇵ㣴ࡋࡓࠋ
3.
㑇ఏᏊᑟධ࡜ࣝࢩࣇ࢙࣮ࣛࢮ࢔ࢵࢭ࢖
⣽⬊࡟ Fugene-6 ࢺࣛࣥࢫࣇ࢙ࢡࢩࣙࣥヨ⸆㸦Roche, Basal, Switzerland㸧ࢆ⏝࠸࡚ࣉࣛࢫ
࣑ࢻࢆ㑇ఏᏊᑟධࡋࡓࠋ12well ࣉ࣮ࣞࢺ࡛ᇵ㣴ࡉࢀࡓ⣽⬊࡟ࠊ1.5 ml ࡢ Fugene-6 ࠾ࡼࡧ 0.5
μg ࡢࣉࣛࢫ࣑ࢻ DNA ࢆΰྜࡋ࡚ᑟධࡋࡓ 17,34-36ࠋ㑇ఏᏊᑟධࡢ 24 ᫬㛫ᚋࠊヨ㦂ヨᩱࢆῧ
ຍࡋࡓࠋࡑࡢ 2 ᫬㛫ᚋ࡟ TNF-αࢆῧຍࡋ࡚ NF-κB ࢆάᛶ໬ࡉࡏࠊࡉࡽ࡟ 24 ᫬㛫ᇵ㣴ࡋࡓ
ࡢࡕᅇ཰ࡋࡓࠋᅇ཰ࡋࡓ⣽⬊୰ࡢࣝࢩࣇ࢙࣮ࣛࢮάᛶࡣࠊࣝࢩࣇ࢙࣮ࣛࢮ࢔ࢵࢭ࢖ࢩࢫࢸ
࣒㸦Promega㸧࡛ ᐃࡋࡓࠋ ᐃ࡟ࡣࠊ࣑ࣝࣀ࣓࣮ࢱ࣮TD-20/20㸦Promega㸧ࢆ⏝࠸ࡓࠋ㑇
ఏᏊᑟධຠ⋡ࡣࠊෆ㒊ᶆ‽࡜ࡋ࡚ pRL-TK ࣉࣛࢫ࣑ࢻࢆ⏝࠸ࠊ࣍ࢱࣝࣝࢩࣇ࢙࣮ࣛࢮάᛶ
್ࢆ࣑࢘ࢩ࢖ࢱࢣࣝࢩࣇ࢙࣮ࣛࢮάᛶ್࡟ࡼࡗ࡚㝖ࡍࡿࡇ࡜࡛⿵ṇࡋࡓࠋヨ㦂ࡣࢺࣜࣉࣜ
ࢣ࣮ࢺ࡛⾜ࢃࢀࠊ⊂❧ࡋࡓ⣔࡛ 3 ᅇ௨ୖᐇ᪋ࡋࡓࠋ
4.
bFGF ࡜ MMP-1 ࡢᐃ㔞
ᕷ㈍ࡢ EIA ࢟ࢵࢺ㸦bFGF㸸Cytimmune, College Park, MD; MMP-1㸸Amersham Biosciences,
Uppsala, Sweden㸧ࢆ⏝࠸࡚ࠊᣦᐃࡉࢀࡓࣉࣟࢺࢥ࣮ࣝ࡟ᚑࡗ࡚⾜ࡗࡓࠋヨ㦂ࡣࢺࣜࣉࣜࢣ
࣮ࢺ࡛⾜ࢃࢀࠊ⊂❧ࡋࡓ⣔࡛ 2 ᅇ௨ୖᐇ᪋ࡋࡓࠋ
14
5.
࣓ࣛࣀࢧ࢖ࢺቑṪ ᐃ
ࢣࣛࢳࣀࢧ࢖ࢺࡢᇵ㣴ୖΎ࡟ࡼࡿ࣓ࣛࣀࢧ࢖ࢺ⏘⏕ಁ㐍άᛶࢆホ౯ࡍࡿࡓࡵ࡟ࢣࣛࢳࣀ
ࢧ࢖ࢺ࡟ pCMV-p65Vedtor ࢆᑟධࡋࠊ24 ᫬㛫ᇵ㣴ᚋᇵᆅࢆ஺᥮ࡋࡓࠋࡑࡢᚋࠊヨ㦂ヨᩱࢆ
ῧຍࡋࠊ48 ᫬㛫ᇵ㣴ᚋୖΎࢆ᥇ྲྀࡋࡓࠋ࣓ࣛࣀࢧ࢖ࢺࡣ⣽⬊ಁ㐍๣ᮍῧຍࡢ Medium154S
㸦KURABO㸧࡜ࢣࣛࢳࣀࢧ࢖ࢺᇵ㣴ୖΎࢆ 1㸸4 ࡟ΰྜࡋࡓᇵᆅ࡜஺᥮ࡋࠊࡉࡽ࡟ 72 ᫬㛫
ᇵ㣴ᚋࠊ⣽⬊ࢆᅇ཰ࡋࠊ࣓ࣛࣀࢧ࢖ࢺᩘࢆ⣽⬊ᩘ ᐃヨ⸆ WST-1㸦Roche, Basal, Switzerland㸧
ࢆ⏝࠸࡚ ᐃࡋࡓࠋ
6.
ච␿ᰁⰍ࡟ࡼࡿ p65 ࡢᒁᅾࡢほᐹ
NF-κB ࡢ⣽⬊ෆᒁᅾࢆㄪ࡭ࡿࡓࡵ࡟ࠊ293 ⣽⬊࡟ヨ㦂ヨᩱࢆῧຍᚋ 3 ᫬㛫ᇵ㣴ࡋࡓࠋ
TNF-α㸦1 ng/ml㸧ῧຍ࡟ࡼࡾ NF-κB ࢆάᛶ໬ࡋࠊ25 ศᚋ࡟⣽⬊ࢆᅛᐃࡋࡓࠋࡲࡓࠊࢥࣥ
ࢺ࣮ࣟࣝ⩌࡜ࡋ࡚ TNF-αᮍῧຍ⩌ࢆタࡅࡓࠋ
୍ḟᢠయ࡜ࡋ࡚࢘ࢧࢠ࣭࣏ࣜࢡ࣮ࣟࢼࣝ p65 ᢠయ㸦Santa Cruz Biotechnology, Inc., Santa
Cruz, CA㸧ࠊ஧ḟᢠయ࡜ࡋ࡚ࣇࣝ࢜ࣞࢭ࢖ࣥ࢖ࢯࢳ࢜ࢩ࢔ࢿ࣮ࢺ࡛ᶆ㆑ࡉࢀࡓࣖࢠᢠ࢘ࢧࢠ
IgG㸦Cappel, Irvine, CA㸧ࢆ⏝࠸࡚ච␿ᰁⰍࡋࠊp65 ࡢᒁᅾࢆㄪ࡭ࡓ 37ࠋ
7.
