Your search keyword '"Zeybek, Burak"' showing total 4 results

1. Immunotherapy in Cervical Cancer

Author

Mauricio, Dennis, Zeybek, Burak, Tymon-Rosario, Joan, Harold, Justin, and Santin, Alessandro D.

Published

2021

2. Whole-exome sequencing of cervical carcinomas identifies activating ERBB2 and PIK3CA mutations as targets for combination therapy.

Author

Zammataro, Luca, Lopez, Salvatore, Bellone, Stefania, Pettinella, Francesca, Bonazzoli, Elena, Perrone, Emanuele, Siming Zhao, Menderes, Gulden, Altwerger, Gary, Han, Chanhee, Zeybek, Burak, Bianchi, Anna, Manzano, Aranzazu, Manara, Paola, Cocco, Emiliano, Buza, Natalia, Pei Hui, Serena Wong, Ravaggi, Antonella, and Bignotti, Eliana

Subjects

DNA copy number variations, CYTIDINE deaminase, CARCINOMA, CERVICAL cancer, SQUAMOUS cell carcinoma

Abstract

The prognosis of advanced/recurrent cervical cancer patients remains poor. We analyzed 54 fresh-frozen and 15 primary cervical cancer cell lines, along with matched-normal DNA, by whole-exome sequencing (WES), most of which harboring Human-Papillomavirustype- 16/18. We found recurrent somatic missense mutations in 22 genes (including PIK3CA, ERBB2, and GNAS) and a widespread APOBEC cytidine deaminase mutagenesis pattern (TCW motif) in both adenocarcinoma (ACC) and squamous cell carcinomas (SCCs). Somatic copy number variants (CNVs) identified 12 copy number gains and 40 losses, occurring more often than expected by chance, with the most frequent events in pathways similar to those found from analysis of single nucleotide variants (SNVs), including the ERBB2/PI3K/ AKT/mTOR, apoptosis, chromatin remodeling, and cell cycle. To validate specific SNVs as targets, we took advantage of primary cervical tumor cell lines and xenografts to preclinically evaluate the activity of pan-HER (afatinib and neratinib) and PIK3CA (copanlisib) inhibitors, alone and in combination, against tumors harboring alterations in the ERBB2/PI3K/AKT/mTOR pathway (71%). Tumors harboring ERBB2 (5.8%) domain mutations were significantly more sensitive to single agents afatinib or neratinib when compared to wild-type tumors in preclinical in vitro and in vivo models (P = 0.001). In contrast, pan-HER and PIK3CA inhibitors demonstrated limited in vitro activity and were only transiently effective in controlling in vivo growth of PIK3CA-mutated cervical cancer xenografts. Importantly, combinations of copanlisib and neratinib were highly synergistic, inducing long-lasting regression of tumors harboring alterations in the ERBB2/PI3K/AKT/mTOR pathway. These findings define the genetic landscape of cervical cancer, suggesting that a large subset of cervical tumors might benefit from existing ERBB2/PIK3CA/AKT/mTOR-targeted drugs. [ABSTRACT FROM AUTHOR]

Published

2019

3. Derangements in HUWE1/c-MYC pathway confer sensitivity to the BET bromodomain inhibitor GS-626510 in uterine cervical carcinoma.

Author

Bonazzoli, Elena, Bellone, Stefania, Zammataro, Luca, Gnutti, Barbara, Guglielmi, Adele, Pelligra, Silvia, Nagarkatti, Nupur, Manara, Paola, Tymon-Rosario, Joan, Zeybek, Burak, Altwerger, Gary, Menderes, Gulden, Han, Chanhee, Ratner, Elena, Silasi, Dan-Arin, Huang, Gloria S., Andikyan, Vaagn, Azodi, Masoud, Schwartz, Peter E., and Santin, Alessandro D.

