국립중앙도서관 "우편 복사 서비스"로 연결 됩니다.
ScienceONI read with great interest the recent article by Kim et al. [1]. Interestingly, alpha-lipoic acid has recently been shown to exert anti-neoplastic effects in a number of systemic tumors other than lung carcinomas. For instance, alpha-lipoic acid exert...
다국어 입력
あ
ぁ
か
が
さ
ざ
た
だ
な
は
ば
ぱ
ま
や
ゃ
ら
わ
ゎ
ん
い
ぃ
き
ぎ
し
じ
ち
ぢ
に
ひ
び
ぴ
み
り
う
ぅ
く
ぐ
す
ず
つ
づ
っ
ぬ
ふ
ぶ
ぷ
む
ゆ
ゅ
る
え
ぇ
け
げ
せ
ぜ
て
で
ね
へ
べ
ぺ
め
れ
お
ぉ
こ
ご
そ
ぞ
と
ど
の
ほ
ぼ
ぽ
も
よ
ょ
ろ
を
ア
ァ
カ
サ
ザ
タ
ダ
ナ
ハ
バ
パ
マ
ヤ
ャ
ラ
ワ
ヮ
ン
イ
ィ
キ
ギ
シ
ジ
チ
ヂ
ニ
ヒ
ビ
ピ
ミ
リ
ウ
ゥ
ク
グ
ス
ズ
ツ
ヅ
ッ
ヌ
フ
ブ
プ
ム
ユ
ュ
ル
エ
ェ
ケ
ゲ
セ
ゼ
テ
デ
ヘ
ベ
ペ
メ
レ
オ
ォ
コ
ゴ
ソ
ゾ
ト
ド
ノ
ホ
ボ
ポ
モ
ヨ
ョ
ロ
ヲ
―
http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
예시)
- 中文 을 입력하시려면 zhongwen을 입력하시고 space를누르시면됩니다.
- 北京 을 입력하시려면 beijing을 입력하시고 space를 누르시면 됩니다.
А
Б
В
Г
Д
Е
Ё
Ж
З
И
Й
К
Л
М
Н
О
П
Р
С
Т
У
Ф
Х
Ц
Ч
Ш
Щ
Ъ
Ы
Ь
Э
Ю
Я
а
б
в
г
д
е
ё
ж
з
и
й
к
л
м
н
о
п
р
с
т
у
ф
х
ц
ч
ш
щ
ъ
ы
ь
э
ю
я
′
″
℃
Å
¢
£
¥
¤
℉
‰
$
%
F
₩
㎕
㎖
㎗
ℓ
㎘
㏄
㎣
㎤
㎥
㎦
㎙
㎚
㎛
㎜
㎝
㎞
㎟
㎠
㎡
㎢
㏊
㎍
㎎
㎏
㏏
㎈
㎉
㏈
㎧
㎨
㎰
㎱
㎲
㎳
㎴
㎵
㎶
㎷
㎸
㎹
㎀
㎁
㎂
㎃
㎄
㎺
㎻
㎽
㎾
㎿
㎐
㎑
㎒
㎓
㎔
Ω
㏀
㏁
㎊
㎋
㎌
㏖
㏅
㎭
㎮
㎯
㏛
㎩
㎪
㎫
㎬
㏝
㏐
㏓
㏃
㏉
㏜
㏆
RISS 인기검색어
The Anti-neoplastic Effects of Alpha-Lipoic Acid: Clinical Benefits in System Tumors besides Lung Carcinomas
한글로보기https://www.riss.kr/link?id=A104650665
-
저자
Shailendra Kapoor (University of Illinois at Chicago)
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2013
-
작성언어
English
-
등재정보
KCI등재,SCOPUS
-
자료형태
학술저널
- 발행기관 URL
-
수록면
162-163(2쪽)
- DOI식별코드
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
I read with great interest the recent article by Kim et al. [1]. Interestingly, alpha-lipoic acid has recently been shown to exert anti-neoplastic effects in a number of systemic tumors other than lung carcinomas. For instance, alpha-lipoic acid exerts anti-neoplastic effects in colon carcinomas. DHL-HisZnNa is a newer alpha-lipoic acid derivative that has shown similar anti-neoplastic effects in colon cancer cell lines [2]. Levels of retinoblastoma protein are attenuated by DHL-HisZnNa while a simultaneous accentuation of p21 levels is seen. Similarly, anti-proliferative effects have been seen in hepatocellular carcinomas following the administration of alpha-lipoic acid in conjunction with caffeic acid and a new synthesized lipoyl-caffeic conjugate. This combination results in enhanced interleukin 10 levels and attenuated tumor necrosis factor-a levels.
