Advanced HCC has been a therapeutic challenge despite the advances in treatment modalities. In particular, hypoxia is the main obstacle to treat HCC because it induces aggressive growth of the tumor. Hydrophobic bile acid (BA), such as deoxycholate ...
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RISS 인기검색어
Sodium-dependent bile acid transporter expression modulates deoxycholate-induced effects on hepatocellular carcinoma cells
한글로보기https://www.riss.kr/link?id=T13142660
- 저자
-
발행사항
서울 : 서울대학교 대학원, 2013
-
학위논문사항
학위논문 (박사) -- 서울대학교 대학원 , 의학과 내과학 전공 , 2013. 2
-
발행연도
2013
-
작성언어
영어
-
주제어
deoxycholate ; bile acid ; hepatocellular carcinoma ; apoptosis ; JNK ; COX-2 ; IL-8
-
DDC
610 판사항(22)
-
발행국(도시)
서울
-
기타서명
간세포암종 세포주에서 담즙산 전달체 발현이 디옥시콜린산에 의한 효과에 미치는 영향
-
형태사항
viii, 34 장 : 삽화 ; 26 cm
-
일반주기명
참고문헌 수록
- DOI식별코드
-
소장기관
- 국립중앙도서관
- 서울대학교 의학도서관
- 서울대학교 중앙도서관
- 국립중앙도서관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Advanced HCC has been a therapeutic challenge despite the advances in treatment modalities. In particular, hypoxia is the main obstacle to treat HCC because it induces aggressive growth of the tumor. Hydrophobic bile acid (BA), such as deoxycholate (DC), is accumulated in cholestatic patients and can induce hepatocytes apoptosis. Therefore, DC may also be applied to treat hepatocellular carcinoma (HCC). However, the roles of DC and its transporter are still not established in HCC cells. Thus, this study aimed to investigate DC-induced HCC cell growth alterations, particularly focused on the BAT expression.
Four human HCC cell lines (Huh-BAT, Huh-7, SNU-761 and SNU-475) were used to determine whether those cells expressed BAT or not. Huh-BAT (BAT+ HCC cells) and Huh-7 cells which do not express BAT (BAT- HCC cells) were grown either in a normoxic or hypoxic condition with DC. Cell viability was assessed using the MTS assay. BAT expression and apoptotic signaling cascades activation were examined by immunoblot analyses. Wound healing and invasion assays were performed to evaluate migration and invasion ability of cells, respectively. Real-time PCR analysis was performed to measure IL-8 expression levels. Nuclear factor kappa B (NF-κB) activity was evaluated by ELISA method.
HCC cells revealed various BAT expression levels. In BAT+ HCC cells, DC increased apoptosis in a dose dependent manner, and BAT mediated the DC-induced apoptosis. Moreover, the susceptibility to DC was markedly enhanced in hypoxia, which was dependent on enhanced ER stress following DC treatment. This enhanced ER stress in hypoxia accelerated apoptosis of BAT+ HCC cells via JNK activation. On the contrary, DC promoted migration and invasion of BAT- HCC cells and induced IL-8 overexpression. Particularly, DC-induced IL-8 overexpression was dependent on NF-κB/cyclooxygenase-2 (COX-2) activity. Wound healing and invasion assays revealed that IL-8 was responsible for this augmented cellular migration and invasion of BAT- HCC cells, and these were preventable by a COX-2 inhibitor.
In summary, hydrophobic BA had different effects on HCC cells according to their BAT expression status. It induced apoptosis of BAT-containing HCC cells, especially in hypoxic condition. In HCC cells without BAT, hydrophobic BA and simultaneous blockage of COX-2 activity could markedly decrease aggressive cellular behaviors through the inhibition of NF-κB/COX-2/IL-8 pathway. Therefore, hydrophobic bile acid had a therapeutic potential for advanced HCC.
Four human HCC cell lines (Huh-BAT, Huh-7, SNU-761 and SNU-475) were used to determine whether those cells expressed BAT or not. Huh-BAT (BAT+ HCC cells) and Huh-7 cells which do not express BAT (BAT- HCC cells) were grown either in a normoxic or hypoxic condition with DC. Cell viability was assessed using the MTS assay. BAT expression and apoptotic signaling cascades activation were examined by immunoblot analyses. Wound healing and invasion assays were performed to evaluate migration and invasion ability of cells, respectively. Real-time PCR analysis was performed to measure IL-8 expression levels. Nuclear factor kappa B (NF-κB) activity was evaluated by ELISA method.