UVB ↷ᑕ⓶⭵ࣔࢹ࣐ࣝ࢘ࢫ
5 㐌㱋ࡢ㞝ᛶ DBA/2 ࣐࢘ࢫ 29 ༉ࢆ౑⏝ࡋࡓࠋ࣐࢘ࢫࡣ⣸እ⥺↷ᑕ⩌ࠊ⣸እ⥺↷ᑕ + ࢩ
ࢼࣟࣆࢡࣜࣥࣃ࢘ࢲ࣮㸦CP㸧462.2 mg/kg㸦3.0 mg/kg ࢩࢼࣟࣆࢡࣜࣥ࡟┦ᙜ㸧ᢞ୚⩌ࠊ⣸
እ⥺↷ᑕ + CP 92.4 mg/kg㸦0.6 mg/kg ࢩࢼࣟࣆࢡࣜࣥ࡟┦ᙜ㸧ᢞ୚⩌ࠊࢥࣥࢺ࣮ࣟࣝ⩌࡟
15
ศࡅࡽࢀࡓࠋ࣐࢘ࢫ࡟ࡣẖ᪥ࠊCP ࡲࡓࡣࢥࣥࢺ࣮ࣟࣝ࡜ࡋ࡚ヨ㦂ヨᩱస〇࡟౑⏝ࡋࡓࢹ࢟
ࢫࢺࣜࣥࢆࢰࣥࢹࢆ⏝࠸࡚⤒ཱྀᢞ୚ࡋࡓࠋ⣸እ⥺↷ᑕࡣࠊ12 ᪥㛫࡛ 6 ᅇࠊ280㹼320 nm Ἴ
㛗ࡢ⣸እ⥺ࢆ FL20 SE ࢧࣥࣛࣥࣉ㸦TOSHIBA, Tokyo, Japan㸧ࢆ⏝࠸࡚ 180 mJ/cm2 ࡢ⏝㔞࡛
࣐࢘ࢫ࡟↷ᑕࡋࡓࠋヨ㦂ᮇ㛫୰ࡣ⤒ཱྀᢞ୚ࢆ⾜ࡗࡓᚋࠊ㐌 3 ᅇࠊ⣸እ⥺↷ᑕࢆ⾜ࡗࡓࠋ12
᪥ᚋࠊࡍ࡭࡚ࡢ࣐࢘ࢫ࠿ࡽ⪥௓ࢆ᥇ྲྀࡋ∦ഃࡣࣃࣛࣇ࢕ࣥໟᇙᶆᮏ࡟ࠊࡶ࠺୍᪉ࡣ-80Υ࡟
ಖᏑࡋࡓᚋࠊ࣓ࣛࣀࢧ࢖ࢺᩘࡢィ ࡟⏝࠸ࡓࠋࣃࣛࣇ࢕ࣥໟᇙࡋࡓ⪥௓ࢆ⏝࠸࡚⾲⓶ࡢཌ
ࡉࢆ ᐃࡍࡿࡓࡵࠊ࣐࣊ࢺ࢟ࢩ̺࢚ࣜࣥ࢜ࢪࣥᰁⰍ㸦HE ᰁⰍ㸧ࢆ⾜࠸ࠊගᏛ㢧ᚤ㙾ୗ࡛
᧜ᙳࡋࠊ⏬ീゎᯒࢯࣇࢺ㸦WINROOF㸹Mitani, Fukui, Japan㸧ࢆ౑⏝ࡋ࡚ᩘ್໬ࡋࡓࠋ
ࡲࡓࠊච␿ᰁⰍ࡟ࡼࡗ࡚ቑṪ⣽⬊᰾ᢠཎ㸦PCNA㸧ࡢⓎ⌧ࢆホ౯ࡋࡓࠋࣃࣛࣇ࢕ࣥໟᇙ
ᶆᮏࢆ 3 μm ࡟ษࡾศࡅࠊ⬺ࣃࣛࣇ࢕ࣥࢆ⾜ࡗࡓᚋࠊDako Target Retrieval Solution㸦pH 4.0;
Dako, Glostrup, Denmark㸧࡛ 121Υࠊ5 ศ㛫཯ᛂࡋᢠཎࢆ㟢ฟࡉࡏࡓࠋࣈࣟࢵ࢟ࣥࢢ⁐ᾮ㸦㸣
࢘ࢩ⾑Ύ࢔ࣝࣈ࣑ࣥࠊ㸣࢘ࢩ⫾ඣ⾑Ύ㸧
ࡢධࡗࡓ PBS ࡛཯ᛂᚋࠊᢠ PCNA ึᮇᢠయ㸦
abcam, Cambridge, U.K.㸧࡛ Υࠊ ศ㛫཯ᛂࡉࡏࡓࠋࡉࡽ࡟ࠊAlexa Fluor 594 goat anti-rabbit
IgG 㸦H+L㸧 㸦1:200, Molecular Probes, Eugene, OR㸧࡛ࠊᐊ ࡛ ศ㛫཯ᛂࡉࡏࡓࠋࡲࡓࠊ
᰾ࢆ࣊࢟ࢫࢺ ⁐ᾮ㸦Dojindo Laboratories, Kumamoto, Japan㸧࡟࡚ᰁⰍࡋࡓࠋ
ච␿ᰁⰍᚋࠊ⺯ග㢧ᚤ㙾㸦™㸧㸦Olympus, Tokyo, Japan㸧ࢆ౑⏝ࡋ࡚ほᐹࡋࡓࠋ
⓶⭵⤌⧊୰ࡢ࣓ࣛࣀࢧ࢖ࢺᩘࡢィ ࡣࠊHiramoto ࡽ 38 ࡢ᪉ἲ࡟ࡼࡗ࡚⾜ࡗࡓࠋ᥇ྲྀࡋࡓ
⪥௓࠿ࡽ㌾㦵ࢆྲྀࡾ㝖ࡁࠊ37Υ⎔ቃୗ࡛ 2N NaBr ⁐ᾮ࡟㸰᫬㛫ᾐₕࡋࡓࠋࡑࡢᚋࠊ⓶⭵⤌
⧊࠿ࡽ⾲⓶࠾ࡼࡧᇶᗏᒙࢆ๤㞳ࡋࠊDOPA ᰁⰍࢆࡋࡓࠋ㢧ᚤ㙾ୗ࡛ 5 mm2 ࡢ DOPA 㝧ᛶ࣓
ࣛࣀࢧ࢖ࢺᩘࢆ࢝࢘ࣥࢺࡋࠊ1 mm2 ࠶ࡓࡾࡢ⣽⬊ᩘ࡛♧ࡋࡓࠋ
16
ࡇࢀࡽࡢື≀ᐇ㦂ࡣࠊ೔⌮ㄪᰝጤဨ఍ࡢᢎㄆࢆᚓࡓᚋࠊᐇ᪋ࡉࢀࡓࠋ
8. ⤫ィศᯒ
ࢹ࣮ࢱࡣࠊᑡ࡞ࡃ࡜ࡶ 3 ᅇࡢ⊂❧ࡋࡓᐇ㦂࠿ࡽ㞟ࡵࡽࢀࡓࠋື≀ᐇ㦂ࡣࠊྛ⩌࡟ࡘࡁᑡ
࡞ࡃ࡜ࡶ 7 ༉ࡢື≀࡛ᐇ⾜ࡉࢀࡓࠋࢹ࣮ࢱࡣࠊᖹᆒ +/- S.D.࡜ࡋ࡚♧ࡋࠊ⤫ィⓗ᭷ពᛶࡣࠊ
ANOVA ࡟ࡼࡗ࡚ㄪ࡭ࡽࢀࡓࠋ p㸺0.05 ࡞ࡽࡤࠊ⤫ィⓗ࡟᭷ពᕪ࠶ࡾ࡜ࡋࡓࠋ
⤖ᯝ
1.
