Ca(2+)transport by the sarcoplasmic reticulum Ca(2+)-ATPase in sea cucumber (Ludwigothurea grisea) muscle

Author:

Landeira-Fernandez A.1

Affiliation:

1. Instituto de Ciencias Biomedicas, Departamento de Bioquimica Medica, Universidade Federal do Rio de Janeiro, UFRJ, Cidade Universitaria, RJ, Rio de Janeiro, Brasil 21941-590. landeira@bioqmed.ufrj.br

Abstract

In muscle cells, the excitation-contraction cycle is triggered by an increase in the concentration of free cytoplasmic Ca(2+). The Ca(2+)-ATPase present in the membrane of the sarcoplasmic reticulum (SR) pumps Ca(2+) from the cytosol into this intracellular compartment, thus promoting muscle relaxation. The microsomal fraction derived from the longitudinal smooth muscle of the body wall from the sea cucumber Ludwigothurea grisea retains a membrane-bound Ca(2+)-ATPase that is able to transport Ca(2+) mediated by ATP hydrolysis. Immunological analyses reveal that monoclonal antibodies against sarco-endoplasmic reticulum Ca(2+)-ATPase (SERCA1 and SERCA2a) cross-react with a 110 kDa band, indicating that the sea cucumber Ca(2+)-ATPase is a SERCA-type ATPase. Like the mammalian Ca(2+)-ATPase isoforms so far described, the enzyme also shows a high affinity for Ca(2+) and ATP, has an optimum pH of approximately 7.0 and is sensitive to thapsigargin and cyclopiazonic acid, specific inhibitors of the SERCA pumps. However, unlike the mammalian SERCA isoforms, concentrations of ATP above 2 mmol l(−1) inhibit Ca(2+) transport, but not ATP hydrolysis, in sea cucumber vesicles, suggesting that high ATP concentrations uncouple the Ca(2+)-ATPase. Another unique feature observed with the sea cucumber Ca(2+)-ATPase is the high dependence of maximal activity on K(+) or Na(+). Similar activation promoted by these cations was observed with various mammalian Ca(2+)-ATPase preparations when they were incubated in the presence of low concentrations of sulphated polysaccharides. In control experiments, K(+) and Na(+) have almost no effect on Ca(2+) transport, but in the presence of heparin or fucosylated chondroitin sulphate, the activity of the different mammalian Ca(2+)-ATPases is inhibited and they are activated by either K(+) or Na(+) in a manner similar to the native sea cucumber ATPase. These results led us to investigate the possible occurrence of a highly sulphated polysaccharide on vesicles from the SR of sea cucumber smooth muscle that could act as an ‘endogenous’ Ca(2+)-ATPase inhibitor. In fact, SR vesicles derived from the sea cucumber, but not from rabbit muscle, contain a highly sulphated polysaccharide. After extraction and purification of these polysaccharide molecules, their effect was tested on vesicles obtained from rabbit muscle. This compound inhibited Ca(2+) uptake in rabbit SR vesicles, at concentrations lower than heparin, and restored the dependence on monovalent cations. These results strongly suggest that the sea cucumber Ca(2+)-ATPase is activated by monovalent cations because of the presence of endogenous sulphated polysaccharides.

Publisher

The Company of Biologists

Subject

Insect Science,Molecular Biology,Animal Science and Zoology,Aquatic Science,Physiology,Ecology, Evolution, Behavior and Systematics

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