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- Cortisol and parathyroid hormone-related peptide are reciprocally modulated by negative feedbackPublication . Guerreiro, P. M.; Rotllant, J.; Fuentes, J.; Power, Deborah; Canario, Adelino V. M.In previous in vitro studies, we have shown that the N-terminal region of parathyroid hormone-related protein (PTHrP) can stimulate cortisol production in sea bream, Sparus auratus, interrenal tissue, possibly through a paracrine action. In the current study, the systemic interaction between cortisol and PTHrP was studied in vivo. Sustained elevated blood cortisol levels, induced either by cortisol injection or conWnement stress, suppressed circulating PTHrP 6 and 24-fold,respectively, by comparison to control Wsh.reduced cortisol levels, prevented the decrease of plasma PTHrP observed in conWned Wsh and raised plasma PTHrPrespectively, by comparison to control fish.
- Endocrine regulation of carbonate precipitate formation in marine fish intestine by stanniocalcin and PTHrPPublication . Gregorio, Silvia F.; Carvalho, Edison S. M.; Campinho, Marco A.; Power, Deborah M.; Canario, Adelino V. M.; Fuentes, JuanIn marine fish, high epithelial bicarbonate secretion by the intestine generates luminal carbonate precipitates of divalent cations that play a key role in water and ion homeostasis. In vitro studies highlight the involvement of the calciotropic hormones PTHrP (parathyroid hormone-related protein) and stanniocalcin (STC) in the regulation of epithelial bicarbonate transport. The present study tested the hypothesis that calciotropic hormones have a regulatory role in carbonate precipitate formation in vivo. Sea bream (Sparus aurata) juveniles received single intraperitoneal injections of piscine PTHrP(1-34), the PTH/PTHrP receptor antagonist PTHrP(7-34) or purified sea bream STC, or were passively immunized with polyclonal rabbit antisera raised against sea bream STC (STC-Ab). Endocrine effects on the expression of the basolateral sodium bicarbonate cotransporter (Slc4a4.A), the apical anion exchangers Slc26a6.A and Slc26a3.B, and the V-type proton pump beta-subunit (Atp6v1b) in the anterior intestine were evaluated. In keeping with their calciotropic nature, the hypocalcaemic factors PTHrP(7-34) and STC upregulated gene expression of all transporters. In contrast, the hypercalcaemic factor PTHrP(1-34) and STC antibodies downregulated transporters involved in the bicarbonate secretion cascade. Changes in intestine luminal precipitate contents provoked by calcaemic endocrine factors validated these results: 24 h postinjection either PTHrP(1-34) or immunization with STC-Ab reduced the carbonate precipitate content in the sea bream intestine. In contrast, the PTH/PTHrP receptor antagonist PTHrP(7-34) increased not only the precipitated fraction but also the concentration of HCO3 equivalents in the intestinal fluid. These results confirm the hypothesis that calciotropic hormones have a regulatory role in carbonate precipitate formation in vivo in the intestine of marine fish. Furthermore, they illustrate for the first time in fish the counteracting effect of PTHrP and STC, and reveal an unexpected contribution of calcaemic factors to acid-base balance.
- Cloning and characterisation of a fish aldolase B genePublication . Llewellyn, Lynda; Ramsurn, Vimi P.; Sweeney, Glen E.; Wigham, Trevor; Santos, Cecilia; Power, DeborahA full length cDNA clone representing an aldolase mRNA was isolated from a sea bream (Sparus aurutu) liver cDNA library. Sequencing of this clone revealed it to encode a 364 amino acid protein with 74% amino acid identity to human aldolase B and slightly lower similarity to human aldolase A and C. In view of the sequence data and of Northern blot analysis showing strong expression of a 1.6 kb transcript in liver it was concluded that the cloned gene represents aldolase B. This clone represents the first aldolase gene to be sequenced from any fish species thus providing new data on the evolution of the vertebrate aldolase gene family.