NF-κ
κB ㌿෗άᛶ㜼ᐖస⏝
ᅗ 3A ࡛♧ࡍࡼ࠺࡟ࠊࣄࢺ⭈⏤᮶ୖ⓶⣔⣽⬊ 293 ⣽⬊ࡣ TNF-α่⃭࡟ࡼࡾ NF-κB ࡢ㌿
෗άᛶࡣቑຍࡋࡓࠋࡋ࠿ࡋ TNF-αῧຍ๓࡟࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀ࢆῧຍࡋࡓ࡜ࡁࠊ⃰ᗘ
౫Ꮡⓗ࡟ࡑࡢάᛶࢆ㜼ᐖࡋࡓ㸦ᅗ 3A㸧ࠋ
࢔࣮ࢸ࢕ࢳ࣮ࣙࢡ࡟ྵࡲࢀࡿࢭࢫ࢟ࢸࣝ࣌ࣥࣛࢡࢺࣥࡢ 1 ✀࡛࠶ࡿࢩࢼࣟࣆࢡࣜࣥ
㸦ᅗ 3B㸧ࡣ NF-κB ࡢ㌿෗άᛶ㜼ᐖస⏝ࢆ♧ࡋࡓ㸦ᅗ 3C㸧ࠋࡲࡓࠊ⏝࠸ࡓ⃰ᗘ࡟࠾࠸࡚᭷
ព࡞⣽⬊ẘᛶࡣㄆࡵࡽࢀ࡞࠿ࡗࡓࠋ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࡜ࢩࢼࣟࣆࢡࣜࣥࡢ NF-κB ㌿
෗άᛶࢆྠ୍ࢢࣛࣇୖ࡟♧ࡋࡓ㸦ᅗ 3D㸧ࠋ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࡟ྵࡲࢀࡿࢩࢼࣟࣆࢡ
ࣜࣥ⃰ᗘࢆ X ㍈ୖ࡛ᥞ࠼ࡓ࡜ࡁࠊ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࡜ࢩࢼࣟࣆࢡࣜࣥࡢ NF-κB ά
ᛶ㜼ᐖࡣྠ⛬ᗘ࡛࠶ࡗࡓࠋࡇࡢ⤖ᯝࡣࠊNF-κB ࡢ㌿෗άᛶࢆ㜼ᐖࡍࡿ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳ
17
ฟ≀ࡢάᛶᡂศࡀࢩࢼࣟࣆࢡ࡛ࣜࣥ࠶ࡿྍ⬟ᛶࡀᴟࡵ࡚㧗ࡃࠊ┦஌ⓗࡶࡋࡃࡣ┦ຍⓗ࡟స
⏝ࡍࡿ௚ࡢ≀㉁ࡀ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࡟ࡣྵࡲࢀ࡞࠸ࡇ࡜ࢆ♧ࡋ࡚࠸ࡿࠋ
A
B
18
C
D
ᅗ 3
࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࡜ࢩࢼࣟࣆࢡࣜࣥ࡟ࡼࡿ NF-κ
κB ㌿෗άᛶ㜼ᐖస⏝
㸦A㸧ᕥᅗ㸸࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀ࡢ NF-κB ㌿෗άᛶ࡬ࡢຠᯝࠋ4κBwt-Luc ࣉࣛࢫ࣑ࢻ࡛ࢺࣛࣥࢫࣇ
࢙ࢡࢩࣙࣥࡉࡏࡓ 293 ⣽⬊ࡣࠊ⤊⃰ᗘ࡜ࡋ࡚ 140ࠊ280 ࡲࡓࡣ 560 μg/mL ࡢ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀ࢆ
ຍ࠼ࡓ 2 ᫬㛫ᚋ 1 ng/ml ࡢ TNF-α࡛ฎ⌮ࡋࡓࠋࡇࢀࡽࡢヨ㦂ࡣᑡ࡞ࡃ࡜ࡶ 3 ᅇ⧞ࡾ㏉ࡉࢀࡓࠋྑᅗ㸸࢔
࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀ࡢ⣽⬊ẘᛶ ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࡟ࡼࡿ⣽⬊ẘᛶࡣほᐹࡉࢀ࡞࠿ࡗࡓࠋࢹ࣮
ࢱࡣᖹᆒsS.D.ࠊ᭷ពᕪࡣ ANOVA ࡟ࡼࡾ ** p <0.01ࠊn.s. ᭷ពᕪ࡞ࡋ࡜♧ࡋࡓࠋ
㸦B㸧ࢩࢼࣟࣆࢡࣜࣥࡢ໬Ꮫᵓ㐀
㸦C㸧ᕥᅗ㸸ࢩࢼࣟࣆࢡࣜࣥࡢ NF-κB ㌿෗άᛶ࡬ࡢຠᯝࠋ293 ⣽⬊ࡣࢩࢼࣟࣆࢡࣜࣥ㸦2ࠊ4 ࡲࡓࡣ 8 μM㸧
࡛๓ฎ⌮ࡉࢀࠊ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࡜ྠᵝࡢ᪉ἲ࡛ࣝࢩࣇ࢙࣮ࣛࢮάᛶࢆ ᐃࡋࡓࠋྑᅗ㸸ࢩࢼࣟ
ࣆࢡࣜࣥࡢ⣽⬊ẘᛶ ࢩࢼࣟࣆࢡࣜࣥ࡟ࡼࡿ⣽⬊ẘᛶࡣほᐹࡉࢀ࡞࠿ࡗࡓࠋࢹ࣮ࢱࡣᖹᆒsS.D.ࠊ᭷ព
ᕪࡣ ANOVA ࡟ࡼࡾ ** p <0.01ࠊn.s. ᭷ពᕪ࡞ࡋ࡜♧ࡋࡓࠋ
㸦D㸧࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀࡜ࢩࢼࣟࣆࢡࣜࣥࡢ NF-κB ㌿෗άᛶ㜼ᐖࡢẚ㍑
19
2.
ࢩࢼࣟࣆࢡࣜࣥ࡟ࡼࡿ NF-κ
κB ࡬ࡢస⏝ᶵᗎ
ࢩࢼࣟࣆࢡࣜࣥ࡟ࡼࡿ NF-κB ࡢ㌿෗㜼ᐖ࣓࢝ࢽࢬ࣒ࢆ᫂ࡽ࠿࡟ࡍࡿࡓࡵࠊᡃࠎࡣࠊ293
⣽⬊࡬ pCMV -p65 ࢆࢺࣛࣥࢫࣇ࢙ࢡࢩࣙࣥࡋࠊp65 㑇ఏᏊࢆ㐣๫Ⓨ⌧ࡉࡏࡓࠋp65 㑇ఏᏊ
ࡢ㐣๫Ⓨ⌧ࡣࠊI-κB ࡢࣜࣥ㓟໬ࡸศゎ࡞࡝ࡢ NF-κB ࡢ᰾⛣⾜࡟ࡘ࡞ࡀࡿṇᖖ࡞ࢩࢢࢼࣝఏ
㐩⤒㊰ࢆࣂ࢖ࣃࢫࡋ࡚ࠊ௵ពࡢ่⃭࡞ࡋ࡟ NF-κB ᶆⓗ㑇ఏᏊࡢ㌿෗࡟ᑐࡍࡿᙳ㡪ࢆࡳࡿࡇ
࡜ࡀ࡛ࡁࡿࠋᅗ 4A ࡟♧ࡍࡼ࠺࡟ࠊࢩࢼࣟࣆࢡࣜࣥࡣ p65 ࡟ࡼࡿ㌿෗άᛶࢆ TNF-α่⃭࡟
ࡼࡿ㌿෗άᛶ࡜ྠᵝ࡟⃰ᗘ౫Ꮡⓗ࡟㜼ᐖࡋࡓࠋࡇࢀࡽࡢ▱ぢࡣࠊࢩࢼࣟࣆࢡࣜࣥࡢ୺せ࡞
ࢱ࣮ࢤࢵࢺࡣ I-κB ࡢࣜࣥ㓟໬࡜ศゎࡢୗὶ࡛࠶ࡿࡇ࡜ࢆ♧ࡋ࡚࠸ࡿࠋࡲࡓࠊ᰾⛣⾜࡟࠾ࡅ
ࡿࢩࢼࣟࣆࢡࣜࣥࡢຠᯝࢆ NF-κB㸦p65㸧ࡢච␿⺯ගἲ࡟ࡼࡾㄪ࡭ࡓࠋTNF-α่⃭࡟ࡼࡾㄏ
Ⓨࡉࢀࡓ NF-κB ࡢ᰾⛣⾜ࡣࢩࢼࣟࣆࢡࣜࣥ࡟ࡼࡾ㜼ᐖࡉࢀࡓ㸦ᅗ 4B㸧ࠋ
A
ᅗ4
B
p65 ࡢ㌿෗άᛶ࡬ࡢࢩࢼࣟࣆࢡࣜࣥࡢ㜼ᐖస⏝㸦
κB ࡢ᰾⛣⾜ᢚไ㸦B㸧
ࡢ㌿෗άᛶ࡬ࡢࢩࢼࣟࣆࢡࣜࣥࡢ㜼ᐖస⏝㸦A㸧࡜
࡬ࡢࢩࢼࣟࣆࢡࣜࣥࡢ㜼ᐖస⏝㸦 㸧࡜ NF-κ
ࡢ᰾⛣⾜ᢚไ㸦 㸧
㸦A㸧p65 ࢆ㐣๫Ⓨ⌧ࡉࡏࡓ 293 ⣽⬊࡟ࢩࢼࣟࣆࢡࣜࣥࢆ 2ࠊ4 ࡲࡓࡣ 8 μM ຍ࠼ࡓࠋࢹ࣮ࢱࡣᖹᆒsS.D.ࠊ
᭷ពᕪࡣ ANOVA ࡟ࡼࡾ ** p <0.01 ࡜♧ࡋࡓࠋ
㸦B㸧ࢩࢼࣟࣆࢡࣜࣥ(8 μM)ࡣ TNF-αῧຍ๓࡟ຍ࠼ࡽࢀࡓࠋ
20
3.
