Na+/Ca2+ exchangers: three mammalian gene families control Ca2+ transport

Abstract: Mammalian Na+/Ca2+ exchangers are members of three branches of a much larger family of transport proteins [the CaCA (Ca2+/cation antiporter) superfamily] whose main role is to provide control of Ca2+ flux across the plasma membranes or intracellular compartments. Since cytosolic levels of Ca2+ are much lower than those found extracellularly or in sequestered stores, the major function of Na+/Ca2+ exchangers is to extrude Ca2+ from the cytoplasm. The exchangers are, however, fully reversible and thus, under spe… Show more

“…Current knowledge indicates that the overall functional and pharmacological properties of the three exchangers are similar [7,32]. Therefore, under certain circumstances, the loss of function of one exchanger may be compensated by the other.…”

“…39: 1405-1418 DOI 10.1002 Leukocyte signaling 1405 described as the result of alternative splicing of the three genes [9][10][11]. NCX1 is largely predominant in mammalian tissues such as heart, brain, and kidney while the expression of NCX2 and NCX3 appears to be limited to the brain and skeletal muscle [7]. NCX is a key element regulating intracellular Ca 21 concentrations ([Ca 21 ] i ) in many excitable cells, including myocardiocytes, retinal rod photoreceptors, smooth muscle cells, and neurons [3].…”

“…Three isoforms of NCX, NCX1, NCX2, and NCX3 have been cloned in mammals, outlining a multigene family whose members share a similar molecular structure [7]. NCX is modeled with nine transmembrane segments involved in ion transport and a long central cytoplasmic loop that has regulatory functions [8].…”

“…However, truncated forms lacking certain transmembrane segments, but still possessing NCX activity, have also been described as the result of alternative splicing of the three genes [9][10][11]. NCX1 is largely predominant in mammalian tissues such as heart, brain, and kidney while the expression of NCX2 and NCX3 appears to be limited to the brain and skeletal muscle [7].…”

“…However, in some cases it can contribute to the Ca 21 influx into the cells by working in the reverse mode (i.e. coupling Ca 21 influx with Na 1 efflux) [4][5][6].Three isoforms of NCX, NCX1, NCX2, and NCX3 have been cloned in mammals, outlining a multigene family whose members share a similar molecular structure [7]. NCX is modeled with nine transmembrane segments involved in ion transport and a long central cytoplasmic loop that has regulatory functions [8].…”

Expression and function of Na⁺/Ca²⁺ exchangers 1 and 3 in human macrophages and monocytes

“…Current knowledge indicates that the overall functional and pharmacological properties of the three exchangers are similar [7,32]. Therefore, under certain circumstances, the loss of function of one exchanger may be compensated by the other.…”

“…39: 1405-1418 DOI 10.1002 Leukocyte signaling 1405 described as the result of alternative splicing of the three genes [9][10][11]. NCX1 is largely predominant in mammalian tissues such as heart, brain, and kidney while the expression of NCX2 and NCX3 appears to be limited to the brain and skeletal muscle [7]. NCX is a key element regulating intracellular Ca 21 concentrations ([Ca 21 ] i ) in many excitable cells, including myocardiocytes, retinal rod photoreceptors, smooth muscle cells, and neurons [3].…”

“…Three isoforms of NCX, NCX1, NCX2, and NCX3 have been cloned in mammals, outlining a multigene family whose members share a similar molecular structure [7]. NCX is modeled with nine transmembrane segments involved in ion transport and a long central cytoplasmic loop that has regulatory functions [8].…”

“…However, truncated forms lacking certain transmembrane segments, but still possessing NCX activity, have also been described as the result of alternative splicing of the three genes [9][10][11]. NCX1 is largely predominant in mammalian tissues such as heart, brain, and kidney while the expression of NCX2 and NCX3 appears to be limited to the brain and skeletal muscle [7].…”

“…However, in some cases it can contribute to the Ca 21 influx into the cells by working in the reverse mode (i.e. coupling Ca 21 influx with Na 1 efflux) [4][5][6].Three isoforms of NCX, NCX1, NCX2, and NCX3 have been cloned in mammals, outlining a multigene family whose members share a similar molecular structure [7]. NCX is modeled with nine transmembrane segments involved in ion transport and a long central cytoplasmic loop that has regulatory functions [8].…”

Expression and function of Na⁺/Ca²⁺ exchangers 1 and 3 in human macrophages and monocytes

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