- Ligand binding and signalling pathways of PTH receptors in sea bream (Sparus auratus) enterocytesPublication . Rotllant, J.; Guerreiro, P. M.; Redruello, Begoña; Fernandes, H.; Apolonia, L.; Anjos, Liliana; Canario, Adelino V. M.; Power, DeborahWhole animal studies have indicated that Ca2+ uptake by the gastrointestinal tract is regulated by the action of parathyroid hormone-related peptide (PTHrP) in teleost fish. We have characterised PTH receptors (PTHR) in piscine enterocytes and established, by using aminoterminal PTHrP peptides, the amino acid residues important for receptor activation and for stabilising the ligand/receptor complex. Ligand binding of 125I-(1–35tyr) PTHrP to the membrane fraction of isolated sea bream enterocytes revealed the existence of a single saturable high-affinity receptor (KD=2.59 nM; Bmax=71 fmol/mg protein). Reverse transcription/polymerase chain reaction with specific primers for sea bream PTH1R and PTH3R confirmed the mRNA expression of only the later receptor. Fugu (1–34) PTHrP increased cAMP levels in enterocytes but had no effect on total inositol phosphate accumulation. The aminoterminal peptides (2–34)PTHrP, (3–34)PTHrP and (7–34) PTHrP bound efficiently to the receptor but were severely defective in stimulating cAMP in enterocyte cells indicating that the first six residues of piscine (1–34)PTHrP, although not important for receptor binding, are essential for activation of the adenylate cyclase/phosphokinase A (AC-PKA)-receptor-coupled intracellular signalling pathway. Therefore, PTHrP in teleosts acts on the gastrointestinal tract through PTH3R and the AC-PKA intracellular signalling pathway and might regulate Ca2+ uptake at this site. Ligand-receptor binding and activity throughout the vertebrates appears to be allocated to the same amino acid residues of the amino-terminal domain of the PTHrP molecule.
- Ontogeny of osteonectin expression in embryos and larvae of sea bream (Sparus auratus)Publication . Estêvão, M. Dulce; Redruello, Begoña; Canario, Adelino V. M.; Power, DeborahOsteonectin (OSN) is a glycoprotein which is implicated in development, bone formation and mineralisation, tumorigenesis, angiogenesis, and wound healing. Regulation of its expression by hormones may be one of the mechanisms by which the endocrine system affects bone metabolism. As a first step to understanding OSN function in fish, the gene expression of the recently cloned cDNA for sea bream, Sparus auratus, osteonectin (sbOSN) was characterised during embryonic and larval development. sbOSN mRNA was first detected by semi-quantitative reverse transcription-polymerase chain reaction in embryos at early gastrula and its expression increased continuously until hatch, after which it decreased until 15 days post-hatch (dph), increased transiently until 24 dph and decreased thereafter. In situ hybridisation showed it had a differential tissue distribution which was age dependent. In general, sbOSN mRNA was identified in cartilaginous and calcified structures of both dermal and endochondral origin but its expression was not restricted to the skeleton. sbOSN transcripts were also detected in the skin, perichordal sheath, nerve cord, and kidney tubules.
