Differential consequences of neurokinin receptor 1 and 2 antagonists in metastatic breast carcinoma cells; Effects independent of Substance P

•NK1R and NK2R are expressed in metastatic breast cancer cells.•Full-length NK1R and NK2R were markedly lower in non metastatic cells.•Substance P and Substance P Methyl ester do not alter the growth rate of breast cancer cells.•NK1R antagonist significantly suppresses cell proliferation in metastat...

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Veröffentlicht in:Biomedicine & pharmacotherapy 2018-12, Vol.108, p.263-270
Hauptverfasser: Nizam, Esra, Erin, Nuray
Format: Artikel
Sprache:eng
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Zusammenfassung:•NK1R and NK2R are expressed in metastatic breast cancer cells.•Full-length NK1R and NK2R were markedly lower in non metastatic cells.•Substance P and Substance P Methyl ester do not alter the growth rate of breast cancer cells.•NK1R antagonist significantly suppresses cell proliferation in metastatic cells.•SP does not alter the anti-proliferative effects of NK1R and NK2R antagonists. The biological action of Substance P (SP) is mediated mainly by NK-1 receptors (NK1R) followed by NK2 receptors (NK2R). Aberrant expression of NK1R and NK2R has been identified in various carcinomas. The role of Substance P and its receptors, especially NK2R in cancer progression is not entirely known and there are conflicting results in the literature demonstrating the need for further investigation. In the current study, we examined the effects of SP and antagonists selective for the NK1R and NK2R in breast carcinoma cells metastasize to vital organs. The effects of highly potent and selective non-peptide mouse NK1R and NK2R antagonists RP 67,580 and GR 159897, respectively, as well as SP and SP methyl ester, on both metastatic (4THM, 4TBM, 4TLM, 4T1) and non-metastatic (67NR) breast cancer cells were determined. NK1R and NK2R were over expressed in metastatic breast cells compared to non-metastatic cells. The NK1R antagonist at a 30 μM dose inhibited cell growth and induced cell death in metastatic cells while enhancing phosphorylation of Akt, the latter response not observed in the non-metastatic 67NR cells. Blocking the action of SP at the NK2R (30 μM antagonist) suppressed cellular proliferation in all the cell lines examined, with a response less prominent than that of the NK1R antagonist. Differently, the NK2R antagonist increased phosphorylation of p38 and enhanced MIP-2 secretion. SP and the SP methyl ester neither altered cell proliferation nor the effects of NK1R and NK2R antagonists in the metastatic cell lines. Increased sensitivity of metastatic breast carcinoma cells to NK1R and NK2R antagonists suggest potential therapeutic value of antagonists in metastatic disease. NK1R and NK2R in metastatic breast carcinoma cells react differently to agonists and antagonists. These findings together with previously published data demonstrate that differential consequences of receptor antagonists and SP may inhibit breast cancer growth and metastasis.
ISSN:0753-3322
1950-6007
DOI:10.1016/j.biopha.2018.09.013