https://www.selleckchem.com/products/lw-6.html Finally, the possible role of calcium signal in glioma motility is also discussed. This is a very important issue, since glioma cells, contrary to the vast majority of neoplastic cells, cannot spread in the body with the bloodstream and, at least in early stages of tumor development, may expand only by means of sheer motility.The chapter is focused on the mechanism of action of metabotropic P2Y nucleotide receptors P2Y1, P2Y2, P2Y12, P2Y14 and the ionotropic P2X7 receptor in glioma C6 cells. P2Y1 and P2Y12 both respond to ADP, but while P2Y1 links to PLC and elevates cytosolic Ca2+ concentration, P2Y12 negatively couples to adenylate cyclase, maintaining cAMP at low level. In glioma C6, these two P2Y receptors modulate activities of ERK1/2 and PI3K/Akt signaling and the effects depend on physiological conditions of the cells. During prolonged serum deprivation, cell growth is arrested, the expression of the P2Y1 receptor strongly decreases and P2Y12 becomes a major player responsible for ADP-evoked signal transduction. The P2Y12 receptor activates ERK1/2 kinase phosphorylation (a known cell proliferation regulator) and stimulates Akt activity, contributing to glioma invasiveness. In contrast, P2Y1 has an inhibitory effect on Akt pathway signaling. Furthermore, the P2X7 receptor, often responsible for apoptotic fate, is not involved in Ca2+elevation in C6 cells. The shift in nucleotide receptor expression from P2Y1 to P2Y12 during serum withdrawal, the cross talk between both receptors and the lack of P2X7 activity shows the precise self-regulating mechanism, enhancing survival and preserving the neoplastic features of C6 cells.Purines and pyrimidines are fundamental signaling molecules in controlling the survival and proliferation of astrocytes, as well as in mediating cell-to-cell communication between glial cells and neurons in the healthy brain. The malignant transformation of astrocytes towards progressively more ag