O ensure that this cation was not a limiting factor. When the dependence of PKCa activity on Ca2+ concentration was studied (Fig. 2) the sigmoidal curves obtained in all cases, pointed to cooperativity. In the presence of POPC/POPS (80:20 molar ratio) alone, increasing concentrations of Ca2+ led to a cooperative increase 1480666 in activity, with a K0.5 of 1.30 mM in Ca2+ (see Table 1), rising from 107.6 nmol Pi/min/mg at 0.1 mM in Ca2+ to a Vmax of 898.4 nmol Pi/min/mg and a Hill ZK 36374 coefficient of 2.28. If DOG was added to the membrane to give a composition of POPC/POPS/DOG (78:20:2 molar ratio) the cooperative behavior was again present, but now the K0.5 was 0.84 mM in Ca2+, with the activity raising from 70.5 nmol Pi/min/mg at 0.1 mM Ca2+ to a Vmax of 1192.7 nmol Pi/min/mg and a Hill coefficient of 2.42. It is clear that in the presence of DOG, the K0.5 for Ca2+ decreases, and there is an increase in Vmax. When PIP2 was added to the membrane to give a composition of POPC/POPS/PIP2 (75:20:5 molar ratio), K0.5 was now 0.59 mM of Ca2+ (Table 1), the activity was 597.4 nmol Pi/min/ mg at 0.1 mM of Ca2+ and Vmax was 1790.7 nmol Pi/min/mg at 10 mM of Ca2+, the higher cooperativity giving a Hill coefficient of 4.10. Even higher cooperativity (Hill coefficient of 8.61) was 58-49-1 observed for a membrane which incorporated also DOG, namelyFigure 2. The dependence of PKCa activity on Ca2+ concentration. The molar ratios of the lipid components of the vesicles used to activate the enzyme are shown. Ca2+ concentration was 200 mmol. SD calculated from 3 independent experiments. doi:10.1371/journal.pone.0069041.gPC/PS/PIP2/DOG (73:20:5:2 molar ratio), although the activity levels did not change with respect to the membrane without DOG, being now 512.9 nmol Pi/min/mg at 0.1 mM of Ca2+ while Vmax was 1804.9 nmol Pi/min/mg at 10 mM of Ca2+. It is interesting that at very low concentration of Ca2+, e.g. 0.1 mM, the activity in the presence of PIP2 was higher than in the absence of this phosphoinositide, both in the presence and in the absence of DOG. However, the addition of 2 DOG did not increase the activity levels when 5 mol PIP2 was present. The effect of increasing POPS concentration was also studied (Fig. 3). When PIP2 was absent in a POPC/POPS/DOG mixture (98-x:x:2 molar ratio), the effect observed was of positive cooperativity (very high Hill coefficient of 13.18), with a K0.5 = 15.12 mol of POPS (Table 2), which is similar to the effect observed previously for membrane activation of this enzyme [14]. Vmax was 1260.2 nmol Pi/min/mg. If PIP2 was also present, at just 1 mol , in a mixture containing POPC/POPS/PIP2/DOG (97-x:x:1:2 molar ratio),positive cooperativity was still observed, with a Hill coefficient of 3.71, an initial activity of 490 nmol Pi/min/mg in the absence of POPS and a Vmax of 1586.2 nmol Pi/min/mg. K0.5 was 15.4 mol of POPS. Table 1. Dependence of PKCa activation on Ca2+.Lipid mixture POPC:POPS (80:20) POPC:POPS:DOG (78:20:2) POPC:POPS:PIP2 (75:20:5) POPC:POPS:PIP2:DOG (73:20:5:2)K0.1.3060.08 0.8460.27 0.5860.09 0.2660.Vmax (nmol Pi/ min/mg) n898.2627.8 1192.7696.3 1790.7664.4 1804.96104.4 2.2860.89 2.4260.69 4.1060.92 8.6160.K0.5, n and Vmax were obtained by nonlinear least square fit of the data in the equation described in the Methods Section. doi:10.1371/journal.pone.0069041.tPIP2 Activation of PKCaPOPS/PIP2/DOG (74-x:25:1:x molar ratio) mixture, K0.5 was 0.38 mol of DOG, which was notably lower than the 1.10 mol observed in