Spatial and temporal regulation of intracellular Ca 2؉ is a key event in many signaling pathways. Plasma membrane Ca 2؉ -ATPases (PMCAs) are major regulators of Ca 2؉ homeostasis and bind to PDZ (PSD-95/Dlg/ZO-1) domains via their C termini. Various membrane-associated guanylate kinase family members have been identified as interaction partners of PMCAs. In particular, SAP90/PSD95, PSD93/chapsyn-110, SAP97, and SAP102 all bind to the C-terminal tails of PMCA "b" splice variants. Additionally, it has been demonstrated that PMCA4b interacts with neuronal nitric-oxide synthase and that isoform 2b interacts with Na ؉ /H ؉ exchanger regulatory factor 2, both via a PDZ domain. CASK (calcium/calmodulin-dependent serine protein kinase) contains a calmodulin-dependent protein kinase-like domain followed by PDZ, SH3, and guanylate kinase-like domains. In adult brain CASK is located at neuronal synapses and interacts with various proteins, e.g. neurexin and Veli/LIN-7. In kidney it is localized to renal epithelia. Surprisingly, interaction with the Tbr-1 transcription factor, nuclear transport, binding to DNA Telements (in a complex with Tbr-1), and transcriptional competence has been shown. Here we show that the C terminus of PMCA4b binds to CASK and that both proteins co-precipitate from brain and kidney tissue lysates. Immunofluorescence staining revealed co-expression of PMCA, CASK, and calbindin-D-28K in distal tubuli of rat kidney sections. To test if physical interaction of both proteins results in functional consequences we constructed a T-element-dependent reporter vector and investigated luciferase activity in HEK293 lysates, previously co-transfected with PMCA4b expression and control vectors. Expression of wild-type PMCA resulted in an 80% decrease in T-element-dependent transcriptional activity, whereas co-expression of a point-mutated PMCA, with nearly eliminated Ca 2؉ pumping activity, had only a small influence on regulation of transcriptional activity. These results provide evidence of a new direct Ca 2؉ -dependent link from the plasma membrane to the nucleus. (12). In contrast to these observations, overexpression of PMCA4b in the myocardium of transgenic rats did not result in an altered regulation of contraction/relaxation cycle but in an enhanced growth response of cardiac myocytes to different stimuli (13). Additionally, it has been shown that the C termini of several PMCA variants, especially variants PMCA4b and PMCA2b, bind to PDZ domains of proteins of the MAGUK (membrane-associated guanylate kinases) family (14,15), to the PDZ domain of nitricoxide synthase I (nNOS, NOS-I (16)) and to Na ϩ /H ϩ exchanger regulatory factor (NHERF (23)). We observed that isoform PMCA4b (PMCA4CI) not only interacted physically with nitricoxide synthase I, but also down-regulated its activity in a dose-dependent manner through local Ca 2ϩ depletion (16). A compilation of interaction partners currently known is given in Table IA. Gene knock-out studies of PMCA2 have revealed balance and hearing deficits and slower gro...