bFGF ࠾ࡼࡧ MMP-1 ⏘⏕࡟࠾ࡅࡿ⏘⏕㜼ᐖస⏝
⣸እ⥺࡟ㄏⓎࡉࢀࡿ⓶⭵ࡢኚ໬ࡣࠊbFGF ࡜ MMP-1 ࡟ࡼࡗ࡚፹௓ࡉࢀࡿࡇ࡜ࡀ▱ࡽࢀ
࡚࠸ࡿ 8,39ࠋNF-κB ࡢࢧࣈࣘࢽࢵࢺ࡛࠶ࡿ p65 ࢆᑟධࡋࡓࢣࣛࢳࣀࢧ࢖ࢺ࡛ࡣࠊᖖ࡟ NF-κB
ࡀάᛶ໬ࡋࡓ≧ែ࡜࡞ࡾࠊbFGF ࡜ MMP-1 ࡢ⏘⏕ࢆㄏᑟࡉࢀࡿࡇ࡜ࡀሗ࿌ࡉࢀࡓ 18,34ࠋᅗ
5A ࡟♧ࡍ࡜࠾ࡾࠊࢩࢼࣟࣆࢡࣜࣥࡣ NF-κB 㸦p65㸧ࡀ㐣๫Ⓨ⌧ࡋࡓࢣࣛࢳࣀࢧ࢖ࢺࡢ bFGF
⏘⏕ࢆ᭷ព࡟㜼ᐖࡋࡓࠋྠᵝ࡟ࠊᅗ 5B ࡣࢩࢼࣟࣆࢡࣜࣥࡀ⓶⭵⥺⥔ⱆ⣽⬊࠿ࡽࡢ MMP-1
⏘⏕ࡶ᭷ព࡟㜼ᐖࡍࡿࡇ࡜ࢆ♧ࡋ࡚࠸ࡿࠋ
A
B
ᅗ 5
p65 ࢆ㐣๫Ⓨ⌧ࡉࡏࡓࢣࣛࢳࣀࢧ࢖ࢺ࡟࠾ࡅࡿ bFGF ⏘⏕㸦A㸧࡜
⏘⏕㸦 㸧࡜ p65 ࢆ㐣๫Ⓨ⌧ࡉࡏ
ࡓ⥺⥔ⱆ⣽⬊࡟࠾ࡅࡿ MMP-1 ⏘⏕㸦B㸧
⏘⏕㸦 㸧࡬ࡢࢩࢼࣟࣆࢡࣜࣥࡢຠᯝ
⾲⓶ゅ໬⣽⬊࡜⥺⥔ⱆ⣽⬊ࡣࢩࢼࣟࣆࢡࣜࣥ 4 μM ࢆຍ࠼࡚ヨ㦂ࡋࡓࠋࢹ࣮ࢱࡣᖹᆒsS.D.ࠊ᭷ពᕪࡣ
ANOVA ࡟ࡼࡾ ** p <0.01ࠊ * p <0.05 ࡜♧ࡋࡓࠋ
21
4.
࣓ࣛࣀࢧ࢖ࢺቑṪ࡟࠾ࡅࡿ㜼ᐖຠᯝ
⓶⭵࡟࠾࠸࡚࣓ࣛࢽࣥⰍ⣲ࢆసࡿ⾲⓶࣓ࣛࣀࢧ࢖ࢺࡣࠊ⣸እ⥺ࡸ៏ᛶⓗ࡞⅖⑕➼࡛ቑ
ຍࡋࠊࡑࢀࡀ⓶⭵࡟࠾ࡅࡿ࣓ࣛࢽࣥ⏘⏕㔞ࡢቑ኱࡟ࡘ࡞ࡀࡿ࡜࠸ࢃࢀ࡚࠸ࡿ 8ࠋ࣓ࣛࢽࣥ
⏘⏕㔞ࡢቑຍࡋࡓ⓶⭵࡛ࡣࠊ࣓ࣛࣀࢧ࢖ࢺᩘࡀቑ࠼࡚࠾ࡾࠊࡑࡢ㐣⛬࡟ࢣࣛࢳࣀࢧ࢖ࢺෆ
࡛సࡽࢀࡿ NF-κB ౫Ꮡᛶ bFGF ࡀ㛵୚ࡋ࡚࠸ࡿࡇ࡜ࡀሗ࿌ࡉࢀ࡚࠸ࡿ 17ࠋNF-κB 㸦p65㸧
ࢆ㐣๫Ⓨ⌧ࡉࡏࡓࢣࣛࢳࣀࢧ࢖ࢺࡢᇵ㣴ୖΎࢆຍ࠼࡚ࠊ࣓ࣛࣀࢧ࢖ࢺࢆᇵ㣴ࡋࡓ࡜ࡇࢁࠊ
࣓ࣛࣀࢧ࢖ࢺࡢ᭷ព࡞ቑຍࡀほᐹࡉࢀࡓࠋࡋ࠿ࡋࠊ࠶ࡽ࠿ࡌࡵࢣࣛࢳࣀࢧ࢖ࢺ࡟ࢩࢼࣟࣆ
ࢡࣜࣥࢆῧຍࡋ࡚ᇵ㣴ࡍࡿ࡜࣓ࣛࣀࢧ࢖ࢺࡢቑṪࡣ㜼ᐖࡉࢀࡓ㸦ᅗ 6AࠊB㸧ࠋ
A
B
ᅗ p65 ࢆ㐣๫Ⓨ⌧ࡉࡏࡓࢣࣛࢳࣀࢧ࢖ࢺᇵ㣴ୖΎࡢ࣓ࣛࣀࢧ࢖ࢺቑຍ࡟ᑐࡍࡿࢩࢼࣟࣆࢡ
ࣜࣥࡢຠᯝ
ࣜࣥࡢຠᯝ
㸦A㸧p65 ࢆ㐣๫Ⓨ⌧ࡉࡏࡓࢣࣛࢳࣀࢧ࢖ࢺ࡟ࢩࢼࣟࣆࢡࣜࣥ 4 μM ࢆຍ࠼࡚ヨ㦂ࡋࡓࠋࢹ࣮ࢱࡣᖹᆒ
sS.D.ࠊ᭷ពᕪࡣ ANOVA ࡟ࡼࡾ* p <0.05 ࡜♧ࡋࡓࠋ
㸦B㸧ࢣࣛࢳࣀࢧ࢖ࢺᇵ㣴ୖΎࡢ࣓ࣛࣀࢧ࢖ࢺ࡬ࡢస⏝ࠋ
22
5.