the absen.O ensure that this cation was not a limiting factor. When the dependence of PKCa activity on Ca2+ concentration was studied (Fig. 2) the sigmoidal curves obtained in all cases, pointed to cooperativity. In the presence of POPC/POPS (80:20 molar ratio) alone, increasing concentrations of Ca2+ led to a cooperative increase 1480666 in activity, with a K0.5 of 1.30 mM in Ca2+ (see Table 1), rising from 107.6 nmol Pi/min/mg at 0.1 mM in Ca2+ to a Vmax of 898.4 nmol Pi/min/mg and a Hill coefficient of 2.28. If DOG was added to the membrane to give a composition of POPC/POPS/DOG (78:20:2 molar ratio) the cooperative behavior was again present, but now the K0.5 was 0.84 mM in Ca2+, with the activity raising from 70.5 nmol Pi/min/mg at 0.1 mM Ca2+ to a Vmax of 1192.7 nmol Pi/min/mg and a Hill coefficient of 2.42. It is clear that in the presence of DOG, the K0.5 for Ca2+ decreases, and there is an increase in Vmax. When PIP2 was added to the membrane to give a composition of POPC/POPS/PIP2 (75:20:5 molar ratio), K0.5 was now 0.59 mM of Ca2+ (Table 1), the activity was 597.4 nmol Pi/min/ mg at 0.1 mM of Ca2+ and Vmax was 1790.7 nmol Pi/min/mg at 10 mM of Ca2+, the higher cooperativity giving a Hill coefficient of 4.10. Even higher cooperativity (Hill coefficient of 8.61) was observed for a membrane which incorporated also DOG, namelyFigure 2. The dependence of PKCa activity on Ca2+ concentration. The molar ratios of the lipid components of the vesicles used to activate the enzyme are shown. Ca2+ concentration was 200 mmol. SD calculated from 3 independent experiments. doi:10.1371/journal.pone.0069041.gPC/PS/PIP2/DOG (73:20:5:2 molar ratio), although the activity levels did not change with respect to the membrane without DOG, being now 512.9 nmol Pi/min/mg at 0.1 mM of Ca2+ while Vmax was 1804.9 nmol Pi/min/mg at 10 mM of Ca2+. It is interesting that at very low concentration of Ca2+, e.g. 0.1 mM, the activity in the presence of PIP2 was higher than in the absence of this phosphoinositide, both in the presence and in the absence of DOG. However, the addition of 2 DOG did not increase the activity levels when 5 mol PIP2 was present. The effect of increasing POPS concentration was also studied (Fig. 3). When PIP2 was absent in a POPC/POPS/DOG mixture (98-x:x:2 molar ratio), the effect observed was of positive cooperativity (very high Hill coefficient of 13.18), with a K0.5 = 15.12 mol of POPS (Table 2), which is similar to the effect observed previously for membrane activation of this enzyme [14]. Vmax was 1260.2 nmol Pi/min/mg. If PIP2 was also present, at just 1 mol , in a mixture containing POPC/POPS/PIP2/DOG (97-x:x:1:2 molar ratio),positive cooperativity was still observed, with a Hill coefficient of 3.71, an initial activity of 490 nmol Pi/min/mg in the absence of POPS and a Vmax of 1586.2 nmol Pi/min/mg. K0.5 was 15.4 mol of POPS. Table 1. Dependence of PKCa activation on Ca2+.Lipid mixture POPC:POPS (80:20) POPC:POPS:DOG (78:20:2) POPC:POPS:PIP2 (75:20:5) POPC:POPS:PIP2:DOG (73:20:5:2)K0.1.3060.08 0.8460.27 0.5860.09 0.2660.Vmax (nmol Pi/ min/mg) n898.2627.8 1192.7696.3 1790.7664.4 1804.96104.4 2.2860.89 2.4260.69 4.1060.92 8.6160.K0.5, n and Vmax were obtained by nonlinear least square fit of the data in the equation described in the Methods Section. doi:10.1371/journal.pone.0069041.tPIP2 Activation of PKCaPOPS/PIP2/DOG (74-x:25:1:x molar ratio) mixture, K0.5 was 0.38 mol of DOG, which was notably lower than the 1.10 mol observed in the absen.