Na super(+)+K super(+)-ATPase in gills of aquatic crustacea

• Published in: Comparative biochemistry and physiology. Part A, Molecular & integrative physiology Vol. 135; no. 2; pp. 195 - 214
• Main Authors: Lucu, C, Towle, D W
• Format: Journal Article
• Language: English
• Published: 01.06.2003
• Subjects: Brackish; Marine
• ISSN: 1095-6433
• DOI: 10.1016/S1095-6433(03)00064-3

The sodium pump, or Na super(+)+K super(+)-ATPase, provides at least part of the driving force for transepithelial movement of monovalent ions across the gills and other transporting tissues in many aquatic animals including the Crustacea. The crustacean Na super(+)+K super(+)-ATPase, like that in all animal cells, is composed of a catalytic alpha -subunit and an accompanying beta -subunit. The amino acid sequence of the crustacean alpha -subunit is 71-74% identical to vertebrate alpha -subunit sequences. In brachyuran Crustacea, the Na super(+)+K super(+)-ATPase is more highly expressed in posterior gills compared with anterior and is found predominantly in mitochondria-rich cells that are morphologically and biochemically specialized to mediate NaCl uptake from the medium. When the external salinity is lowered from that of normal seawater, producing conditions in which many euryhaline Crustacea hyperosmoregulate their hemolymph, both the enzymatic activity of the Na super(+)+K super(+)-ATPase and the gene expression of the alpha -subunit are increased in these tissues. Although the precise regulatory mechanism is not known, evidence suggests that crustacean hyperglycemic hormone may be responsible for the induction of Na super(+)+K super(+)-ATPase activity. Whether it also plays a role in activation of gene transcription is not known. A comparison of a range of aquatic Crustacea suggests that the level of Na super(+)+K super(+)-ATPase function in transporting tissues may be correlated with their ability to invade estuarine habitats.