• Title of article

    The plasma membrane Ca2+ ATPase of animal cells: Structure, function and regulation

  • Author/Authors

    Di Leva، نويسنده , , Francesca and Domi، نويسنده , , Teuta and Fedrizzi، نويسنده , , Laura and Lim، نويسنده , , Dmitry and Carafoli، نويسنده , , Ernesto، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2008
  • Pages
    10
  • From page
    65
  • To page
    74
  • Abstract
    Most important processes in cell life are regulated by calcium (Ca2+). A number of mechanisms have thus been developed to maintain the concentration of free Ca2+ inside cells at the level (100–200 nM) necessary for the optimal operation of the targets of its regulatory function. The systems that move Ca2+ back and forth across membranes are important actors in its control. The plasma membrane calcium ATPase (PMCA pump) which ejects Ca2+ from all eukaryotic cell types will be the topic of this contribution. mp uses a molecule of ATP to transport one molecule of Ca2+ from the cytosol to the external environment. It is a P-type ATPase encoded by four genes (ATP2B1–4), the transcripts of which undergo different types of alternative splicing. Many pump variants thus exist. Their multiplicity is best explained by the specific Ca2+ demands in different cell types. In keeping with these demands, the isoforms are differently expressed in tissues and cell types and have differential Ca2+ extruding properties. y low Ca2+ concentrations the PMCAs are nearly inactive. They must be activated by calmodulin, by acid phospholipids, by protein kinases, and by other means, e.g., a dimerization process. proteins interact with the PMCAs (i.e., MAGUK and NHERF at the PDZ domain and calcineurin A in the main intracellular domain) to sort them to specific regions of the cell membrane or to regulate their function. In some cases the interaction is isoform, or even splice variant specific. PMCAs knock out (KO) mice have been generated and have contributed information on the importance of PMCAs to cells and organisms. So far, only one human genetic disease, hearing loss, has been traced back to a PMCA defect.
  • Keywords
    Ca2+ homeostasis , Ca2+ signalling , Hereditary deafness , PMCA pump , PMCA KO
  • Journal title
    Archives of Biochemistry and Biophysics
  • Serial Year
    2008
  • Journal title
    Archives of Biochemistry and Biophysics
  • Record number

    1629608