HCC cells revealed various BAT expression levels. In BAT+ HCC cells, DC increased apoptosis in a dose dependent manner, and BAT mediated the DC-induced apoptosis. Moreover, the susceptibility to DC was markedly enhanced in hypoxia, which was dependent on enhanced ER stress following DC treatment. This enhanced ER stress in hypoxia accelerated apoptosis of BAT+ HCC cells via JNK activation. On the contrary, DC promoted migration and invasion of BAT- HCC cells and induced IL-8 overexpression. Particularly, DC-induced IL-8 overexpression was dependent on NF-κB/cyclooxygenase-2 (COX-2) activity. Wound healing and invasion assays revealed that IL-8 was responsible for this augmented cellular migration and invasion of BAT- HCC cells, and these were preventable by a COX-2 inhibitor.
In summary, hydrophobic BA had different effects on HCC cells according to their BAT expression status. It induced apoptosis of BAT-containing HCC cells, especially in hypoxic condition. In HCC cells without BAT, hydrophobic BA and simultaneous blockage of COX-2 activity could markedly decrease aggressive cellular behaviors through the inhibition of NF-κB/COX-2/IL-8 pathway. Therefore, hydrophobic bile acid had a therapeutic potential for advanced HCC.
Advanced HCC has been a therapeutic challenge despite the advances in treatment modalities. In particular, hypoxia is the main obstacle to treat HCC because it induces aggressive growth of the tumor. Hydrophobic bile acid (BA), such as deoxycholate (DC), is accumulated in cholestatic patients and can induce hepatocytes apoptosis. Therefore, DC may also be applied to treat hepatocellular carcinoma (HCC). However, the roles of DC and its transporter are still not established in HCC cells. Thus, this study aimed to investigate DC-induced HCC cell growth alterations, particularly focused on the BAT expression.
Four human HCC cell lines (Huh-BAT, Huh-7, SNU-761 and SNU-475) were used to determine whether those cells expressed BAT or not. Huh-BAT (BAT+ HCC cells) and Huh-7 cells which do not express BAT (BAT- HCC cells) were grown either in a normoxic or hypoxic condition with DC. Cell viability was assessed using the MTS assay. BAT expression and apoptotic signaling cascades activation were examined by immunoblot analyses. Wound healing and invasion assays were performed to evaluate migration and invasion ability of cells, respectively. Real-time PCR analysis was performed to measure IL-8 expression levels. Nuclear factor kappa B (NF-κB) activity was evaluated by ELISA method.
HCC cells revealed various BAT expression levels. In BAT+ HCC cells, DC increased apoptosis in a dose dependent manner, and BAT mediated the DC-induced apoptosis. Moreover, the susceptibility to DC was markedly enhanced in hypoxia, which was dependent on enhanced ER stress following DC treatment. This enhanced ER stress in hypoxia accelerated apoptosis of BAT+ HCC cells via JNK activation. On the contrary, DC promoted migration and invasion of BAT- HCC cells and induced IL-8 overexpression. Particularly, DC-induced IL-8 overexpression was dependent on NF-κB/cyclooxygenase-2 (COX-2) activity. Wound healing and invasion assays revealed that IL-8 was responsible for this augmented cellular migration and invasion of BAT- HCC cells, and these were preventable by a COX-2 inhibitor.
In summary, hydrophobic BA had different effects on HCC cells according to their BAT expression status. It induced apoptosis of BAT-containing HCC cells, especially in hypoxic condition. In HCC cells without BAT, hydrophobic BA and simultaneous blockage of COX-2 activity could markedly decrease aggressive cellular behaviors through the inhibition of NF-κB/COX-2/IL-8 pathway. Therefore, hydrophobic bile acid had a therapeutic potential for advanced HCC.
목차 (Table of Contents)
- Abstract ⅰ
- Contents ⅳ
- List of figures ⅴ
- Abstract ⅰ
- Contents ⅳ
- List of figures ⅴ
- List of abbreviations ⅶ
- 1. Introduction 1
- 2. Materials and Methods 4
- 3. Results 11
- 4. Discussion 19
- 5. References 25
- 국문초록 34
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