Browsing by Author "Balment, R."
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- Determination of tissue and plasma concentrations of PTHrP in fish: development and validation of a radioimmunoassay using a teleost 1–34 N-terminal peptidePublication . Rotllant, J.; Worthington, G. P.; Fuentes, J.; Guerreiro, P. M.; Teitsma, C. A.; Ingleton, P. M.; Balment, R.; Canario, Adelino V. M.; Power, DeborahA specific and sensitive radioimmunoassay (RIA) for the N-terminus of sea bream (Sparus auratus) and flounder (Platichthys flesus) parathyroid hormone-related protein (PTHrP) was developed. A (1–34) amino-terminal sequence of flounder PTHrP was synthesized commercially and used as the antigen to generate specific antiserum. The same sequence with an added tyrosine (1– 35Tyr) was used for iodination. Human (1–34) parathyroid hormone (PTH), human (1–34) PTHrP, and rat (1–34) PTHrP did not cross-react with the antiserum or displace the teleost peptide. Measurement of PTHrP in fish plasma was only possible after denaturing by heat treatment due to endogenous plasma binding activity. The minimum detectable concentration of (1–34) PTHrP in the assay was 2.5 pg/tube. The level of immunoreactive (1–34) PTHrP in plasma was 5.2 0.44 ng/ml (mean SEM, n ¼ 20) for flounder and 2.5 0.29 ng/ml (n ¼ 64) for sea bream. Dilution curves of denatured fish plasma were parallel to the assay standard curve, indicating that the activity in the samples was indistinguishable immunologically from (1–34) PTHrP. Immunoreactivity was present, in order of abundance, in extracts of pituitary, oesophagus, kidney, head kidney, gills, intestine, skin, muscle, and liver. The pituitary gland and oesophagus contained the most abundant levels of PTHrP, 37.7 6.1 ng/g wet tissue and 2.3 0.7 ng/g wet tissue, respectively. The results suggest that in fish PTHrP may act in a paracrine and/or autocrine manner but may also be a classical hormone with the pituitary gland as a potential major source of the protein.
- Measurement of PTHrP, PTHR1, and CaSR expression levels in tissues of sea bream (Sparus aurata) using quantitative PCRPublication . Hang, X. M.; Power, Deborah; Flik, G.; Balment, R.A quantitative PCR (Q-PCR) method has been established to measure the mRNA expression levels of parathyroid hormone–related protein (PTHrP), parathyroid hormone receptor type 1 (PTHR1), and calcium-sensing receptor (CaSR) in sea bream (Sparus aurata), using the housekeeping gene, - actin, as endogenous control. TaqMan primers and probes were designed using the Primer Express program, according to the published/unpublished sequences of the three target genes and -actin of sea bream. Different tissues including gill, kidney, duodenum, hindgut, rectum, liver, heart, brain, pituitary, skin, muscle, and gonad were removed and immediately snap-frozen from three juvenile sea bream (100–150 g) cultured in sea water. The mRNAs were extracted and reverse-transcribed into cDNAs, which were subsequently examined by the ABI 5700 system using an optimized Q-PCR method. Triplicate measures of each sample indicated consistency of the technique. However, the mRNA expression levels for each transcript in these tissues were variable between fish and also relatively low. Nevertheless, this methodology can be used in the future studies of factors that may alter gene expression in these tissues.
- Production and characterisation of gilthead sea bream (Sparus auratus) recombinant parathyroid hormone related proteinPublication . Anjos, Liliana; Rotllant, J.; Guerreiro, P. M.; Hang, X. M.; Canario, Adelino V. M.; Balment, R.; Power, DeborahThe production and puriWcation of gilthead sea bream recombinant parathyroid hormone related protein [sbPTHrP(1–125)] using an Escherichia coli system and one step puriWcation process with continuous elution gel electrophoresis is reported. The cDNA encoding sbPTHrP(1–125) was cloned into a prokaryotic expression vector pET-11a. The recombinant plasmid was used to transfect E. coli BL21(DE3) pLysS and sbPTHrP(1–125) synthesis was induced by addition of 1mM isopropyl- -D-thiogalactopyranoside. The rapid one step isolation method gave pure sbPTHrP(1–125) as judged by SDS–PAGE and yielded up to 40mg/L of culture medium (3.3mg protein/g of bacteria). The bioactivity of recombinant sbPTHrP(1–125) assessed using an in vitro scale bioassay was found to be equipotent to PTHrP(1–34) in stimulating cAMP accumulation. Assessment of the immunological reactivity of the isolated protein by Western blot revealed it cross-reacts with antisera speciWc for the N-terminal and C-terminal region of PTHrP. In a radioimmunoassay speciWc for piscine N-terminal (1–34 aa) PTHrP, the recombinant sbPTHrP(1–125) was equipotent with PTHrP(1–34) in displacing labelled 125I-PTHrP(1–36) PTHrP from the antisera. The availability of recombinant sbPTHrP will allow the development of region speciWc assays and studies aimed at deWning post-secretory processing of this protein and its biological activity in fish.