The plasma membrane pump is a primary means by which Ca2+ is exported from all kinds of mammalian... more The plasma membrane pump is a primary means by which Ca2+ is exported from all kinds of mammalian cells. This review focuses on currently active areas of research on this pump, including the topology of the pump, the regulatory domains (including the calmodulin-binding and lipid-binding domains), other means of regulation, its involvement in transcellular Ca2+ transport and its heterologous expression
Engagement of antigen receptors on immature B cells induces apoptosis, while at the mature stage,... more Engagement of antigen receptors on immature B cells induces apoptosis, while at the mature stage, it stimulates cell activation and proliferation. The difference in B cell receptor (BCR)-mediated signaling pathways regulating death or survival of B cells is not fully understood. We aimed to characterize the pathway leading to BCR-driven apoptosis. Transitional immature B cells were obtained from the spleen of sublethally irradiated and auto-reconstituted mice. We have detected a short-lived BCR-driven activation of mitogen-activated protein kinases (ERK1/2 and p38 MAPK) and Akt/PKB in transitional immature B cells that correlated with the lack of c-Fos expression, reduced phosphorylation of Akt substrates and a susceptibility for apoptosis. Simultaneous signaling through BCR and CD40 protected immature B cells from apoptosis, however, without inducing Bcl-2 expression. The BCR-induced apoptosis of immature B cells is a result of the collapse of mitochondrial membrane potential and the subsequent activation of caspase-3.
Inside-out vesicles from erythrocyte membrane were phosphorylated in the presence of gamma-32P-AT... more Inside-out vesicles from erythrocyte membrane were phosphorylated in the presence of gamma-32P-ATP. The dissociated catalytic subunit of cyclic AMP-dependent protein kinase increased the 32P-labelling of membrane proteins and polyphosphoinositides in some red blood cell membrane preparations [RBC membrane, type I] while in the majority of membrane preparations the effect of the exogeneous catalytic subunit was insignificant [RBC membrane, type II]. The phosphorylation of type II RBC membrane preparations seemed to be stimulated by the catalytic subunit of endogeneous protein kinase, since the 32P-incorporation into polyphosphoinositides and proteins was decreased by the specific heat stable inhibitor protein of the protein kinase.
Peptides C28R2 and C28R1A, representing the two main alternative classes of calmodulin-binding do... more Peptides C28R2 and C28R1A, representing the two main alternative classes of calmodulin-binding domains from the plasma membrane Ca2+ pump, were tested for their calmodulin-binding properties and for their capacity to interact with pump from which the calmodulin-binding domain had been removed by chymotryptic proteolysis. Peptide C28R2 was more effective in both capacities. Binding of peptide to calmodulin was measured by competition experiments. Such experiments indicated that Ki for C28R2 as an inhibitor of the pump-calmodulin interaction was 0.1 nM, whereas C28R1A had a Ki of 1 nM. Interaction of peptide with chymotryptically activated Ca2+ pump was measured by observing the inhibition by peptide of active Ca2+ transport into inside-out membrane vesicles at low Ca2+. Those experiments showed that C28R2 interacted relatively strongly (an IC50 of 1 microM), whereas C28R1A had an IC50 of 15 microM. The calmodulin-binding peptides had effects on both the K1/2 for Ca2+ and the Vmax of the proteolyzed pump. The effects on the K1/2 for Ca2+ were related to the net plus charge on the peptide, with the most positive peptides being most effective in competing with Ca2+. The substantial differences between C28R2 and C28R1A suggest that Ca2+ pumps containing calmodulin-binding domains like C28R1A have lower calmodulin affinities and higher activities in the absence of activator.
Membrane vesicles from human platelets were prepared by various disruption and isolation techniqu... more Membrane vesicles from human platelets were prepared by various disruption and isolation techniques reported in the literature to yield fractions of predominantly surface or intracellular membrane origin. ATP + Mg2+-dependent Ca2+ accumulation and the formation of acylphosphate intermediates of the calcium pump(s) were followed in parallel experiments, and the consequences of a limited proteolysis of the membranes examined. In all types of preparations active Ca2+ uptake had both oxalate-sensitive and insensitive fractions and calmodulin had no effect on the rate of Ca2+ uptake. Limited proteolysis by trypsin eliminated oxalate-sensitive Ca2+ uptake while it had no effect on the oxalate-insensitive fraction. The Ca2+-induced EP complex had an apparent molecular mass of 100-110 kDa in all of the preparations, the EP showing a broad or even duplicated line in most autoradiographies. Mild trypsin digestion resulted in the formation of 80-, 55-, and 35-kDa phosphorylated fragments. The 80-kDa fragment corresponded to the limit polypeptide found in the proteolyzed erythrocyte membrane Ca2+ pump, its phosphorylation was stimulated by lanthanum, and it appeared in a different time course than the smaller fragments. The molecular mass and the formation pattern of the latter species corresponded to the tryptic fragments in the sarcoplasmic reticulum Ca2+ pump. Based on these results we suggest that platelet membrane preparations contain two types of Ca2+ pump proteins, one similar to the sarcoplasmic reticulum-type and the other to the erythrocyte-type enzyme.
