RESUMEN
The ST2 gene is induced in murine fibroblast cells at the start of cell proliferation. Although IL-33 has been identified as a ligand for one of the two major gene products of ST2 - namely, the transmembrane receptor form ST2L - prompting immunological research on inflammation, the roles of the ST2 gene products in cell proliferation remain to be elucidated. Using a cell proliferation assay system with NIH-3T3 cells, a normal murine fibroblast cell line, we found that treatment with recombinant ST2 caused an acceleration of cell proliferation, suggesting that ST2 acts in an autocrine/paracrine fashion. Strikingly, shRNA-induced knockdown of both ST2 gene products, ST2 and ST2L, reduced cell proliferation. This effect was effectively canceled by the expression of shRNA-resistant ST2, but not shRNA-resistant ST2L. The novel enhancement of cell proliferation by ST2 appears to involve positive feedback. Since the ST2 level is increased in various diseases involving inflammation, future investigations into the role of ST2 gene products in relation to various diseases, including malignancies, may be warranted.
RESUMEN
The interleukin-33 (IL-33)-ST2L signaling pathway has been shown to play important roles in the field of immunology, especially as a trigger for allergic reactions such as bronchial asthma. However, coming back to the original finding that the ST2 gene is induced during initiation of the cell cycle of fibroblastic cell lines, the possible functions of the ST2 gene products and their specific ligand, IL-33, in the field of cell growth regulation are still interesting problems to be solved. In this study, we used NIH-3T3 mouse cell line and added IL-33 before and after cell proliferation assay, which revealed the dual function of IL-33. When IL-33 was added to the confluent cells before the start of cell proliferation, it suppressed the cell growth concentration-dependently. On the other hand, if IL-33 was added after the start of cell proliferation, it enhanced the cell growth. The negative effect of IL-33 on cell proliferation is a novel finding and would provide an important clue to the roles of IL-33 and ST2/ST2L in growth regulation.