- Expression of pituitary prolactin, growth hormone and somatolactin is modified in response to different stressors (salinity, crowding and food-deprivation) in gilthead sea bream Sparus auratusPublication . Laiz-Carrión, R.; Fuentes, J.; Redruello, Begoña; Guzmán, José M.; Río, María P. Martín del; Power, Deborah; Mancera, J. M.Prolactin (PRL), growth hormone (GH) and somatolactin (SL) expression was studied in gilthead sea bream (Sparus auratus) in response to several different stressors (salinity, food deprivation or stocking density). In the first experiment, specimens were acclimated during 100 days at three different environmental salinities: low salinity water (LSW, 6 ppt), brackish water (BW, 12 ppt) and seawater (SW, 38 ppt). Osmoregulatory parameters corresponded to those previously reported for this species under similar osmotic conditions. Pituitary PRL expression increased with decreasing environmental salinity, and was significantly different between SW- and LSW-acclimated fish. Pituitary GH expression was similar between SW- and BW-acclimated fish but decreased in LSW-acclimated specimens. Pituitary SL expression had a ‘‘U-shaped” relationship to environmental salinity with the lowest expression in BW-acclimated fish. In a second experiment SW-acclimated specimens were randomly assigned to one of four treatments and maintained for 14 days: (1) fed fish under low density (LD, 4 kg m!3); (2) fed fish under high density (HD, 70 kg m!3); (3) food deprived fish under LD; and (4) food deprived fish under HD. Plasma glucose and cortisol levels corresponded to those previously reported in S. auratus under similar experimental conditions. Pituitary PRL and SL expression increased in fish maintained under HD and decreased in food deprived fish. In conclusion, an effect of environmental salinity on pituitary PRL and GH expression has been demonstrated. In addition, crowding stress seems to interact with food deprivation in S. auratus and this is reflected by changes in pituitary PRL, GH and SL expression levels.
- Cloning, characterisation and expression of the apolipoprotein A-I gene in the sea bream (Sparus aurata)Publication . Llewellyn, Lynda; Ramsurn, Vimi P.; Wigham, Trevor; Sweeney, Glen E.; Power, DeborahA full length cDNA clone representing apolipoprotein A-I was isolated from a sea bream (Sparus aurata) liver library. The clone encodes a 261 amino acid protein which shows highest amino acid identity (38%) with salmon apolipoprotein A-I. Northern blot analysis showed strong expression of a 1.4 kb transcript in liver with lower expression in intestine. Expression of apolipoprotein A-I in intestine was markedly reduced by treatment with triiodothyronine (T3). ß 1998 Elsevier Science B.V. All rights reserved.
- Prolactin regulates luminal bicarbonate secretion in the intestine of the sea bream (Sparus aurata L.)Publication . Ferlazzo, A.; Carvalho, Edison Samir Mascarelhas; Gregorio, Silvia; Power, Deborah; Canario, Adelino V. M.; Tischitta, F.; Fuentes, J.The pituitary hormone prolactin is a pleiotropic endocrine factor that plays a major role in the regulation of ion balance in fish, with demonstrated actions mainly in the gills and kidney. The role of prolactin in intestinal ion transport remains little studied. In marine fish, which have high drinking rates, epithelial bicarbonate secretion in the intestine produces luminal carbonate aggregates believed to play a key role in water and ion homeostasis. The present study was designed to establish the putative role of prolactin in the regulation of intestinal bicarbonate secretion in a marine fish. Basolateral addition of prolactin to the anterior intestine of sea bream mounted in Ussing chambers caused a rapid (<20min) decrease of bicarbonate secretion measured by pH-stat. A clear inhibitory dose–response curve was obtained, with a maximal inhibition of 60–65% of basal bicarbonate secretion. The threshold concentration of prolactin for a significant effect on bicarbonate secretion was 10ngml–1, which is comparable with putative plasma levels in seawater fish. The effect of prolactin on apical bicarbonate secretion was independent of the generation route for bicarbonate, as shown in a preparation devoid of basolateral HCO3 –/CO2 buffer. Specific inhibitors of JAK2 (AG-490, 50mmoll–1), PI3K (LY-294002, 75mmoll–1) or MEK (U-012610, 10mmoll–1) caused a 50–70% reduction in the effect of prolactin on bicarbonate secretion, and demonstrated the involvement of prolactin receptors. In addition to rapid effects, prolactin has actions at the genomic level. Incubation of intestinal explants of anterior intestine of the sea bream in vitro for 3h demonstrated a specific effect of prolactin on the expression of the Slc4a4A Na+–HCO3– co-transporter, but not on the Slc26a6A or Slc26a3B Cl–/HCO3 – exchanger. We propose a new role for prolactin in the regulation of bicarbonate secretion, an essential function for ion/water homeostasis in the intestine of marine fish.