ࢩࢼࣟࣆࢡࣜࣥࡢ࣐࢘ࢫ⤒ཱྀᢞ୚࡟ࡼࡿ⾲⓶⫧ཌ࠾ࡼࡧ࣓ࣛࢽࣥ⏘⏕ࡢᢚไຠᯝ
⣸እ⥺࡟ࡼࡿ⾲⓶ࡢ⫧ཌࡸⰍ⣲ỿ╔ࡀࠊ㐣๫࡞ bFGF ࡟ࡼࡿࢣࣛࢳࣀࢧ࢖ࢺ 8,10,11 ࡜࣓
ࣛࣀࢧ࢖ࢺࡢ㐣ቑṪ࠿ࡽ⏕ࡌࡿࡇ࡜ࡣࡼࡃ▱ࡽࢀ࡚࠸ࡿ 39,40ࠋࡲࡓࠊNF-κB ᢚไ๣ࡢ౑⏝
ࡀ UVB ↷ᑕ࡟ࡼࡿ⾲⓶ࡢ⫧ཌࢆᢚไࡍࡿࡇ࡜ࡀሗ࿌ࡉࢀ࡚࠸ࡿ 17,18,34ࠋᮏヨ㦂࡛ࡣ UVB
↷ᑕ࡟ࡼࡾㄏⓎࡉࢀࡿ⓶⭵㞀ᐖ࡬ࡢࢩࢼࣟࣆࢡࣜࣥࣃ࢘ࢲ࣮㸦CP㸧ࡢ⤒ཱྀᢞ୚࡟ࡼࡿᙳ㡪
ࢆㄪ࡭ࡓࠋᅗ 7AࠊB ࡟♧ࡍ࡜࠾ࡾࠊࢥࣥࢺ࣮ࣟࣝ⩌࡟ẚ࡭ UV ↷ᑕ⩌ࡀ 1.7 ಸࡢ⾲⓶ࡢ⫧
ཌࢆㄏⓎࡋࡓࡢ࡟ᑐࡋ࡚ࠊ462.2 mg/kg CP㸦3.0 mg/kg ࡢࢩࢼࣟࣆࢡࣜࣥ࡟➼ࡋ࠸㸧ᢞ୚⩌
࡛ࡣࠊࢥࣥࢺ࣮ࣟࣝ⩌࡜ྠ⛬ᗘࡲ࡛ᢚไࡋࡓࠋ ྠᵝ࡟ࠊ92.4 mg/kg CP㸦0.6 mg/kg ࡢࢩࢼ
ࣟࣆࢡࣜࣥ࡟➼ࡋ࠸㸧ᢞ୚⩌࡛ࡣࠊ⾲⓶ࡢ⫧ཌࢆ᭷ព࡟ῶᑡࡉࡏࡓࠋࡇࢀࡽࡢ⤖ᯝࡣࠊࢩ
ࢼࣟࣆࢡࣜࣥࡀ⃰ᗘ౫Ꮡⓗ࡟ࢣࣛࢳࣀࢧ࢖ࢺࡢ㐣ቑṪࢆᢚไࡋࡓࡇ࡜ࢆ♧ࡋ࡚࠸ࡿࠋᅗ 7C
࡟♧ࡋࡓච␿ᰁⰍ࡟ࡼࡾ᳨ドࡋࡓ PCNA 㝧ᛶ⣽⬊ᩘࡣࡍ࡭࡚ࡢ⩌࡛㐪࠸ࢆㄆࡵ࡞࠿ࡗࡓࠋ
ࡋ࠿ࡋࠊUV ↷ᑕ⩌࡛ࡣ᭷᰾⣽⬊ᩘࡀ㢧ⴭ࡟ቑຍࡋ࡚࠸ࡓࡢ࡟ᑐࡋࠊCP ᢞ୚⩌࡛ࡣ᭷᰾⣽
⬊ࡢቑຍࡣㄆࡵࡽࢀ࡞࠿ࡗࡓࠋ
ࡲࡓࠊDOPA 㝧ᛶ࣓ࣛࣀࢧ࢖ࢺᩘࢆẚ㍑ࡋࡓ࡜ࡇࢁࠊࢥࣥࢺ࣮ࣟࣝ⩌࡟ẚ࡭ UV ↷ᑕ⩌
࡛ࡣ 4.3 ಸࡢ࣓ࣛࣀࢧ࢖ࢺቑຍࢆㄆࡵࡓࡀࠊ92.4 mg/kg ࡲࡓࡣ 462.2 mg/kg ࡢ CP ᢞ୚⩌࡛
ࡣ࣓ࣛࣀࢧ࢖ࢺࡢቑຍࡀ᭷ព࡟ᢚไࡉࢀࡓ㸦ᅗ 8AࠊB㸧ࠋ
23
A
B
24
C
ᅗ 7
UVB↷ᑕ࡛ㄏⓎࡉࢀࡿ⾲⓶ࡢ⫧ཌ࡟ᑐࡍࡿࢩࢼࣟࣆࢡࣜࣥࡢᢚไ
↷ᑕ࡛ㄏⓎࡉࢀࡿ⾲⓶ࡢ⫧ཌ࡟ᑐࡍࡿࢩࢼࣟࣆࢡࣜࣥࡢᢚไຠᯝ
↷ᑕ࡛ㄏⓎࡉࢀࡿ⾲⓶ࡢ⫧ཌ࡟ᑐࡍࡿࢩࢼࣟࣆࢡࣜࣥࡢᢚไຠᯝ
㸦A㸧 UV ↷ᑕࡋࡓ࣐࢘ࢫ⓶⭵ࡢ HE ᰁⰍ
㸦A,B㸧UV ↷ᑕ࡟ࡼࡿ⾲⓶㐣ቑṪ࡬ࡢ CP ࡢຠᯝࠋDBA/2 ࣐࢘ࢫࡣ↓సⅭ࡟ 4 ⩌࡟ศࡅࠊྛ⩌ᙜࡓࡾ
ᑡ࡞ࡃ࡜ࡶ 7 ༉⏝࠸ࡓࠋCP ᢞ୚⩌ࡣࠊ462.2 mg/kg㸦ࢩࢼࣟࣆࢡࣜࣥ 3 mg/kg ࡟┦ᙜ㸧ࡲࡓࡣ 92.4 mg/kg
㸦ࢩࢼࣟࣆࢡࣜࣥ 0.6 mg/kg ࡟┦ᙜ㸧ࢆ㐃᪥⤒ཱྀᢞ୚ࡋࡓࠋUV ↷ᑕ⩌࡜ࢥࣥࢺ࣮ࣟࣝ⩌࡟ࡣࠊ462.2 mg/kg
ࡢࢹ࢟ࢫࢺࣜࣥࢆྠᵝ࡟ᢞ୚ࡋࡓࠋࢹ࣮ࢱࡣᖹᆒsS.D.ࠊ᭷ពᕪࡣ ANOVA ࡟ࡼࡾ ** p <0.01ࠊ * p <0.05
࡜♧ࡋࡓࠋscale bar = 20μm.
㸦C㸧࣐࢘ࢫ⓶⭵ࡢ PCNA Ⓨ⌧ࡢච␿ᰁⰍࠋscale bar = 20μm.
25
A
B
ᅗ UVB↷ᑕ
↷ᑕ࡟ࡼࡿ࣓ࣛࣀࢧ࢖ࢺቑṪ࡟ᑐࡍࡿࢩࢼࣟࣆࢡࣜࣥ࡟ࡼࡿᢚไຠᯝ
↷ᑕ࡟ࡼࡿ࣓ࣛࣀࢧ࢖ࢺቑṪ࡟ᑐࡍࡿࢩࢼࣟࣆࢡࣜࣥ࡟ࡼࡿᢚไຠᯝ
࡟ࡼࡿ࣓ࣛࣀࢧ࢖ࢺቑṪ࡟ᑐࡍࡿࢩࢼࣟࣆࢡࣜࣥ࡟ࡼࡿᢚไຠᯝ
㸦A㸧࣓ࣛࣀࢧ࢖ࢺࡢL-DOPAᰁⰍ
㸦A,B㸧UV↷ᑕ࡟ࡼࡿ࣓ࣛࣀࢧ࢖ࢺቑṪ࡬ࡢCPࡢຠᯝࠋDBA/2 ࣐࢘ࢫࡣ↓సⅭ࡟ 4 ⩌࡟ศࡅࠊྛ⩌ᙜࡓ
ࡾᑡ࡞ࡃ࡜ࡶ 7 ༉⏝࠸ࡓࠋCPᢞ୚⩌ࡣࠊ462.2 mg/kg㸦ࢩࢼࣟࣆࢡࣜࣥ 3 mg/kg࡟┦ᙜ㸧ࡲࡓࡣ 92.4 mg/kg
㸦ࢩࢼࣟࣆࢡࣜࣥ 0.6 mg/kg࡟┦ᙜ㸧ࢆ㐃᪥⤒ཱྀᢞ୚ࡋࡓࠋUV↷ᑕ⩌࡜ࢥࣥࢺ࣮ࣟࣝ⩌࡟ࡣࠊ462.2 mg/kg
ࡢࢹ࢟ࢫࢺࣜࣥࢆྠᵝ࡟ᢞ୚ࡋࡓࠋࢹ࣮ࢱࡣᖹᆒsS.D.ࠊ᭷ពᕪࡣANOVA࡟ࡼࡾ ** p<0.01ࠊn.s. ᭷ពᕪ
࡞ࡋ࡜♧ࡋࡓࠋscale bar = 500μm.
