Rac1 alterations induce acquired dabrafenib resistance in association with anaplastic transformation in a papillary thyroid cancer patient

Rozita Bagheri-Yarmand; Naifa L. Busaidy; Elena McBeath; Brian P. Danysh; Kurt W. Evans; Tyler J. Moss; Argun Akcakanat; Patrick K.S. Ng; Christina M. Knippler; Jalyn A. Golden; Michelle D. Williams; Asha S. Multani; Maria E. Cabanillas; Kenna R. Shaw; Funda Meric-Bernstam; Manisha H. Shah; Matthew D. Ringel; Marie Claude Hofmann

doi:10.3390/cancers13194950

Rac1 alterations induce acquired dabrafenib resistance in association with anaplastic transformation in a papillary thyroid cancer patient

Rozita Bagheri-Yarmand, Naifa L. Busaidy, Elena McBeath, Brian P. Danysh, Kurt W. Evans, Tyler J. Moss, Argun Akcakanat, Patrick K.S. Ng, Christina M. Knippler, Jalyn A. Golden, Michelle D. Williams, Asha S. Multani, Maria E. Cabanillas, Kenna R. Shaw, Funda Meric-Bernstam, Manisha H. Shah, Matthew D. Ringel, Marie Claude Hofmann

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

BRAF-activating mutations are the most frequent driver mutations in papillary thyroid cancer (PTC). Targeted inhibitors such as dabrafenib have been used in advanced BRAF-mutated PTC, however, acquired resistance to the drug is common and little is known about other effectors that may play integral roles in this resistance. In addition, the induction of PTC dedifferentiation into highly aggressive KRAS-driven anaplastic thyroid cancer (ATC) has been reported. We detected a novel RAC1 (P34R) mutation acquired during dabrafenib treatment in a progressive metastatic lesion with ATC phenotype. To identify a potential functional link between this novel mutation and tumor dedifferentiation, we developed a cell line derived from the metastatic lesion and compared its behavior to isogenic cell lines and primary tumor samples. Our data demonstrated that RAC1 mutations induce changes in cell morphology, reorganization of F-actin almost exclusively at the cell cortex, and changes in cell adhesion properties. We also established that RAC1 amplification, with or without mutation, is sufficient to drive cell proliferation and resistance to BRAF inhibition. Further, we identified polyploidy of chromosome 7, which harbors RAC1, in both the metastatic lesion and its derived cell line. Copy number amplification and overexpression of other genes located on this chromosome, such as TWIST1, EGFR, and MET were also detected, which might also lead to dabrafenib resistance. Our study suggests that polyploidy leading to increased expression of specific genes, particularly those located on chromosome 7, should be considered when analyzing aggressive thyroid tumor samples and in further treatments.

Original language	English (US)
Article number	9500
Journal	Cancers
Volume	13
Issue number	19
DOIs	https://doi.org/10.3390/cancers13194950
State	Published - Oct 1 2021

Keywords

Anaplastic thyroid carcinoma
Aneuploidy
BRAF
Drug resistance
Kinase inhibitors
PAK1
Papillary thyroid carcinoma
RAC1

ASJC Scopus subject areas

Oncology
Cancer Research

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10.3390/cancers13194950

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Bagheri-Yarmand, R., Busaidy, N. L., McBeath, E., Danysh, B. P., Evans, K. W., Moss, T. J., Akcakanat, A., Ng, P. K. S., Knippler, C. M., Golden, J. A., Williams, M. D., Multani, A. S., Cabanillas, M. E., Shaw, K. R., Meric-Bernstam, F., Shah, M. H., Ringel, M. D., & Hofmann, M. C. (2021). Rac1 alterations induce acquired dabrafenib resistance in association with anaplastic transformation in a papillary thyroid cancer patient. Cancers, 13(19), Article 9500. https://doi.org/10.3390/cancers13194950

Bagheri-Yarmand, R , Busaidy, NL, McBeath, E, Danysh, BP, Evans, KW, Moss, TJ, Akcakanat, A, Ng, PKS, Knippler, CM, Golden, JA, Williams, MD , Multani, AS , Cabanillas, ME, Shaw, KR, Meric-Bernstam, F, Shah, MH, Ringel, MD & Hofmann, MC 2021, 'Rac1 alterations induce acquired dabrafenib resistance in association with anaplastic transformation in a papillary thyroid cancer patient', Cancers, vol. 13, no. 19, 9500. https://doi.org/10.3390/cancers13194950

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title = "Rac1 alterations induce acquired dabrafenib resistance in association with anaplastic transformation in a papillary thyroid cancer patient",

abstract = "BRAF-activating mutations are the most frequent driver mutations in papillary thyroid cancer (PTC). Targeted inhibitors such as dabrafenib have been used in advanced BRAF-mutated PTC, however, acquired resistance to the drug is common and little is known about other effectors that may play integral roles in this resistance. In addition, the induction of PTC dedifferentiation into highly aggressive KRAS-driven anaplastic thyroid cancer (ATC) has been reported. We detected a novel RAC1 (P34R) mutation acquired during dabrafenib treatment in a progressive metastatic lesion with ATC phenotype. To identify a potential functional link between this novel mutation and tumor dedifferentiation, we developed a cell line derived from the metastatic lesion and compared its behavior to isogenic cell lines and primary tumor samples. Our data demonstrated that RAC1 mutations induce changes in cell morphology, reorganization of F-actin almost exclusively at the cell cortex, and changes in cell adhesion properties. We also established that RAC1 amplification, with or without mutation, is sufficient to drive cell proliferation and resistance to BRAF inhibition. Further, we identified polyploidy of chromosome 7, which harbors RAC1, in both the metastatic lesion and its derived cell line. Copy number amplification and overexpression of other genes located on this chromosome, such as TWIST1, EGFR, and MET were also detected, which might also lead to dabrafenib resistance. Our study suggests that polyploidy leading to increased expression of specific genes, particularly those located on chromosome 7, should be considered when analyzing aggressive thyroid tumor samples and in further treatments.",