The plasma membrane pump is a primary means by which Ca2+ is exported from all kinds of mammalian... more The plasma membrane pump is a primary means by which Ca2+ is exported from all kinds of mammalian cells. This review focuses on currently active areas of research on this pump, including the topology of the pump, the regulatory domains (including the calmodulin-binding and lipid-binding domains), other means of regulation, its involvement in transcellular Ca2+ transport and its heterologous expression
Engagement of antigen receptors on immature B cells induces apoptosis, while at the mature stage,... more Engagement of antigen receptors on immature B cells induces apoptosis, while at the mature stage, it stimulates cell activation and proliferation. The difference in B cell receptor (BCR)-mediated signaling pathways regulating death or survival of B cells is not fully understood. We aimed to characterize the pathway leading to BCR-driven apoptosis. Transitional immature B cells were obtained from the spleen of sublethally irradiated and auto-reconstituted mice. We have detected a short-lived BCR-driven activation of mitogen-activated protein kinases (ERK1/2 and p38 MAPK) and Akt/PKB in transitional immature B cells that correlated with the lack of c-Fos expression, reduced phosphorylation of Akt substrates and a susceptibility for apoptosis. Simultaneous signaling through BCR and CD40 protected immature B cells from apoptosis, however, without inducing Bcl-2 expression. The BCR-induced apoptosis of immature B cells is a result of the collapse of mitochondrial membrane potential and the subsequent activation of caspase-3.
Inside-out vesicles from erythrocyte membrane were phosphorylated in the presence of gamma-32P-AT... more Inside-out vesicles from erythrocyte membrane were phosphorylated in the presence of gamma-32P-ATP. The dissociated catalytic subunit of cyclic AMP-dependent protein kinase increased the 32P-labelling of membrane proteins and polyphosphoinositides in some red blood cell membrane preparations [RBC membrane, type I] while in the majority of membrane preparations the effect of the exogeneous catalytic subunit was insignificant [RBC membrane, type II]. The phosphorylation of type II RBC membrane preparations seemed to be stimulated by the catalytic subunit of endogeneous protein kinase, since the 32P-incorporation into polyphosphoinositides and proteins was decreased by the specific heat stable inhibitor protein of the protein kinase.
Peptides C28R2 and C28R1A, representing the two main alternative classes of calmodulin-binding do... more Peptides C28R2 and C28R1A, representing the two main alternative classes of calmodulin-binding domains from the plasma membrane Ca2+ pump, were tested for their calmodulin-binding properties and for their capacity to interact with pump from which the calmodulin-binding domain had been removed by chymotryptic proteolysis. Peptide C28R2 was more effective in both capacities. Binding of peptide to calmodulin was measured by competition experiments. Such experiments indicated that Ki for C28R2 as an inhibitor of the pump-calmodulin interaction was 0.1 nM, whereas C28R1A had a Ki of 1 nM. Interaction of peptide with chymotryptically activated Ca2+ pump was measured by observing the inhibition by peptide of active Ca2+ transport into inside-out membrane vesicles at low Ca2+. Those experiments showed that C28R2 interacted relatively strongly (an IC50 of 1 microM), whereas C28R1A had an IC50 of 15 microM. The calmodulin-binding peptides had effects on both the K1/2 for Ca2+ and the Vmax of the proteolyzed pump. The effects on the K1/2 for Ca2+ were related to the net plus charge on the peptide, with the most positive peptides being most effective in competing with Ca2+. The substantial differences between C28R2 and C28R1A suggest that Ca2+ pumps containing calmodulin-binding domains like C28R1A have lower calmodulin affinities and higher activities in the absence of activator.
Membrane vesicles from human platelets were prepared by various disruption and isolation techniqu... more Membrane vesicles from human platelets were prepared by various disruption and isolation techniques reported in the literature to yield fractions of predominantly surface or intracellular membrane origin. ATP + Mg2+-dependent Ca2+ accumulation and the formation of acylphosphate intermediates of the calcium pump(s) were followed in parallel experiments, and the consequences of a limited proteolysis of the membranes examined. In all types of preparations active Ca2+ uptake had both oxalate-sensitive and insensitive fractions and calmodulin had no effect on the rate of Ca2+ uptake. Limited proteolysis by trypsin eliminated oxalate-sensitive Ca2+ uptake while it had no effect on the oxalate-insensitive fraction. The Ca2+-induced EP complex had an apparent molecular mass of 100-110 kDa in all of the preparations, the EP showing a broad or even duplicated line in most autoradiographies. Mild trypsin digestion resulted in the formation of 80-, 55-, and 35-kDa phosphorylated fragments. The 80-kDa fragment corresponded to the limit polypeptide found in the proteolyzed erythrocyte membrane Ca2+ pump, its phosphorylation was stimulated by lanthanum, and it appeared in a different time course than the smaller fragments. The molecular mass and the formation pattern of the latter species corresponded to the tryptic fragments in the sarcoplasmic reticulum Ca2+ pump. Based on these results we suggest that platelet membrane preparations contain two types of Ca2+ pump proteins, one similar to the sarcoplasmic reticulum-type and the other to the erythrocyte-type enzyme.
Uploads