Project Summary
The aggressiveness of triple negative breast cancers (TNBCs) is, in part, due to their metastatic
behavior, propensity to recur rapidly and dismal low response to standard-of-care
chemotherapies. TNBCs are associated with the worst prognosis and clinical outcomes,
especially in African American (AA) women. Interestingly, the incidence rate of TNBC is more
than 2-fold higher in AA women, compared with their Caucasian American (CA) counterparts who
have the same disease. These racial-associated disparities in outcomes, that remain poorly
understood, are significant even after controlling for socioeconomic and treatment variations, and
suggest the contribution of differences in tumor biology to these disparities in cancer outcomes.
We identified YB1, a multifunctional gene, as a potential biological driver of TNBC disparities in
AA women. We also found that the oncogenic signaling of YB1 may play a major role in activating
the invasion-metastasis cascade and therapy resistance of TNBC in AA women. YB1 expression
levels are significantly higher in AA tumors and are strongly associated with poorer overall survival
in AA TNBC patients. YB1 nuclear localization/phosphorylation (S102) is also correlated with
cancer stem cell phenotype, and resistance to chemotherapy in TNBC tumors of AA origin. Based
on this strong evidence, we developed the overarching hypothesis that YB1 oncogenic signaling
is a major contributing factor to differences in disease outcomes between AA and CA TNBC
patients. This hypothesis will be addressed by investigating the biologic and clinical significance
of YB1 signaling axis in TNBC disparities. Our proposal will also attempt to better elucidate the
complex interactions between genetics, environment, socioeconomics and lifestyle that may
contribute to the observed differences with the ultimate goal of developing and implementing more
efficacious population-based strategies to improve health equity for this vulnerable population.
Our specific aims will (1) Determine the impact of YB1 signaling (expression, phosphorylation and
nuclear localization) in tumorigenicity and chemoresistance in TNBC cell lines and tumors of AA
origin; (2) Determine the impact of novel combination therapies targeting YB1 to alleviate
progression and metastasis of AA TNBC tumors; and (3) Determine whether YB1 signaling can
predict racial disparities and chemoresistance in TNBC, based on transcriptomics and
immunohistochemistry.
We are very confident that our innovative proposal will make great contributions to the field of
cancer disparities, especially for AA women with TNBC, and will identify new YB1-based
therapeutic options for this devastating cancer that is disparately affecting AA women.