The role of the tumor suppressor gene, FBW7, and mechanisms of its inactivation in cancer
Author: Akhoondi, Shahab
Date: 2011-06-09
Location: Radiumhemmets föreläsningssal
Time: 13.00
Department: Inst för onkologi-patologi / Dept of Oncology-Pathology
Abstract
The F-box protein FBW7 is a tumor suppressor and SCF ubiquitin ligase targeting several key oncoproteins for proteasomal degradation. In this thesis we addressed whether the FBW7 gene is inactivated by mutations in various human tumor types and explored alternative mechanism(s) for the inactivation of FBW7. We also explored how inactivation of FBW7 relates to substrate degradation (including cyclin E, Notch1 and c- Myc) and its potential prognostic significance. Furthermore, we have investigated novel regulatory mechanism(s) for FBW7 expression and activity.
Our results demonstrate that FBW7 is a general TSG, which is frequently inactivated by mutations (with an average mutation frequency of 6%) in various malignancies. Heterozygous missense mutations altering specific arginines residues required for efficient substrate interaction are the most frequent mutations in FBW7. Our functional analysis indicates that heterozygous mutations might act in a dominant-negative manner. The highest mutation frequency was observed in cholangiocarcinomas and pediatric T-cell acute lymphocytic leukemias (T-ALL) (35 and 31 %, respectively). We also found that FBW7 gene mutation is an infrequent event in several malignancies, including breast cancer and pediatric B-ALL. This finding prompted us to investigate whether alternative mechanism for regulation and inactivation of FBW7 occurs in cancer, including promoter hypermethylation and miRNA induced repression. Our results demonstrate that both the 5’-UTR and the 3’-UTR of FBW7 is epigenetically regulated. The promoter of FBW7-beta is frequently hypermethylated in primary breast tumors and its inactivation is associated with improved survival in certain patient subgroups. Similarly, mutational inactivation of FBW7 and/or NOTCH1 in T-ALL is also associated with increased overall survival. Analyses focusing on the 3’UTR of FBW7 revealed that FBW7 expression is regulated by miR-27a, a putative oncogenic miRNA. miR-27a was identified as a critical repressor of FBW7 expression during cell cycle progression with potential consequences for FBW7-mediated turnover of cyclin E. These results indicate that miR-27a serves an important cell cycle regulatory function by repressing FBW7 and at specific cell cycle stages, but releasing it from repression during the G1 to S-phase transition.
In summary, our findings demonstrate that FBW7 is inactivated by several different mechanisms, including mutation, deletion, promoter methylation and possibly miRNA- induced repression of gene expression. Our pre-clinical analysis further suggests that inactivation of FBW7 in certain malignancies might be associated with improved survival, thus implicating FBW7 as a potential prognostic predictor in the some cancers.
Our results demonstrate that FBW7 is a general TSG, which is frequently inactivated by mutations (with an average mutation frequency of 6%) in various malignancies. Heterozygous missense mutations altering specific arginines residues required for efficient substrate interaction are the most frequent mutations in FBW7. Our functional analysis indicates that heterozygous mutations might act in a dominant-negative manner. The highest mutation frequency was observed in cholangiocarcinomas and pediatric T-cell acute lymphocytic leukemias (T-ALL) (35 and 31 %, respectively). We also found that FBW7 gene mutation is an infrequent event in several malignancies, including breast cancer and pediatric B-ALL. This finding prompted us to investigate whether alternative mechanism for regulation and inactivation of FBW7 occurs in cancer, including promoter hypermethylation and miRNA induced repression. Our results demonstrate that both the 5’-UTR and the 3’-UTR of FBW7 is epigenetically regulated. The promoter of FBW7-beta is frequently hypermethylated in primary breast tumors and its inactivation is associated with improved survival in certain patient subgroups. Similarly, mutational inactivation of FBW7 and/or NOTCH1 in T-ALL is also associated with increased overall survival. Analyses focusing on the 3’UTR of FBW7 revealed that FBW7 expression is regulated by miR-27a, a putative oncogenic miRNA. miR-27a was identified as a critical repressor of FBW7 expression during cell cycle progression with potential consequences for FBW7-mediated turnover of cyclin E. These results indicate that miR-27a serves an important cell cycle regulatory function by repressing FBW7 and at specific cell cycle stages, but releasing it from repression during the G1 to S-phase transition.
In summary, our findings demonstrate that FBW7 is inactivated by several different mechanisms, including mutation, deletion, promoter methylation and possibly miRNA- induced repression of gene expression. Our pre-clinical analysis further suggests that inactivation of FBW7 in certain malignancies might be associated with improved survival, thus implicating FBW7 as a potential prognostic predictor in the some cancers.