Similarly, alpha-lipoic acid derivatives such as CPI-613 demonstrate anti-neoplastic effects in pancreatic malignancies by disrupting the mitochondrial metabolism in tumor cells resulting in accentuated apoptosis in these cells. For instance, Schwartz et al. [3] have recently reported the case of an 80-year-old female with pancreatic adenocarcinoma and hepatic metastases who responded favorably to a treatment regimen in which the efficacy of gemcitabine was enhanced by using a combination of hydroxycitrate in conjunction with alpha-lipoic acid.
Hydroxycitrate and alpha-lipoic acid combinations also exert anti-proliferative effects in mouse bladder carcinoma-2 cell line bladder transitional cell carcinoma lines, which is equivalent to the anti-neoplastic effects exerted by conventional chemotherapeutic agents such as 5-fluorouracil [4].
Similarly, alpha-lipoic acid exerts anti-proliferative effects in breast carcinomas. These anti-neoplastic effects are mediated by its attenuating effect on matrix metalloproteinase (MMP)-2 and MMP-9 levels. It not only down-regulates the expression of these molecules but also decreases their activity. In particular, it decreases cellular migration and cellular motility, resulting in decreased metastases. Besides this, it also alters the Bax/Bcl-2 ratio [5]. A simultaneous increase in p27 (kip1) expression is seen, resulting in accentuated apoptosis in breast malignancies.
Alpha-lipoic acid also demonstrates benefits in the management of dermatological malignancies. It exerts these effects by inhibiting proliferation and by accentuating apoptosis in these tumors. It also enhances the apoptosis of cells with aberrant nuclei, thus further attenuating tumor growth in these malignancies. These effects have been seen particularly in B16-F10 melanoma cell lines [5].
The above examples clearly illustrate the anti-neoplastic effects of alpha-lipoic acid and the need for further studies to assess its potential efficacy in the management of other systemic tumors.
Similarly, alpha-lipoic acid derivatives such as CPI-613 demonstrate anti-neoplastic effects in pancreatic malignancies by disrupting the mitochondrial metabolism in tumor cells resulting in accentuated apoptosis in these cells. For instance, Schwartz et al. [3] have recently reported the case of an 80-year-old female with pancreatic adenocarcinoma and hepatic metastases who responded favorably to a treatment regimen in which the efficacy of gemcitabine was enhanced by using a combination of hydroxycitrate in conjunction with alpha-lipoic acid.
Hydroxycitrate and alpha-lipoic acid combinations also exert anti-proliferative effects in mouse bladder carcinoma-2 cell line bladder transitional cell carcinoma lines, which is equivalent to the anti-neoplastic effects exerted by conventional chemotherapeutic agents such as 5-fluorouracil [4].
Similarly, alpha-lipoic acid exerts anti-proliferative effects in breast carcinomas. These anti-neoplastic effects are mediated by its attenuating effect on matrix metalloproteinase (MMP)-2 and MMP-9 levels. It not only down-regulates the expression of these molecules but also decreases their activity. In particular, it decreases cellular migration and cellular motility, resulting in decreased metastases. Besides this, it also alters the Bax/Bcl-2 ratio [5]. A simultaneous increase in p27 (kip1) expression is seen, resulting in accentuated apoptosis in breast malignancies.
Alpha-lipoic acid also demonstrates benefits in the management of dermatological malignancies. It exerts these effects by inhibiting proliferation and by accentuating apoptosis in these tumors. It also enhances the apoptosis of cells with aberrant nuclei, thus further attenuating tumor growth in these malignancies. These effects have been seen particularly in B16-F10 melanoma cell lines [5].
The above examples clearly illustrate the anti-neoplastic effects of alpha-lipoic acid and the need for further studies to assess its potential efficacy in the management of other systemic tumors.
I read with great interest the recent article by Kim et al. [1]. Interestingly, alpha-lipoic acid has recently been shown to exert anti-neoplastic effects in a number of systemic tumors other than lung carcinomas. For instance, alpha-lipoic acid exerts anti-neoplastic effects in colon carcinomas. DHL-HisZnNa is a newer alpha-lipoic acid derivative that has shown similar anti-neoplastic effects in colon cancer cell lines [2]. Levels of retinoblastoma protein are attenuated by DHL-HisZnNa while a simultaneous accentuation of p21 levels is seen. Similarly, anti-proliferative effects have been seen in hepatocellular carcinomas following the administration of alpha-lipoic acid in conjunction with caffeic acid and a new synthesized lipoyl-caffeic conjugate. This combination results in enhanced interleukin 10 levels and attenuated tumor necrosis factor-a levels.
