http://nova.newcastle.edu.au/vital/access/services/Feed ${session.getAttribute("locale")} 5 http://nova.newcastle.edu.au/vital/access/manager/Repository/uon:9606 Hypoxia is the most widespread deleterious consequence of eutrophication and has become a major cause of fishery decline. One feature of chronic exposure to hypoxia in fish is inhibition of feeding. In this study, we investigated if the gene that encodes the appetite-suppressing hormone leptin is regulated by hypoxia in zebrafish (Danio rerio). Exposure of adult zebrafish to hypoxic conditions (1 ± 0.2 mg O₂ L⁻¹) for 4 and 10 days significantly increased leptin-a (zlep-a) mRNA levels in the liver. To evaluate the role of hypoxia-inducible factor 1 (HIF-1) in regulating zlep-a expression, zebrafish embryos were exposed to cobalt chloride (CoCl₂, a HIF-1 inducer) and overexpressed with HIF-1α mRNA. Both CoCl₂ treatment and HIF-1α overexpression markedly increased zlep-a expression in developing embryos, indicating the possible involvement of HIF-1 in zlep-a regulation. In vivo promoter analysis indicated that zlep-a promoter activity is found in the muscle fibers of zebrafish embryos and enhanced by CoCl₂. This is the first report to show that leptin gene expression in fish is regulated by hypoxia possibly via the involvement of HIF-1. 2011-12-06T01:00:08.770Z ]]> http://nova.newcastle.edu.au/vital/access/manager/Repository/uon:123 The cadherin superfamily members play an important role in mediating cell-cell contact and adhesion (Takeichi, M., 1991. Cadherin cell adhesion receptors as a morphogenetic regulator. Science 251, 1451-1455). A distinct subfamily, neither belonging to the classical or protocadherins includes Fat, the largest member of the cadherin super-family. Fat was originally identified in Drosophila. Subsequently, orthologues of Fat have been described in man (Dunne, J., Hanby, A. M., Poulsom, R., Jones, T. A., Sheer, D., Chin, W. G., Da, S. M., Zhao, Q., Beverley, P. C., Owen, M. J., 1995. Molecular cloning and tissue expression of FAT, the human homologue of the Drosophila fat gene that is located on chromosome 4q34-q35 and encodes a putative adhesion molecule. Genomics 30, 207-223), rat (Ponassi, M., Jacques, T. S., Ciani, L., ffrench, C. C., 1999. Expression of the rat homologue of the Drosophila fat tumour suppressor gene. Mech. Dev. 80, 207-212) and mouse (Cox, B., Hadjantonakis, A. K., Collins, J. E., Magee, A. I., 2000. Cloning and expression throughout mouse development of mfat 1, a homologue of the Drosophila tumour suppressor gene fat [In Process Citation]. Dev. Dyn. 217, 233-240). In Drosophila, Fat has been shown to play an important role in both planar cell polarity and cell boundary formation during development. In this study we describe the characterization of zebrafish Fat, the first non-mammalian, vertebrate Fat homologue to be identified. The Fat protein has 64% amino acid identity and 80% similarity to human FAT and an identical domain structure to other vertebrate Fat proteins. During embryogenesis fat mRNA is expressed in the developing brain, specialised epithelial surfaces the notochord, ears, eyes and digestive tract, a pattern similar but distinct to that found in mammals. (c) 2005 Elsevier B.V. All rights reserved. 2010-04-27T05:58:30.764Z ]]>