26
⪃ ᐹ
⣸እ⥺ࡣ⓶⭵࡟᭷ᐖ࡞⎔ቃせᅉࡢ㸯ࡘ࡛࠶ࡾࠊ⓶⭵⪁໬ࡢཎᅉ࡛࠶ࡿࡇ࡜ࡀ▱ࡽࢀ࡚
࠸ࡿ 7,41,42ࠋ⣸እ⥺࡟ࡼࡾ⓶⭵࡛ࡣ IL-1ࠊTNF-αྵࡴ⅖⑕ᛶࢧ࢖ࢺ࢝࢖ࣥ 43-46 ࡸ MMP-1,
bFGF ࡀ⏘⏕ࡉࢀࡿ 15,16ࠋNF-κB ࡣච␿⅖⑕཯ᛂࡢỴᐃⓗᅉᏊ࡛ࠊ⅖⑕ᛶࢧ࢖ࢺ࢝࢖࡛ࣥ࠶
ࡿ IL-1 ࡜ TNF-αࡀ NF-κB ࢆㄏⓎࡍࡿࡇ࡜ࡀ▱ࡽࢀ࡚࠸ࡿ 37ࠋNF-κB ࡣ࢔ࣞࣝࢠ࣮ᛶ⓶⭵
⅖ࡸ஝Ⓞࠊ⓶⭵ࡀࢇࢆྵࡴࡉࡲࡊࡲ࡞⓶⭵⑓࡟ࡶ㛵ಀࡋ 12ࠊࡲࡓࠊ⣸እ⥺࡟ࡼࡗ࡚άᛶ໬
ࡉࢀࠊIL-1ࠊTNF-αࠊMMP-1ࠊbFGF ࡞࡝ࡢ㑇ఏᏊⓎ⌧ࢆㄏⓎࡍࡿࡇ࡜࡛⓶⭵ࡢ⪁໬ࢆ㉳ࡇ
ࡍ࡜ሗ࿌ࡉࢀ࡚࠸ࡿ 10,11ࠋNF-κB ࡢ㌿෗άᛶ㜼ᐖࡣࠊ⣸እ⥺࡟ࡼࡗ࡚ㄏⓎࡉࢀࡿ⑓ⓗ࡞ኚ
໬ࡸග⪁໬ࡢቑᝏࢆண㜵ࡍࡿୖ࡛㔜せ࡞ᙺ๭ࢆᯝࡓࡋ࡚࠸ࡿ࡜⪃࠼ࡽࢀࡿࠋࡇࢀࡲ࡛࡟᪤
▱ࡢ NF-κB 㜼ᐖ๣࡛࠶ࡿ parthenolide ࡢ⣸እ⥺࡟ࡼࡾㄏᑟࡉࢀࡿග⪁໬㜵Ṇస⏝ࡸ NF-κB
㜼ᐖ๣ࡢᒁᡤ㐺⏝࡟ࡼࡿග⪁໬ࡢ㜵Ṇࡀሗ࿌ࡉࢀ࡚࠸ࡿ 18,34ࠋ
ᮏ◊✲࡟࠾࠸࡚ࠊ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡࡀຠᯝⓗ࡟ NF-κB ࡢ㌿෗άᛶࢆ㜼ᐖࡋࠊග⪁໬ࣉࣟ
ࢭࢫࢆ㜵Ṇ࡛ࡁࡿ࡜ሗ࿌ࡋࡓࠋࡲࡓࠊ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡࡢᡂศࡢ㸯ࡘ࡛࠶ࡿࢩࢼࣟࣆࢡࣜ
ࣥࡀᢠග⪁໬స⏝ࢆᣢࡘࡇ࡜ࡶ☜ㄆࡋࡓࠋࢩࢼࣟࣆࢡࣜࣥࡀ NF-κB㸦p65㸧ࡢ㌿෗άᛶࢆ
㜼ᐖࡋࡓࡇ࡜࠿ࡽࠊࢩࢼࣟࣆࢡࣜࣥࡢ NF-κB 㜼ᐖࡢ୺せ࡞ࢱ࣮ࢤࢵࢺࡣࠊI-κB ࡢಟ㣭ࠊศ
ゎࡼࡾࡶୗὶ࡟࠶ࡿ࡜⪃࠼ࡽࢀࡿࠋࡉࡽ࡟ࠊࢩࢼࣟࣆࢡࣜࣥࡣ NF-κB ࡢ᰾⛣⾜ࢆ㜼ᐖࡋࡓࠋ
ࡼࡗ࡚ࠊస⏝ᶵᗎࡢ 1 ࡘ࡜ࡋ࡚ࢩࢼࣟࣆࢡࣜࣥࡀάᛶ໬ࡉࢀࡓ NF-κB ࡢ᰾⛣⾜ࢆ㜼ᐖࡍࡿ
ࡇ࡜ࡀ♧၀ࡉࢀࡓࠋࡲࡓࠊࢩࢼࣟࣆࢡࣜࣥࡢ⤒ཱྀᢞ୚ࡀ⾲⓶ࡢ⫧ཌࡸ࣓ࣛࣀࢧ࢖ࢺࡢ㐣ቑ
Ṫ࡜࠸ࡗࡓ⣸እ⥺࡟ࡼࡾᘬࡁ㉳ࡇࡉࢀࡿ⓶⭵ࡢග⪁໬ࢆᢚไ࡛ࡁࡿࡇ࡜ࢆ᫂ࡽ࠿࡟ࡋࡓࠋ
27
⤖ㄽ
ᮏ◊✲࡟࠾࠸࡚ࠊࢩࢼࣟࣆࢡࣜࣥࡀ⾲⓶ࡢ⫧ཌࡸ࣓ࣛࣀࢧ࢖ࢺࡢ㐣ቑṪ࡜࠸ࡗࡓග⪁໬
ࢆᢚไ࡛ࡁࡿࡇ࡜ࢆ᫂ࡽ࠿࡟ࡋࡓࠋ⓶⭵ග⪁໬ࡢࣉࣟࢭࢫࡢ୺ᅉࡣ NF-κB ࡛࠶ࡿ࡜࠸࠺ࡇ
࡜࡟ᇶ࡙ࡁࠊࢩࢼࣟࣆࢡࣜࣥࡢ⤒ཱྀᢞ୚ࡀ NF-κB ࡢ㌿෗άᛶࢆ㜼ᐖࡍࡿࡇ࡜࡟ࡼࡾග⪁໬
࡟ᑐࡋ࡚ຠᯝⓗ࡞ࡇ࡜ࢆ⣽⬊ࡸ࣐࢘ࢫࢆ⏝࠸ࡓᐇ㦂ࢆ㏻ࡌ࡚ド࡛᫂ࡁࡓࠋ
ࡇࡢ࢔࣮ࢸ࢕ࢳ࣮ࣙࢡᢳฟ≀ࡣ໬⢝ရࡸ⨾ᐜ┠ⓗࡢࢧࣉ࣓ࣜࣥࢺ࡞࡝࠸ࡃࡘ࠿ࡢၟရ࡟
ᛂ⏝ࡉࢀ࡚࠾ࡾࠊࢩࢼࣟࣆࢡࣜࣥࡢ౑⏝࡟ࡼࡿග⪁໬㜵Ṇࡢ࣓࢝ࢽࢬ࣒ࡀࡉࡽ࡟ゎ᫂ࡉࢀ
ࡿࡇ࡜ࡀᮇᚅࡉࢀࡿࠋ
ㅰ㎡
✏ࢆ⤊ࢃࡿ࡟⮫ࡳࠊᮏ◊✲ࡢ㐙⾜࡟㝿ࡋ࡚ࠊ⤊ጞᚚᣦᑟ࡜ࡈ㠴᧡ࢆ㈷ࡾࡲࡋࡓᒱ㜧኱Ꮫ
኱Ꮫ㝔㐃ྜ๰⸆་⒪᝟ሗ◊✲⛉๰⸆⛉Ꮫᑓᨷ ㉥ᑿ ᖾ༤ ᩍᤵ࡟ᚰ࠿ࡽឤㅰ࠸ࡓࡋࡲࡍࠋ
ᮏ◊✲࡟㝿ࡋࠊpGL3-4kBwt-lucࠊpCMV-p65 ࢆᥦ౪࠸ࡓࡔ࠸ࡓྡྂᒇᕷ❧኱Ꮫ኱Ꮫ㝔་
Ꮫ◊✲⛉⣽⬊ศᏊ⏕≀Ꮫศ㔝 ᒸᮏ ᑦ ᩍᤵ࡟ཌࡃᚚ♩⏦ࡋୖࡆࡲࡍࠋ
ᮏ◊✲࡟㝿ࡋ⤊ጞ῝࠸ࡈ⌮ゎࢆ࠸ࡓࡔࡁࡲࡋࡓ୍୸ࣇ࢓ࣝࢥࢫᰴᘧ఍♫ Ᏻ⸨ⰾᙪ♫㛗ࠊ
ᆤ஭ㄔ㛤Ⓨ㒊㛗࡟῝ㅰ⮴ࡋࡲࡍࠋ
28
ཧ⪃ᩥ⊩
1. Son TG.; Camandola S.; Mattson MP. 2008. Hormetic dietary phytochemicals. Neuromolecular
Med. 10, 4, 236.
