Evidence that p53-mediated cell-cycle-arrest inhibits chemotherapeutic treatment of Ovarian carcinomas

Carlos S. Moreno; Lilya Matyunina; Erin B. Dickerson; Nina Schubert; Nathan J. Bowen; Sanjay Logani; Benedict B. Benigno; John F. McDonald

doi:10.1371/journal.pone.0000441

Evidence that p53-mediated cell-cycle-arrest inhibits chemotherapeutic treatment of Ovarian carcinomas

Carlos S. Moreno, Lilya Matyunina, Erin B. Dickerson, Nina Schubert, Nathan J. Bowen, Sanjay Logani, Benedict B. Benigno, John F. McDonald

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Abstract

Gene expression profiles of malignant tumors surgically removed from ovarian cancer patients pre-treated with chemotherapy (neo-adjuvant) prior to surgery group into two distinct clusters. One group clusters with carcinomas from patients not pre-treated with chemotherapy prior to surgery (C-L), while the other clusters with non-malignant adenomas (A-QL). We show here that although the C-L cluster is preferentially associated with p53 loss-of-function (LOF) mutations, the C-L cluster cancer patients display a more favorable clinical response to chemotherapy as evidenced by enhanced long-term survivorships. Our results support a model whereby p53 mediated cell-cycle-arrest/DNA repair serves as a barrier to optimal chemotherapeutic treatment of ovarian and perhaps other carcinomas and suggest that inhibition of p53 during chemotherapy may enhance clinical outcome.

Original language	English (US)
Article number	e441
Journal	PloS one
Volume	2
Issue number	5
DOIs	https://doi.org/10.1371/journal.pone.0000441
State	Published - May 16 2007
Externally published	Yes

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abstract = "Gene expression profiles of malignant tumors surgically removed from ovarian cancer patients pre-treated with chemotherapy (neo-adjuvant) prior to surgery group into two distinct clusters. One group clusters with carcinomas from patients not pre-treated with chemotherapy prior to surgery (C-L), while the other clusters with non-malignant adenomas (A-QL). We show here that although the C-L cluster is preferentially associated with p53 loss-of-function (LOF) mutations, the C-L cluster cancer patients display a more favorable clinical response to chemotherapy as evidenced by enhanced long-term survivorships. Our results support a model whereby p53 mediated cell-cycle-arrest/DNA repair serves as a barrier to optimal chemotherapeutic treatment of ovarian and perhaps other carcinomas and suggest that inhibition of p53 during chemotherapy may enhance clinical outcome.",

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AU - Moreno, Carlos S.

AU - Matyunina, Lilya

AU - Dickerson, Erin B.

AU - Schubert, Nina

AU - Bowen, Nathan J.

AU - Logani, Sanjay

AU - Benigno, Benedict B.

AU - McDonald, John F.

PY - 2007/5/16

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N2 - Gene expression profiles of malignant tumors surgically removed from ovarian cancer patients pre-treated with chemotherapy (neo-adjuvant) prior to surgery group into two distinct clusters. One group clusters with carcinomas from patients not pre-treated with chemotherapy prior to surgery (C-L), while the other clusters with non-malignant adenomas (A-QL). We show here that although the C-L cluster is preferentially associated with p53 loss-of-function (LOF) mutations, the C-L cluster cancer patients display a more favorable clinical response to chemotherapy as evidenced by enhanced long-term survivorships. Our results support a model whereby p53 mediated cell-cycle-arrest/DNA repair serves as a barrier to optimal chemotherapeutic treatment of ovarian and perhaps other carcinomas and suggest that inhibition of p53 during chemotherapy may enhance clinical outcome.

AB - Gene expression profiles of malignant tumors surgically removed from ovarian cancer patients pre-treated with chemotherapy (neo-adjuvant) prior to surgery group into two distinct clusters. One group clusters with carcinomas from patients not pre-treated with chemotherapy prior to surgery (C-L), while the other clusters with non-malignant adenomas (A-QL). We show here that although the C-L cluster is preferentially associated with p53 loss-of-function (LOF) mutations, the C-L cluster cancer patients display a more favorable clinical response to chemotherapy as evidenced by enhanced long-term survivorships. Our results support a model whereby p53 mediated cell-cycle-arrest/DNA repair serves as a barrier to optimal chemotherapeutic treatment of ovarian and perhaps other carcinomas and suggest that inhibition of p53 during chemotherapy may enhance clinical outcome.

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Evidence that p53-mediated cell-cycle-arrest inhibits chemotherapeutic treatment of Ovarian carcinomas

Abstract

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