Subjects

*DELETION mutation, *CERVICAL cancer, *CARCINOMA, *CANCER patients

Abstract

Whole-exome-sequencing (WES) studies reported c-MYC gene-amplification and HUWE1 gene deletion/mutations in a significant number of cervical-cancer-patients (CC) suggesting HUWE1/c-MYC pathway as potential therapeutic target. We investigated HUWE1/c-MYC expression in fresh-frozen-CC and the activity of the novel BET inhibitor GS-626510 (Gilead-Science-Inc) against primary WES CC-cultures and CC-xenografts. HUWE1 and c-MYC expression were evaluated by qRT-PCR in 23 CC including 12 fresh-frozen-tumor-tissues and 11 primary-cell-lines. c-Myc expression was also evaluated by Western-Blot (WB) and fluorescence- in-situ -hybridization (FISH) in all 11 fully sequenced primary-CC-cell-lines. Primary tumors were evaluated for sensitivity to GS-626510 in-vitro using proliferation and viability-assays. siRNA experiments were used to evaluate the effect of HUWE1 silencing on primary-CC-cell-line growth and sensitivity to GS-626510. Finally, the in-vivo activity of GS-626510 was studied in CC-CVX8-mouse-xenografts. Fresh-frozen-CC and primary-CC-cell-lines overexpressed c-MYC when compared to normal tissues (p =.01). FISH demonstrated amplification of c-MYC in 9/11 (82%) of the primary-CC-cell-lines. Cell-lines with derangements in HUWE1/c-MYC pathway were highly sensitive to GS-626510, with a dose-response decrease in cell proliferation and viability. siRNA silencing of HUWE1 significantly increased c-MYC expression and CC cell-proliferation and enhanced the in-vitro sensitivity to GS-626510. Twice-daily oral doses of GS-626510 were well tolerated in-vivo and highly effective in decreasing tumor-growth (p =.004) and increasing survival (p =.004) of CC-CVX8 xenografts. Downregulation/inactivation of HUWE1 may increase c-MYC expression and proliferation in primary-CC-cell-lines. GS-626510 may represent a novel, potentially highly effective therapeutic agent against CC overexpressing c-MYC and/or harboring HUWE1 mutations. Clinical studies with BET inhibitor in CC-patients harboring radiation/chemotherapy-resistant disease are warranted. • Mutations in HUWE1, a ubiquitin ligase degrading oncogenes including c-MYC, are detected in over 30% of cervical cancer. • HUWE1 deficient tumors are highly proliferative and hampered in vitro / in vivo by GS-626510, a novel bromodomain inhibitor. • Clinical studies with BET inhibitors in cervical cancer patients harboring HUWE1/c-MYC gene derangements are warranted. [ABSTRACT FROM AUTHOR]

Published

2020

4. PARP-1 activity (PAR) determines the sensitivity of cervical cancer to olaparib.

Author

Bianchi, Anna, Lopez, Salvatore, Altwerger, Gary, Bellone, Stefania, Bonazzoli, Elena, Zammataro, Luca, Manzano, Aranzazu, Manara, Paola, Perrone, Emanuele, Zeybek, Burak, Han, Chanhee, Menderes, Gulden, Ratner, Elena, Silasi, Dan-Arin, Huang, Gloria S., Azodi, Masoud, Newberg, Justin Y., Pavlick, Dean C., Elvin, Julia, and Frampton, Garrett M.

Subjects

*CERVICAL cancer, *ADENOSINE diphosphate, *CELL growth, *POLY ADP ribose, *CELL lines, *CELL cycle, *POLYMERASES

Abstract

Cervical cancer (CC) remains a major health problem worldwide. Poly (adenosine diphosphate [ADP]-ribose) polymerase (PARP) inhibitors (PARPi) have emerged as a promising class of chemotherapeutics in ovarian cancer. We explored the preclinical in vitro and in vivo activity of olaparib against multiple primary whole exome sequenced (WES) CC cells lines and xenografts. Olaparib cell-cycle, apoptosis, homologous-recombination-deficiency (HRD), PARP trapping and cytotoxicity activity was evaluated against 9 primary CC cell lines in vitro. PARP and PAR expression were analyzed by Western blot assays. Finally, olaparib in vivo antitumor activity was tested against CC xenografts. While none of the cell lines demonstrated HRD, three out of 9 (33.3%) primary CC cell lines showed strong PARylation activity and demonstrated high sensitivity to olaparib in vitro treatment (cutoff IC 50 values < 2 μM, p = 0.0012). Olaparib suppressed CC cell growth through cell cycle arrest in the G2/M phase and caused apoptosis (p < 0.0001). Olaparib activity in CC involved both PARP enzyme inhibition and trapping. In vivo, olaparib significantly impaired CC xenografts tumor growth (p = 0.0017) and increased overall animal survival (p = 0.008). A subset of CC primary cell lines is highly responsive to olaparib treatment in vitro and in vivo. High level of PARylation correlated with olaparib preclinical activity and may represent a useful biomarker for the identification of CC patients benefitting the most from PARPi. • A subset of primary CC cell lines is highly sensitive to olaparib in vitro and in vivo. • High PARylation activity correlates with sensitivity to olaparib in CC cell lines. • Silencing of PARP-1 reverses CC cell line sensitivity to olaparib and induce resistance. [ABSTRACT FROM AUTHOR]

Published

2019