2. Mattson MP.; Cheng A. 2006. Neurohormetic phytochemicals: low-dose toxins that induce
adaptive neuronal stress responses. Trends Neurosci. 29, 11, 632.
3. Calabrese V.; Cornelius C.; Dinkova-Kostova AT.; Iavicoli I.; Di Paola R.; Koverech A.;
Cuzzocrea S.; Rizzarelli E.; Calabrese EJ. 2012. Cellular stress responses, hormetic phytochemicals
and vitagenes in aging and longevity. Biochim Biophys Acta. 1822, 5, 753.
4. Iddamalgoda A.; Le QT.; Ito K.; Tanaka K.; Kojima H.; Kido H. 2008. Mast cell tryptase and
photoaging: possible involvement in the degradation of extra cellular matrix and basement
membrane proteins. Arch Dermatol Res. 300, 1, 69.
5. Simons R.; Gruppen H.; Bovee TF.; Verbruggen MA.; Vincken JP. 2012. Prenylated
isoflavonoids from plants as selective estrogen receptor modulators (phytoSERMs). Food Funct. 3,
8, 810.
6. Shieh DE.; Liu LT.; Lin CC. 2000. Antioxidant and free radical scavenging effects of baicalein,
baicalin and wogonin. Anticancer Res. 20, 5A, 2861.
7. Wulf, H.C.; Sandby-Moller, J.; Kobayashi, T.; Gniadecki, R. 2004. Skin aging and natural
photoprotection. Micron 35, 185.
8. Chung, J.H. 2003. Photoaging in Asians. Photodermatol Photoimmunol Photomed. 19, 109.
29
9. Situm, M.; Bulijan, M.; Cavka, V.; Bulat, V.; Krolo, I.; Mihic, LL. 2010. Skin changes in the
elderly people-how strong is the influence of the UV radiation on skin aging? Coll Antropol. 34, 2,
9.
10. Brenneisen, P.; Sies, H.; Scharffetter-Kochanek, K. 2002. Ultraviolet-B irradiation and matrix
methalloproteinases: from induction via signaling to initial events. Ann N Y Acad Sci. 973, 31.
11. Hirobe, T.; Furuya, R.; Akiu, S.; Ifuku, O.; Fukuda, M. 2003. Keratinocytes control the
proliferation and differentiation of cultured epidermal melanocytes from ultraviolet radiation
B-induced pigmented spots in the dorsal skin of hairless mice. Pigment Cell Res. 15, 391.
12. Bell, S.; Degitz, K.; Quirling, M.; Jilg, N.; Page, S.; Brand, K. 2003. Involvement of NF-κB
signalling in skin physiology and disease. Cell Signal. 15, 1.
13. Collantes E.; Blázquez M V.; Mazorra V.; Macho A.; Aranda E.; Muñoz E. 1998. Nuclear
factor-κB activity in T cells from patients with rheumatic diseases: A preliminary report. Ann
Rheum Dis. 57, 738.
14. Watanabe N.; Fujita T. 1996. NF-κB system. Transcription Factors: The pivotal roles in the
regulation of biological functions. 41, 8, 1198.
15.Barchowsky, A.; Frleta, D.; Vincenti, M.P. 2000. Integration of the NF-κB and
mitogen-activated protein kinase/AP-1 pathway at the collagenase-1 promotor: divergence of IL-1
and TNF-dependent signal transduction in rabbit primary synovial fibroblasts. Cytokine 12, 1469.
16.Wlaschek, M.; Heinen, G.; Poswig, A.; Schwarz, A.; Krieg, T.; Scharffetter-Kochanek, K. 1994.
UVA-induced autocrine stimulation of fibroblast-derived collagenase/MMP-1 by interrelated loops
30
of interleukin-1 and interleukin-6. Photochem Photobiol. 59, 550.
17. Tanaka, K.; Hasegawa, J.; Asamitsu, K.; Okamoto, T. 2005. Prevention of the Ultraviolet
B-Mediated Skin Photoaging by a Nuclear Factor κB Inhibitor, Parthenolide. J Pharmacol Exp Ther.
315, 624.
18. Tanaka, K.; Asamitsu, K.; Uranishi, H.; Iddamalgoda, A.; Ito, K.; Kojima, H.; Okamoto, T.
2010. Protecting Skin Photoaging by NF-kappaB Inhibitor. Curr Drug Metab. 11, 431.
19. Sabourin, CL.; Kusewitt, DF.; Applegate, LA.; Budge, CL.; Ley, R.D. 1993. Expression of
fibroblast growth factors in ultraviolet radiation-induced corneal tumors and corneal tumor cell
lines from Monodelphis domestica. Mol Carcinog. 7, 197.
20. Wakisaka, N.; Murono, S.; Yoshizaki, T.; Furukawa, M.; Pagano, J.S. 2002. Epstein-Barr virus
latent membrane protein 1 induces and causes release of fibroblast growth factor-2. Cancer Res. 1,
62, 6337.
21. Duckett, CS.; Perkins, ND.; Kowalik, TF.; Schmid, RM.; Huang, ES.; Baldwin, AS Jr.; Nabel,
GJ. 1993 Dimerization of NF-KB2 with RelA(p65) regulates DNA binding, transcriptional
activation, and inhibition by an I kappa B-alpha (MAD-3). Mol Cell Biol. 13, 1315.
22.Wullaert, A.; Bonnet, MC.; Pasparakis, M. 2011. NF-țB in the regulation of epithelial
homeostasis and Inflammation. Cell Res. 21, 146.
23. Okamoto, T.; Sakurada, S.; Yang, JP.; Merin, J.P. 1997. Regulation of NF-κB and Disease
control: Identification of a novel serine kinase and thioredoxin as effectors for signal transduction
pathway for NF-κB activation. Curr Top Cell Regul. 35, 149.
31
24. Hayden, MS.; Ghosh, S. 2004. Signaling to NF-κB. Genes Dev. 15, 18, 2195.
25. Kwok, B.H.; Koh, B.; Ndubuisi, M.I.; Elofsson, M.; Crews, C.M. 2001. The anti-inflammatory
natural product parthenolide from the medical herb Feverfew directly binds to and inhibits IκB
kinase. Chem Biol. 8, 759.