List of papers:
I. Alena Malyukova, Takeaki Dohda, Natalie von der Lehr, Shahab Akhoondi, Martin Corcoran, Mats Heyman, Charles Spruck, Dan Grandér, Urban Lendahl, Olle Sangfelt. The tumor suppressor gene hCDC4 is frequently mutated in human T-cell acute lymphoblastic leukemia with functional consequences for Notch signaling. Cancer Res. 2007 Jun 15;67(12):5611-6.
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II. Shahab Akhoondi, Dahui Sun, Natalie von der Lehr, Sophia Apostolidou, Kathleen Klotz, Alena Maljukova, Diana Cepeda, Heidi Fiegl, Dimitra Dafou, Christian Marth, Elisabeth Mueller-Holzner, Martin Corcoran, Markus Dagnell, Sepideh Zabihi Nejad, Babak Noori Nayer, Mohammad Reza Zali, Johan Hansson, Susanne Egyhazi, Fredrik Petersson, Per Sangfelt, Hans Nordgren, Dan Grander, Steven I Reed, Martin Widschwendter, Olle Sangfelt, Charles Spruck. FBXW7/hCDC4 is a general tumor suppressor in human cancer. Cancer Res. 2007 Oct 1;67(19):9006-12.
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Shahab Akhoondi, Linda Lindström, Martin Widschwendter, Martin Corcoran, Jonas Bergh, Charles Spruck, Dan Grandér, Olle Sangfelt. Inactivation of FBXW7/hCDC4-β expression by promoter hypermethylation is associated with favorable prognosis in primary breast cancer. Breast Cancer Res. 2010;12(6):R105.
Fulltext (DOI)
Pubmed
View record in Web of Science®
IV. Mikael Lerner*, Josefin Lundgren*, Shahab Akhoondi, Angelina Jahn, Hwee-Fang Ng, Farhad Akbari Moqadam, Joachim A F Oude Vrielink, Reuven Agami, Monique L Den Boer, Dan Grandér, Olle Sangfelt. miRNA-27a controls FBW7/hCDC4-dependent cyclin E degradation and cell cycle progression. Cell Cycle. 2011 Jul 1;10(13):2172-83. *Shared first authorship. [Accepted]
Fulltext (DOI)
Pubmed
View record in Web of Science®
I. Alena Malyukova, Takeaki Dohda, Natalie von der Lehr, Shahab Akhoondi, Martin Corcoran, Mats Heyman, Charles Spruck, Dan Grandér, Urban Lendahl, Olle Sangfelt. The tumor suppressor gene hCDC4 is frequently mutated in human T-cell acute lymphoblastic leukemia with functional consequences for Notch signaling. Cancer Res. 2007 Jun 15;67(12):5611-6.
Fulltext (DOI)
Pubmed
View record in Web of Science®
II. Shahab Akhoondi, Dahui Sun, Natalie von der Lehr, Sophia Apostolidou, Kathleen Klotz, Alena Maljukova, Diana Cepeda, Heidi Fiegl, Dimitra Dafou, Christian Marth, Elisabeth Mueller-Holzner, Martin Corcoran, Markus Dagnell, Sepideh Zabihi Nejad, Babak Noori Nayer, Mohammad Reza Zali, Johan Hansson, Susanne Egyhazi, Fredrik Petersson, Per Sangfelt, Hans Nordgren, Dan Grander, Steven I Reed, Martin Widschwendter, Olle Sangfelt, Charles Spruck. FBXW7/hCDC4 is a general tumor suppressor in human cancer. Cancer Res. 2007 Oct 1;67(19):9006-12.
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Shahab Akhoondi, Linda Lindström, Martin Widschwendter, Martin Corcoran, Jonas Bergh, Charles Spruck, Dan Grandér, Olle Sangfelt. Inactivation of FBXW7/hCDC4-β expression by promoter hypermethylation is associated with favorable prognosis in primary breast cancer. Breast Cancer Res. 2010;12(6):R105.
Fulltext (DOI)
Pubmed
View record in Web of Science®
IV. Mikael Lerner*, Josefin Lundgren*, Shahab Akhoondi, Angelina Jahn, Hwee-Fang Ng, Farhad Akbari Moqadam, Joachim A F Oude Vrielink, Reuven Agami, Monique L Den Boer, Dan Grandér, Olle Sangfelt. miRNA-27a controls FBW7/hCDC4-dependent cyclin E degradation and cell cycle progression. Cell Cycle. 2011 Jul 1;10(13):2172-83. *Shared first authorship. [Accepted]
Fulltext (DOI)
Pubmed
View record in Web of Science®
Institution: Karolinska Institutet
Issue date: 2011-05-17
Rights:
Publication year: 2011
ISBN: 978-91-7457-349-7
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