Regulatory phosphorylation of FXYD2 by PKC and cross interactions between FXYD2, plasmalemmal Ca-ATPase and Na,K-ATPase |
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| Authors: | Vanessa Faria Cortes Izabela Matos Ribeiro Hector Barrabin Marcelo Alves-Ferreira Carlos Frederico Leite Fontes |
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| Institution: | aLaboratório de Estrutura e Regulação de Proteínas e ATPases, Instituto de Bioquímica Médica, Universidade Federal do Rio de Janeiro, Brazil;bLaboratório de Genômica Funcional e Bioinformática, Instituto Oswaldo Cruz, FIOCRUZ, Rio de Janeiro, Brazil;cLab. de Membranas Transportadoras, Instituto de Bioquímica Médica, Universidade Federal do Rio de Janeiro, Brazil |
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| Abstract: | FXYD2 is a regulatory peptide associated with the α-subunit of the kidney Na,K-ATPase. FXYD2 can be phosphorylated by PKA, and its phosphorylation activates Na,K-ATPase. Here we show that FXYD2 is phosphorylated by PKC (PKC-FXYD2-P), by PKA (PKA-FXYD2-P) or by PKA and PKC simultaneously (FXYD2-P2) modulating both the erythrocyte Na,K-ATPase and the plasma membrane Ca2+-ATPase (PMCA). In erythrocyte ghosts, the addition of PKA-FXYD2-P activated Na,K-ATPase by 80%, while non-phosphorylated FXYD2 (np) activated only 55%. The addition of np FXYD2 did not affect PMCA basal activity, but FXYD2-P2 increased the basal PMCA activity by up to 200%. Calmodulin-activated PMCA activity was increased by np FXYD2 (3-fold) or FXYD2-P2 (2.5-fold). However, PKC-FXYD2-P increased PMCA activity only by 50%. In contrast, when PMCA was treated with PKA-FXYD2-P, the ATPase activity was inhibited by 50%. The effect of all forms of FXYD2-P on calcium uptake from PMCA resembled the pattern observed in ATP hydrolysis. Our results suggest that the FXYD2 anchoring site could be conserved among the P-ATPase family permitting cross regulation. The effects of FXYD2 on calcium uptake and calcium-stimulated ATP hydrolysis suggest a novel role for FXYD2 on PMCA. |
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| Keywords: | Na K-ATPase FXYD2 Phosphorylation Protein kinases Cross interactions |
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