ORCTL3 : insights into the function and the structure of a novel anticancer gene
ORCTL3 was recently isolated as a gene with a tumour-speci c apoptosis activity. Its transfection into transformed cells elicits an apoptosis response, while normal cells remain unaffected. In this study I show that ORCTL3 is activated for apoptosis induction by individual tumourigenic mutations in...
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ndltd-bl.uk-oai-ethos.bl.uk-6168382017-06-27T03:23:31ZORCTL3 : insights into the function and the structure of a novel anticancer geneAbuAli, GhadaGrimm, Stefan2013ORCTL3 was recently isolated as a gene with a tumour-speci c apoptosis activity. Its transfection into transformed cells elicits an apoptosis response, while normal cells remain unaffected. In this study I show that ORCTL3 is activated for apoptosis induction by individual tumourigenic mutations in renal cells. Its activity is also shared by other so-called anticancer genes such as Mda-7/IL-24, TRAIL, Apoptin, and Par-4. This effect is independent of the tumour cells' proliferation status and is mediated by an incomplete ER stress response, characterised by ATF4, but not BiP accumulation. ATF4 upregulation and also the ARCosome, a recently discovered caspase-8-activation complex, are required for apoptosis by ORCTL3. For its effect, ORCTL3 targets the enzyme stearoyl-CoA desaturase-1 (SCD-1) that is involved in the fatty acid metabolism. This is evidenced by the inhibition of apoptosis induced through ORCTL3 when the SCD-1 product oleic acid is exogenously supplemented and by the replication of its tumour-specific effect upon chemical inhibition of SCD-1. ORCTL3's activity to specifically target tumour cells is caused by the transmembrane domains 3 and 4 of the mouse, but not the human, gene and critically depends on the expression level of the ORCTL3 protein. Finally, an adenovirus carrying the expression cassette of ORCTL3 leads to an efficient expression and therefore, substantial and specific destruction of primary renal tumour cells compared to their normal counterparts. My results indicate that ORCTL3 induces tumour-specific apoptosis by specifically targeting cancer metabolism and suggest novel therapeutic interferences for renal tumours.610Imperial College Londonhttp://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.616838http://hdl.handle.net/10044/1/14660Electronic Thesis or Dissertation |
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610 AbuAli, Ghada ORCTL3 : insights into the function and the structure of a novel anticancer gene |
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ORCTL3 was recently isolated as a gene with a tumour-speci c apoptosis activity. Its transfection into transformed cells elicits an apoptosis response, while normal cells remain unaffected. In this study I show that ORCTL3 is activated for apoptosis induction by individual tumourigenic mutations in renal cells. Its activity is also shared by other so-called anticancer genes such as Mda-7/IL-24, TRAIL, Apoptin, and Par-4. This effect is independent of the tumour cells' proliferation status and is mediated by an incomplete ER stress response, characterised by ATF4, but not BiP accumulation. ATF4 upregulation and also the ARCosome, a recently discovered caspase-8-activation complex, are required for apoptosis by ORCTL3. For its effect, ORCTL3 targets the enzyme stearoyl-CoA desaturase-1 (SCD-1) that is involved in the fatty acid metabolism. This is evidenced by the inhibition of apoptosis induced through ORCTL3 when the SCD-1 product oleic acid is exogenously supplemented and by the replication of its tumour-specific effect upon chemical inhibition of SCD-1. ORCTL3's activity to specifically target tumour cells is caused by the transmembrane domains 3 and 4 of the mouse, but not the human, gene and critically depends on the expression level of the ORCTL3 protein. Finally, an adenovirus carrying the expression cassette of ORCTL3 leads to an efficient expression and therefore, substantial and specific destruction of primary renal tumour cells compared to their normal counterparts. My results indicate that ORCTL3 induces tumour-specific apoptosis by specifically targeting cancer metabolism and suggest novel therapeutic interferences for renal tumours. |
author2 |
Grimm, Stefan |
author_facet |
Grimm, Stefan AbuAli, Ghada |
author |
AbuAli, Ghada |
author_sort |
AbuAli, Ghada |
title |
ORCTL3 : insights into the function and the structure of a novel anticancer gene |
title_short |
ORCTL3 : insights into the function and the structure of a novel anticancer gene |
title_full |
ORCTL3 : insights into the function and the structure of a novel anticancer gene |
title_fullStr |
ORCTL3 : insights into the function and the structure of a novel anticancer gene |
title_full_unstemmed |
ORCTL3 : insights into the function and the structure of a novel anticancer gene |
title_sort |
orctl3 : insights into the function and the structure of a novel anticancer gene |
publisher |
Imperial College London |
publishDate |
2013 |
url |
http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.616838 |
work_keys_str_mv |
AT abualighada orctl3insightsintothefunctionandthestructureofanovelanticancergene |
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1718465580112019456 |