Endothelin-1 and endothelin-3 stimulate calcium mobilization by different mechanisms in vascular smooth muscle.

The mechanisms by which endothelin-1 (ET-1) and endothelin-3 (ET-3) stimulate Ca2+ mobilization were investigated in rat aortic smooth muscle cells. Both ET-1 and ET-3 potently stimulated mobilization of Ca2+ from intracellular stores, however only ET-1-stimulated Ca2+ mobilization appeared to occur as a consequence of an elevation in cellular inositol trisphosphate (IP3) concentration. Neomycin, an inhibitor of phospholipase C, inhibited both the increase in [3H]IP3 formation and the mobilization of Ca2+ induced by ET-1, however it did not affect Ca2+ mobilization induced by ET-3. Together these findings indicate that ET-1 stimulates Ca2+ mobilization via an increase in IP3, whereas the effect of ET-3 appears to be mediated by a separate, IP3-independent signalling pathway.     

Effect of exogenous gibberellin A4/7 on tracheid production, longitudinal growth and the levels of indole‐3‐acetic acid and gibberellins A4, A7 and A9 in the terminal shoot of Pinus sylvestris seedlings

Synchronously dividing cultures of the unicellular green alga Scenedesmus obtusiusculus were cultivated for 24 or 70 h in medium high (1000 μM) or low (60 μM) in phosphorus. Aliquots of AlCl₃ (0, 37, 74, 111, 148, 185, or 222 μmol) were added daily to 1 l cell suspension at the end of the cell division phase. Algae were also grown in media with different pH, adjusted with HCl, in the absence of AlCl₃.
Effects of Al on cell metabolism vary with the intracellular Al concentration and with the concentration of Al available per cell. When the concentration of phosphorus is low, internal concentrations of Al are high and the chlorophyll content and the net dry matter production per cell increase, whereas the photosynthesis and the cell division are increased. Presence of Al in a low P medium decreases the pH of the medium down to 4.5. There are only small effects of Al in the presence of P, due to precipitation of most of the Al with P in the medium.
Despite the Al-induced decrease of the pH of the culture medium, effects caused by Al cannot be explained as a pH effect. Instead, the Al effect may, at least to some extent, be related to a decrease in availability of P in the metabolism, due to formation of aluminium phosphate inside the cell.