26. Saliou, C.; Kitazawa, M.; McLaughlin, L.; Yang, J.P.; Lodge, JK.; Tetsuka, T.; Iwasaki, K.;
Cillard, J.; Okamoto, T.; Packer, L. 1999. Antioxidants modulate acute solar ultraviolet
radiation-induced NF-kappaB activation in a human keratinocyte cell line. Free Radic Biol Med. 26,
174.
27. Siyuan, Z.; Yen-Kim, W.; Choon-Nam, O.; Han-Ming, S. 2005. Anti-Cancer potential of
Sesquiterpene lactones: Bioactivity and molecular mechanisms. Curr. Med. Chem. 5, 239
28. Mehmetçik G.; Ozdemirler G.; Koçak-Toker N.; Cevikbaú U.; Uysal M. 2008. Effect of
pretreatment with artichoke extract on carbon tetrachloride-induced liver injury and oxidative stress.
Exp Toxicol pathol. 60, 475.
29. Samuhasaneeto S., Thong-Ngam D., Kulaputana O., Suyasunanont D., Klaikeaw N. 2009.
Curcumin Decreased Oxidative Stress, Inhibited NF-țB Activation, and Improved Liver Pathology
in Ethanol-Induced Liver Injury in Rats. J Biomed Biotechnol. 2009. 981963.
30. Ishida K.; Kojima R.; Tsuboi M.; Tsuda Y.; Ito M. 2010. Effects of artichoke leaf extract on
acute gastric mucosal injury in rats. Biol Pharm Bull. 33, 223.
31. Zimmermann, S.; Kaiser, M.; Brun, R.; Hamburger, M.; Adams M. 2012. Cynaropicrin: the first
plant natural product with in vivo activity against Trypanosoma brucei. Planta Med. 78, 6, 553.
32
32. Cho, JY.; Kim, AR.; Jung, JH.; Chun, T.; Rhee, MH.; Yoo, ES. 2004. Cytotoxic and
pro-apoptotic activities of cynaropicrin, a sesquiterpene lactone, on the viability of leukocyte
cancer cell lines. Eur J Pharmacol. 25, 492, 85
33. Sato, T.; Asamitsu, K.; Yang, J.P.; Takahashi, N.; Tetsuka, T.; Yoneyama, A.; Kanagawa, A.;
Okamoto, T. 1998. Inhibition of human immunodeficiency virus type 1 replication by a
bioavailable serine/threonine kinase inhibitor, fasudil hydrochloride. AIDS Res Hum Retroviruses.
1, 14, 293.
34. Tanaka, K.; Hasegawa, J.; Asamitsu, K.; Okamoto, T. 2007. Magnolia ovovata extract and its
active component magnolol prevent skin photoaging via inhibition of nuclear factor kappaB. Eur J
Pharmacol. 22, 565, 212.
35. Tetsuka, T.; Uranishi, H.; Imai, H.; Ono, T.; Sonta, S.; Takahashi, N.; Asamitsu, K.; Okamoto, T.
2000. Inhibition of nuclear factor-κB-mediated transcription by association with the amino-terminal
enhancer of split, a Groucho-related protein lacking WD40 repeats. J Biol Chem. 11, 275, 4383.
36. Uranishi, H.; Tetsuka, T.; Yamashita, M.; Asamitsu, K.; Shimizu, M.; Itoh, M.; Okamoto, T.
2001. Involvement of the pro-oncoprotein TLS (translocated in liposarcoma) in nuclear factor-κB
p65-mediated transcription as a coactivator. J Biol Chem. 20, 276, 13395.
37. Sakurada, S.; Kato, T.; Okamoto, T. 1996. Induction of cytokines and ICAM-1 by
proinflammatory cytokines in primary rheumatoid synovial fibroblasts and inhibition by
N-acetyl-L-cysteine and aspirin. Int Immunol. 8, 1483.
38. Hiramoto, K.; Yanagihara, N.; Sato, EF.; Inoue, M. 2003. Ultraviolet B irradiation of the eye
33
activates a nitric oxide-dependent hypothalamopituitary proopiomekanocortin pathway and
modulates functions of alpha melanocyte-stimulating hormone-responsive cells. J Investig
Dermatol. 120, 123.
39. Pittelkow, M.R.; Shipley, G.D. 1989. Serum-free culture of normal human melanocytes: growth
kinetics and growth factor requirements. J Cell Physiol. 140, 565.
40. Bielenberg, DR.; Bucana, CD.; Sanchez, R.; Donawho, CK.; Kripke, ML.; Fidler, IJ. 1998.
Molecular regulation of UVB-induced cutaneous angiogenesis. J Invest Dermatol. 111, 864.
41. Kligman, L.H. 1989. Photoaging. Manifestations, prevention, and treatment. Clin Geriatr Med.
5, 235.
42. Ulrich, C.; Schmook, T.; Sachse, MM.; Sterry, W.; Stockfleth, E. 2004. Comparative
epidemiology and pathogenic factors for non-melanoma skin cancer in organ transplant patients.
Dermatol Surg. 30, 622.
43. Corsini, E.; Sangha, N.; Feldman, SR. 1997. Epidermal stratification reduces the effects of
UVB (but not UVA) on keratinocyte cytokine production and cytoxicity. Photodermatol
Photoimmunol Photomed. 13, 147.
44. Fisher, G.J.; Datta, S.C.; Talwar, H.S.; Wang, Z.Q.; Varani, J.; Kang, S.; Voorhees, J.J. 1996.
Molecular basis of sun-induced premature skin ageing and retinoid antagonism. Nature 379, 335.
45. Yarosh, D.; Both, D.; Kibitel, J.; Anderson, C.; Elmets, C.; Brash, D.; Brown, D. 2000.
Regulation of TNFα production and release in human and mouse keratinocytes and mouse skin
after UV-B irradiation. Photodermatol Photoimmunol Photomed. 16, 263.
34
46. Wlaschek, M.; Heinen, G.; Poswig, A.; Schwarz, A.; Krieg, T. Scharffetter-Kochanek, K., 1994.
UVA-induced autocrine stimulation of fibroblast-derived collagenase/MMP-1 by interrelated loops
of interleukin-1 and interleukin-6. Photochem Photobiol. 59, 550.
ཧ⪃㈨ᩱ࣭⥲ㄝ
1. ㈨⏕ᇽ, ⨾ࡋࡃᖺࢆ㔜ࡡࡿࣄࣥࢺϪ, ồ㱟ᇽ, 1997, 83
2. A. M. Kligman, ຍ㱋࡜⓶⭵, Ύ⮳᭩㝔, 1986.
3. ᒸ⏣⛱, ᪂ゞཎⰍ∾㔝࿴₎⸆ⲡᅯ㤋, ໭㝯㤋, 2002, 554.
4. ᰗ᐀Ẹ, ௚, ୡ⏺᭷⏝᳜≀஦඾, ᖹซ♫, 1989, 351.
5. ⏣㒊஭‶⏨, ࣁ࣮ࣈࢫࣃ࢖ࢫ㤋, ᑠᏛ㤋, 2000, 203.
6. ᮌᮧ㝧஧㑻, ⰼ࡜ᶞࡢ኱㎡඾, ᯽᭩ᡣ, 1996, 282.
7. ఀ⃝୍⏨, ⸆ⲡ࣮࢝ࣛ኱㎡඾, ୺፬ࡢ཭♫, 1998, 699.
8. ኱ሙ⚽❶, ᮅ᪥ⓒ⛉࣭᳜≀ࡢୡ⏺Ϩ, ᮅ᪥᪂⪺♫, 1997, 26.
9. ࢔ࣥࢻ࣮࣭ࣜࣗࢩ࢙ࣦ࢓࢚ࣜ, ୡ⏺⸆⏝᳜≀ⓒ⛉஦඾, ㄔᩥᇽ᪂ග♫, 2000, 196.
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