- Regulation of transthyretin by thyroid hormones in WshPublication . Morgado, Isabel; Santos, C. R. A.; Jacinto, R.; Power, DeborahTransthyretin (TTR) is a thyroid hormone-binding protein (THBP) which in its tetrameric form transports thyroid hormones (THs), thyroxine (T4) and triiodothyronine (T3) in the blood of vertebrates. The principal site of production of TTR is the liver but in the sea bream TTR mRNA is also present in the heart, intestine and brain. The regulation of TTR is unstudied in Wsh and the normal circulating level of this THBP is unknown. The aim of the present study was to establish factors which regulate TTR production in Wsh. As a Wrst step a number of tools were generated; sea bream recombinant TTR (sbrTTR) and speciWc sbrTTR antisera which were used to establish an ELISA (enzyme-linked immunosorbent assay) for measuring TTR plasma levels. Subsequently, an experiment was conducted to determine the inXuence of THs on TTR production. Circulating physiological levels of TTR in sea bream determined by ELISA are approximately 3.8 gml¡1. Administration of T3 and T4 to sea bream signiWcantly increased (p< 0.001 and p<0.005, respectively) the concentration of circulating TTR (V11.5 gml¡1) in relation to control Wsh, but did not change gene transcription in the liver. Methimazol (MMI) an antithyroid agent, failed to signiWcantly reduce circulating THs below control levels but signiWcantly increased (p < 0.005) plasma TTR levels (approximately 10.8 gml¡1) and decreased (p< 0.05) transcription in the liver. Future studies will aim to elucidate in more detail these regulatory pathways.
- Parathyroid hormone-related protein-stanniocalcin antagonism in regulation of bicarbonate secretion and calcium precipitation in a marine fish intestinePublication . Fuentes, J.; Power, Deborah; Canario, Adelino V. M.Parathyroid hormone-related protein-stanniocalcin antagonism in regulation of bicarbonate secretion and calcium precipitation in a marine fish intestine. Am J Physiol Regul Integr Comp Physiol 299: R150–R158, 2010. First published April 21, 2010; doi:10.1152/ajpregu.00378.2009.—Bicarbonate secretion in the intestine (duodenum) of marine fish has been suggested to play a major role in regulation of calcium availability for uptake. However, while the end process may lead to carbonate precipitation, regulation of transport of calcium and/or bicarbonate may actually result in fine-tuning of calcium availability for transport. To test this hypothesis, sea bream (Sparus auratus) duodenal preparations were mounted in Ussing-type chambers and the effect of parathyroid hormone-related protein (PTHrP) and stanniocalcin 1 (STC 1) on the control of intestinal bicarbonate secretion and calcium transport was analyzed. As expected, PTHrP increased net calcium uptake, as a result of an increase of calcium uptake without changes in calcium efflux. In contrast, purified sea bream STC 1 caused a minor decrease of calcium uptake and a two- to threefold increase in calcium efflux. As a result, STC 1 was able to invert the calcium flux from net calcium uptake to net calcium loss, which is in keeping with its known actions as a hypocalcemic factor. Furthermore, both PTHrP and STC 1 regulate intestinal bicarbonate secretion. PTHrP increased calcium uptake and simultaneously reduced the single factor that induces calcium precipitation, bicarbonate secretion. In contrast, STC 1, while reversing the calcium net flux to make it secretory, promoted intestinal bicarbonate secretion, both actions directed to decrease the calcium gradient across the epithelium and promote immobilization in the form of bicarbonate in the intestinal lumen. Together our results provide robust evidence to support an antagonistic action of PTHrP and STC 1 in the fine control of movements of both calcium and bicarbonate in the intestine of seawater fish.