keywords = "Anaplastic thyroid carcinoma, Aneuploidy, BRAF, Drug resistance, Kinase inhibitors, PAK1, Papillary thyroid carcinoma, RAC1",

author = "Rozita Bagheri-Yarmand and Busaidy, {Naifa L.} and Elena McBeath and Danysh, {Brian P.} and Evans, {Kurt W.} and Moss, {Tyler J.} and Argun Akcakanat and Ng, {Patrick K.S.} and Knippler, {Christina M.} and Golden, {Jalyn A.} and Williams, {Michelle D.} and Multani, {Asha S.} and Cabanillas, {Maria E.} and Shaw, {Kenna R.} and Funda Meric-Bernstam and Shah, {Manisha H.} and Ringel, {Matthew D.} and Hofmann, {Marie Claude}",

note = "Publisher Copyright: {\textcopyright} 2021 by the authors.",

year = "2021",

month = oct,

day = "1",

doi = "10.3390/cancers13194950",

language = "English (US)",

volume = "13",

journal = "Cancers",

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T1 - Rac1 alterations induce acquired dabrafenib resistance in association with anaplastic transformation in a papillary thyroid cancer patient

AU - Bagheri-Yarmand, Rozita

AU - Busaidy, Naifa L.

AU - McBeath, Elena

AU - Danysh, Brian P.

AU - Evans, Kurt W.

AU - Moss, Tyler J.

AU - Akcakanat, Argun

AU - Ng, Patrick K.S.

AU - Knippler, Christina M.

AU - Golden, Jalyn A.

AU - Williams, Michelle D.

AU - Multani, Asha S.

AU - Cabanillas, Maria E.

AU - Shaw, Kenna R.

AU - Meric-Bernstam, Funda

AU - Shah, Manisha H.

AU - Ringel, Matthew D.

AU - Hofmann, Marie Claude

PY - 2021/10/1

Y1 - 2021/10/1

N2 - BRAF-activating mutations are the most frequent driver mutations in papillary thyroid cancer (PTC). Targeted inhibitors such as dabrafenib have been used in advanced BRAF-mutated PTC, however, acquired resistance to the drug is common and little is known about other effectors that may play integral roles in this resistance. In addition, the induction of PTC dedifferentiation into highly aggressive KRAS-driven anaplastic thyroid cancer (ATC) has been reported. We detected a novel RAC1 (P34R) mutation acquired during dabrafenib treatment in a progressive metastatic lesion with ATC phenotype. To identify a potential functional link between this novel mutation and tumor dedifferentiation, we developed a cell line derived from the metastatic lesion and compared its behavior to isogenic cell lines and primary tumor samples. Our data demonstrated that RAC1 mutations induce changes in cell morphology, reorganization of F-actin almost exclusively at the cell cortex, and changes in cell adhesion properties. We also established that RAC1 amplification, with or without mutation, is sufficient to drive cell proliferation and resistance to BRAF inhibition. Further, we identified polyploidy of chromosome 7, which harbors RAC1, in both the metastatic lesion and its derived cell line. Copy number amplification and overexpression of other genes located on this chromosome, such as TWIST1, EGFR, and MET were also detected, which might also lead to dabrafenib resistance. Our study suggests that polyploidy leading to increased expression of specific genes, particularly those located on chromosome 7, should be considered when analyzing aggressive thyroid tumor samples and in further treatments.

AB - BRAF-activating mutations are the most frequent driver mutations in papillary thyroid cancer (PTC). Targeted inhibitors such as dabrafenib have been used in advanced BRAF-mutated PTC, however, acquired resistance to the drug is common and little is known about other effectors that may play integral roles in this resistance. In addition, the induction of PTC dedifferentiation into highly aggressive KRAS-driven anaplastic thyroid cancer (ATC) has been reported. We detected a novel RAC1 (P34R) mutation acquired during dabrafenib treatment in a progressive metastatic lesion with ATC phenotype. To identify a potential functional link between this novel mutation and tumor dedifferentiation, we developed a cell line derived from the metastatic lesion and compared its behavior to isogenic cell lines and primary tumor samples. Our data demonstrated that RAC1 mutations induce changes in cell morphology, reorganization of F-actin almost exclusively at the cell cortex, and changes in cell adhesion properties. We also established that RAC1 amplification, with or without mutation, is sufficient to drive cell proliferation and resistance to BRAF inhibition. Further, we identified polyploidy of chromosome 7, which harbors RAC1, in both the metastatic lesion and its derived cell line. Copy number amplification and overexpression of other genes located on this chromosome, such as TWIST1, EGFR, and MET were also detected, which might also lead to dabrafenib resistance. Our study suggests that polyploidy leading to increased expression of specific genes, particularly those located on chromosome 7, should be considered when analyzing aggressive thyroid tumor samples and in further treatments.

KW - Anaplastic thyroid carcinoma

KW - Aneuploidy

KW - BRAF

KW - Drug resistance

KW - Kinase inhibitors

KW - PAK1

KW - Papillary thyroid carcinoma

KW - RAC1

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U2 - 10.3390/cancers13194950

DO - 10.3390/cancers13194950

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VL - 13

JO - Cancers

JF - Cancers

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ER -

Rac1 alterations induce acquired dabrafenib resistance in association with anaplastic transformation in a papillary thyroid cancer patient

Abstract

Keywords

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