posted on 2020-07-07, 10:04authored byAmira F. Mahdi, Beatrice Malacrida, Joanne Nolan, Mary E. McCumiskey, Anne Merrigan, Ashish Lal, Shona M. Tormey, Aoife J. Lowery, Kieran Denis McGourty, Patrick A. Kiely
When breast cancer progresses to a metastatic stage, survival rates decline rapidly
and it is considered incurable. Thus, deciphering the critical mechanisms of metastasis
is of vital importance to develop new treatment options. We hypothesize that studying
the proteins that are newly synthesized during the metastatic processes of migration
and invasion will greatly enhance our understanding of breast cancer progression. We conducted a mass spectrometry screen following bioorthogonal noncanonical amino acid tagging to elucidate changes in the nascent proteome that occur during epidermal growth factor stimulation in migrating and invading cells. Annexin A2 was identified in this screen and subsequent examination of breast cancer cell lines revealed that Annexin A2 is specifically upregulated in estrogen receptor negative (ER-) cell lines. Furthermore, siRNA knockdown showed that Annexin A2 expression promotes the proliferation, wound healing and directional migration of breast cancer cells. In patients, Annexin A2 expression is increased in ER- breast cancer subtypes. Additionally, high Annexin A2 expression confers a higher probability of distant metastasis specifically for ER- patients. This work establishes a pivotal role of Annexin A2 in breast cancer progression and identifies Annexin A2 as a potential therapeutic target for the more aggressive and harder to treat ER- subtype.
Funding
Using the Cloud to Streamline the Development of Mobile Phone Apps