ERBB2 juxtamembrane domain (trastuzumab binding site) gene mutation is a rare event in invasive breast cancers overexpressing the ERBB2 gene Article

cited authors

  • Khoury, Thaer, Mojica, Wilfrido, Hicks, David, Starostik, Petr, Ademuyiwa, Foluso, Janarthanan, Bagirathan, Cheney, Richard T.

funding text

  • We thank the Alpha Foundation for the financial support.

abstract

  • The recent development of targeted therapies using monoclonal antibodies has added new dimensions to breast cancer treatment. Trastuzumab has been added to the regimens that contain chemotherapeutic agents, which has improved the clinical outcomes of patients in both the adjuvant and metastatic settings. However, trastuzumab resistance, both de novo and acquired, continues to be problematic. There have been scattered studies reporting ERBB2 gene mutation, but nothing is currently known about the ERBB2 binding site mutations. In the current study, we examined the ERBB2 juxtamembrane domain trastuzumab binding site for mutations in invasive breast cancers overexpressing ERBB2. Pure tumor cells of 54 breast cancer patients were procured using laser capture microdissection. Two polymerase chain reaction primer pairs were designed to amplify the trastuzumab binding site sequence. The polymerase chain reaction product was sequenced. Standard clinicopathological data were recorded. For the 54 patients, there was one (2%) case that showed missense point mutation in exon 17 (H559A). There were nine patients treated with trastuzumab in the metastatic setting, none of which had gene mutation. Therefore, we conclude that ERBB2 juxtamembrane domain (trastuzumab binding site) gene mutation is a rare event in breast cancer. Although it is unclear whether this substitution would result in trastuzumab target therapy resistance, this would not account for the relatively high frequency of this resistance encountered clinically. Modern Pathology (2011) 24, 1055-1059; doi:10.1038/modpathol.2011.64; published online 15 April 2011

Publication Date

  • August 1, 2011

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published in

category

start page

  • 1055

end page

  • 1059

volume

  • 24

issue

  • 8

WoS Citations

  • 3

WoS References

  • 29