BACKGROUND:
WNT inducible secreted protein 2 (WISP2) has been linked with a variety of human cancer types and may contribute to cancer metastasis. The current study investigated the importance of WISP2 in colorectal cancer cells, examining the impact of targeting WISP2 on Caco-2 cell invasion and motility together with potential mechanisms of action.
MATERIALS AND METHODS:
WISP2 expression was targeted in Caco-2 cells using a ribozyme transgene system and successful knockdown was verified using reverse transcription-polymerase chain reaction (RT-PCR). The impact of WISP2 knockout (Caco-2(WISP2 KO)) on cell growth, adhesion, motility and invasion was examined using a number of in vitro functional assays. In vitro invasion assays were repeated in the presence of wingless-type MMTV integration site family (WNT) inhibitors (FH535 and IWP-2) to investigate the role of the WNT-signalling pathway in the regulation of cell invasion by WISP2. Quantitative-PCR was conducted to measure matrix metalloproteinase (MMP) expression in control [wild-type (Caco-2(WT)) and cells containing the empty pEF6 plasmid (Caco-2(pEF6))] and Caco-2(WISP2 KO) cells.
RESULTS:
WISP2 knockout resulted in a significant increase in Caco-2 cell invasion and motility (p0.05). Expression analysis of a number of MMPs indicated an insignificant up-regulation of MMP2, MMP9 (p>0.05) but significant up-regulation of MMP7 (p=0.025) in Caco-2(WISP2 KO) cells compared to controls. Inhibition of WNT signalling using FH535 and IWP-2 brought about a significant or borderline significant decrease in Caco-2(WISP2 KO) cell invasion (FH535 p=0.065) and (IWP-2 p=0.002) and negated the pro-invasive effect of targeting WISP2 in Caco-2 cells.
CONCLUSION:
WISP2 knockout significantly increased Caco-2 cell invasion and motility. Up-regulation of MMP2, -7 and -9 may indicate that WISP2 regulates invasion and motility through MMPs. Regulation of invasion by WISP2 may involve the WNT signalling pathway
