Abstract
We studied the changes of intratumoral stromal proteins including THBS1, TNC, FN, SPARC and α-SMA, following neoadjuvant chemotherapy. The underlying mechanisms by which THBS1 and TNC regulated resistance to docetaxel were further studied using functional studies. 100 patients with newly diagnosed breast cancer were treated with alternating sequential doxorubicin and docetaxel. Immunohistochemistry (IHC) staining for stromal proteins was performed on pre- and post-treatment core biopsies respectively. THBS1 and TNC were further validated with IHC in an independent cohort of 31 patients. A high baseline combined expression score of the 5 stromal proteins predicted independently for poor progression-free (HRadjusted 2.22, 95% CI 1.06–4.64) and overall survival (HRadjusted 5.94, 95% CI 2.25–15.71). After 1–2 cycles of chemotherapy, increased expression of THBS1, TNC, FN, SPARC and α-SMA was seen in patients with subsequent pathological lymph node involvement at surgery. Increased expression of THBS1 and TNC compared to baseline was also seen in intrinsically resistant tumors, but not in sensitive ones. Both THBS1 and TNC-associated chemoresistance were confirmed in an independent validation cohort. Exogenous THBS1 and TNC protected MCF-7 cells against proliferation inhibition induced by docetaxel through activating integrin β1/mTOR pathway. Thus, up-regulation of THBS1, TNC, FN, SPARC and α-SMA following neoadjuvant chemotherapy was associated with chemotherapy resistance in breast cancer patients. Functional studies showed THBS1 and TNC to mediate chemoresistance through the integrin β1/mTOR pathway, suggesting that therapies targeting integrin β1/mTOR pathway may be a promising strategy to overcome chemotherapy resistance.
Highlights
Chemotherapy is a cornerstone treatment in patients with early and advanced breast cancer
There were no significant chemotherapy-induced tumor expression changes in FN, secreted protein acidic and rich in cysteine (SPARC) and α-SMA in patients without pathological lymph node (PLN) involvement. These results suggest that increase in expression of thrombospondin 1 (THBS1), tenascin C (TNC), FN, SPARC and α-SMA early in the course of neoadjuvant chemotherapy may be predictive of PLN metastasis and poorer clinical outcomes; both THBS1 and TNC may be better predictors than FN, SPARC and α-SMA as changes occurred earlier
We showed that at the protein level, high baseline THBS1 and SPARC and high post-treatment α-SMA expression were associated with poor survival; a high baseline score derived from the combined expression of 5 stromal proteins was an independent predictor for poor progression-free and overall survival
Summary
Chemotherapy is a cornerstone treatment in patients with early and advanced breast cancer. Increasing evidence indicates that cancer cells are not the only determinants for tumor growth; intratumoral stroma plays an important role in tumor progression and chemotherapy response [1,2,3], especially in tumors with intense desmoplastic reaction. Enrichment in stroma-related gene pathways in pancreatic ductal adenocarcinoma was associated with poor survival and resistance to gemcitabine [2]. Stromal gene signatures may predict resistance to anthracyclines in breast cancer [3]. Breast cancer has been classified according to their stromal gene profile, which provides additional prognostic information independent of conventional tumor features, such as estrogen receptor (ER) or human epithelial growth factor 2 (Her2/neu) status [4]
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