Similarly, alpha-lipoic acid derivatives such as CPI-613 demonstrate anti-neoplastic effects in pancreatic malignancies by disrupting the mitochondrial metabolism in tumor cells resulting in accentuated apoptosis in these cells. For instance, Schwartz et al. [3] have recently reported the case of an 80-year-old female with pancreatic adenocarcinoma and hepatic metastases who responded favorably to a treatment regimen in which the efficacy of gemcitabine was enhanced by using a combination of hydroxycitrate in conjunction with alpha-lipoic acid.
Hydroxycitrate and alpha-lipoic acid combinations also exert anti-proliferative effects in mouse bladder carcinoma-2 cell line bladder transitional cell carcinoma lines, which is equivalent to the anti-neoplastic effects exerted by conventional chemotherapeutic agents such as 5-fluorouracil [4].
Similarly, alpha-lipoic acid exerts anti-proliferative effects in breast carcinomas. These anti-neoplastic effects are mediated by its attenuating effect on matrix metalloproteinase (MMP)-2 and MMP-9 levels. It not only down-regulates the expression of these molecules but also decreases their activity. In particular, it decreases cellular migration and cellular motility, resulting in decreased metastases. Besides this, it also alters the Bax/Bcl-2 ratio [5]. A simultaneous increase in p27 (kip1) expression is seen, resulting in accentuated apoptosis in breast malignancies.
Alpha-lipoic acid also demonstrates benefits in the management of dermatological malignancies. It exerts these effects by inhibiting proliferation and by accentuating apoptosis in these tumors. It also enhances the apoptosis of cells with aberrant nuclei, thus further attenuating tumor growth in these malignancies. These effects have been seen particularly in B16-F10 melanoma cell lines [5].
The above examples clearly illustrate the anti-neoplastic effects of alpha-lipoic acid and the need for further studies to assess its potential efficacy in the management of other systemic tumors.
참고문헌 (Reference)
1 김종인, "Induction of ER Stress-Mediated Apoptosis by α-Lipoic Acid in A549 Cell Lines" 대한흉부외과학회 45 (45): 1-10, 2012
2 Kono Y, "Antiproliferative effects of a new α-lipoic acid derivative, DHL-HisZnNa, in HT29 human colon cancer cells in vitro" 16 (16): S103-S109, 2012
3 Kisurina-Evgen’eva OP, "Alpha-lipoic acid triggers elimination of cells with abnormal nuclei in human carcinoma epidermoid cell line" 52 : 225-234, 2010
4 Lee HS, "Alpha-Lipoic acid reduces matrix metalloproteinase activity in MDA-MB-231 human breast cancer cells" 30 : 403-409, 2010
5 Schwartz L, "A combination of alpha lipoic acid and calcium hydroxycitrate is efficient against mouse cancer models: preliminary results" 23 : 1407-1416, 2010
1 김종인, "Induction of ER Stress-Mediated Apoptosis by α-Lipoic Acid in A549 Cell Lines" 대한흉부외과학회 45 (45): 1-10, 2012
2 Kono Y, "Antiproliferative effects of a new α-lipoic acid derivative, DHL-HisZnNa, in HT29 human colon cancer cells in vitro" 16 (16): S103-S109, 2012
3 Kisurina-Evgen’eva OP, "Alpha-lipoic acid triggers elimination of cells with abnormal nuclei in human carcinoma epidermoid cell line" 52 : 225-234, 2010
4 Lee HS, "Alpha-Lipoic acid reduces matrix metalloproteinase activity in MDA-MB-231 human breast cancer cells" 30 : 403-409, 2010
5 Schwartz L, "A combination of alpha lipoic acid and calcium hydroxycitrate is efficient against mouse cancer models: preliminary results" 23 : 1407-1416, 2010
동일학술지(권/호) 다른 논문
-
Adventitial Cystic Disease of the Common Femoral Artery: A Case Report and Literature Review
- 대한흉부외과학회
- 김성환
- 2013
- KCI등재,SCOPUS
-
Surgical Outcomes of Congenital Atrial Septal Defect Using da VinciTM Surgical Robot System
- 대한흉부외과학회
- 김지언
- 2013
- KCI등재,SCOPUS
-
Successful Management of Atrio-Esophageal Fistula after Cardiac Radiofrequency Catheter Ablation
- 대한흉부외과학회
- 심훈보
- 2013
- KCI등재,SCOPUS
-
Epicardial Cyst Originating from Right Ventricle
- 대한흉부외과학회
- 김주연
- 2013
- KCI등재,SCOPUS
분석정보
이 자료와 함께 이용한 RISS 자료
나만을 위한 추천자료
