Abstract
The prolactin inducible protein (PIP) is expressed to varying degrees in more than 90% of breast cancers (BCs). Although high levels of PIP expression in BC has been shown to correlate with better prognosis and patient response to chemotherapy, some studies suggest that PIP may also play a role in metastasis. Here, we investigated the role of PIP in BC using the well-established 4T1 and E0771 mouse BC cell lines. Stable expression of PIP in both cell lines did not significantly alter their proliferation, migration, and response to anticancer drugs in vitro compared to empty vector control. To assess the effect of PIP expression on breast tumorigenesis in vivo, the 4T1 syngeneic transplantable mouse model was utilized. In immunocompetent syngeneic BALB/c mice, PIP-expressing 4T1 primary tumors displayed delayed tumor onset and reduced tumor growth, and this was associated with higher percentages of natural killer cells and reduced percentages of type 2 T-helper cells in the tumor environment. The delayed tumor onset and growth were abrogated in immunodeficient mice, suggesting that PIP-mediated modulation of primary tumor growth involves an intact immune system. Paradoxically, we also observed that PIP expression was associated with a higher number of 4T1 colonies in the lungs in both the immunocompetent and immunodeficient mice. Gene expression analysis of PIP-expressing 4T1 cells (4T1-PIP) revealed that genes associated with tumor metastasis such as CCL7, MMP3 and MMP13, were significantly upregulated in 4T1-PIP cells when compared to the empty vector control (4T1-EV) cells. Collectively, these studies strongly suggest that PIP may possess a double-edge sword effect in BC, enhancing both antitumor immunity as well as metastasis.
Highlights
Breast cancer (BC) remains the most common cancer among females, affecting over 2 million women globally [1]
prolactin inducible protein (PIP) is highly expressed in some BCs, its role in BC pathogenesis is not known
These findings provide evidence to suggest that PIP is important in T cell-mediated immunity, an arm of the adaptive immune response that is critical for antitumor immunity in BC [51]
Summary
Breast cancer (BC) remains the most common cancer among females, affecting over 2 million women globally [1] Both genetic and epigenetic alterations in normal breast cells can result in their transformation into BC [2]. More than 10 molecular subtypes have been identified but the most common are: the luminal A and luminal B, human epidermal growth factor receptor 2 expressing, and the triple-negative BCs, TNBC [3] These subtypes generally display significantly different biological characteristics underscoring the heterogenous nature of the disease. The host immune system often eliminates a developing tumor before the tumor is established [5] Various immune cells such as CD8+ T cells, CD4+ type 1 T-helper (Th1) cells, natural killer (NK) cells, classically activated (M1) macrophages and mature dendritic cells (DCs) contribute to tumor elimination and are considered antitumorigenic. A recent report showed that patients who have tumors with a Th2 profile, have a worse prognosis than patients with a Th1 or CD8+ T cell profile [10]
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