Abstract
Loss of Wnt-5a protein expression is associated with shorter recurrence-free survival in breast carcinoma patients and increased motility in mammary cell lines. Based on sequence analysis of Wnt-5a, we identified 14 peptide fragments and investigated their ability to mimic the effects of Wnt-5a on mammary cell adhesion and migration. Two of these peptides significantly increased adhesion and impaired migration in the non-tumorigenic HB2 breast epithelial cell line and in the MDA-MB-468 breast cancer cell line, both of which show little endogenous expression of the Wnt-5a protein. We removed two amino acids at a time from the N terminus of the shorter of these two peptides to identify the shortest peptide that still inhibited migration. The influence on tumor cell adhesion was gradually lost and was no longer detectable when only six amino acids remained. However, formylation of the N-terminal methionine of this hexapeptide restored its effect on adhesion and reduced tumor cell motility via a Frizzled-5 receptor-dependent mechanism, even at a low pH such as encountered in breast tumor tissue. This formylated hexapeptide ligand induced a rapid cytosolic calcium signal, whereas it did not affect the cellular levels of unphosphorylated beta-catenin or active JNK. The novel formyl-Met-Asp-Gly-Cys-Glu-Leu peptide ligand is not only a valuable experimental tool but has also a potential role in antimetastatic treatment of the 50% of human breast cancer patients that have reduced endogenous Wnt-5a protein expression.
Highlights
Wnt-2, Wnt-5b, and Wnt-7b have an intermediate transforming capacity; and Wnt-4, Wnt-5a, and Wnt-6 are non-transforming
Inasmuch as there was no discoidin domain receptor 1 (DDR1) phosphorylation in the presence of pept171 (Fig. 2A), we deduced that the mechanism underlying the impact of this peptide on cell adhesion does not require the activity of DDR1
We identified two peptides that, at high purity (Ͼ95%), caused a concentrationdependent increase in adhesion to collagen I in both Wnt-5a antisense HB2 cells and MDA-MB-468 cancer cells
Summary
Wnt-2, Wnt-5b, and Wnt-7b have an intermediate transforming capacity; and Wnt-4, Wnt-5a, and Wnt-6 are non-transforming. We have previously reported that low level expression of Wnt-5a protein in primary invasive breast carcinomas is associated with higher histological grade (poor differentiation) and shortened recurrence-free survival because of more rapid development of distant metastases [9]. Non-tumor mammary epithelial HB2 cells transfected to express increased and decreased Wnt-5a protein levels, respectively, exhibited in the former case increased and the latter decreased adhesion to collagen I [11]. It has not yet been established which of the different Frz receptors mediates the effects of Wnt-5a in human mammary cells. Our goal was to find a substance that can serve as a possible model in the development of novel antimetastatic treatment strategies for breast carcinomas that exhibit reduced endogenous expression of Wnt-5a
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