Development and validation of a radioimmunoassay for fish insulin-like growth factor I (IGF-I) and the effect of aquaculture related stressors on circulating IGF-I levels

Dyer, Anthony R; Upton, Zee; Stone, David; Thomas, Philip; Soole, Kathleen Lydia; Higgs, Naomi; Quinn, Kirsty; Carragher, John F

doi:10.1016/j.ygcen.2003.10.002

Author(s)

Dyer, Anthony R

Upton, Zee

Stone, David

Thomas, Philip

Soole, Kathleen Lydia

Higgs, Naomi

Quinn, Kirsty

Carragher, John F

Publication Date

2004

Abstract

This paper describes the development and validation of a commercially available radioimmunoassay (RIA) for the detection of fish insulin-like growth factor-I (IGF-I). The assay was developed using recombinant barramundi IGF-I as antigen and recombinant tuna IGF-I as radiolabelled tracer and standard. Assay sensitivity was 0.15 ng/ml, inter-assay variation was 16% (n=9) and intra-assay variation was 3% (n=10). Cross reactivity of less than 0.01% was found with salmon insulin, salmon IGF-II and barramundi IGF-II, less than 0.5% with human IGF-I and less than 1% with human IGF-II. Parallel dose-response inhibition curves were shown for barramundi ('Lates calcarifer'), coho salmon ('Oncorhynchus kisutch'), Southern Bluefin tuna ('Thunnus maccoyii'), tilapia ('Oreochromis mossambicus'), and seabream ('Pagrus auratus') IGF-I. The assay was then used to measure stress related changes in different aquacultured fish species. Salt water acclimated Atlantic salmon smolts ('Salmo salar') bathed for 2 h in fresh water showed significantly lower IGF-I concentrations than control smolts two days after the bath (53.1 compared to 32.1 ng/ml), with levels of IGF-I also lower in smolts exhibiting stunted growth (stunts). Capture and confinement of wild tuna in sea-cages resulted in a significant decrease in IGF-I levels (28 ng/ml) when compared to tuna captured and sampled immediately (48 ng/ml), but had recovered to starting levels after 3 weeks (43 ng/ml). Handling and isolation in silver perch ('Bidyanus bidyanus') led to a gradual decline in IGF-I over a 12 h period (36-19 ng/ml) but showed signs of recovery by 24 h (24 ng/ml) and had recovered fully 72 h after treatment (40 ng/ml). A similar trial in black bream ('Acanthopagrus butcherii') showed comparable results with IGF-I levels gradually decreasing (40-26 ng/ml) over 24 h, results that were mirrored by cortisol concentrations which increased during this time (1-26 ng/ml). In the studies presented here changes in IGF-I levels were not observed for at least 3 h after exposure to the stressor. We suggest this is due to the endocrine nature of IGF-I regulation and the clearance rate of IGF-I in vivo.

Citation

General and Comparative Endocrinology, 135(3), p. 268-275

ISSN

1095-6840

0016-6480

Link

https://hdl.handle.net/1959.11/15224

Language

en

Publisher

Academic Press

Title

Development and validation of a radioimmunoassay for fish insulin-like growth factor I (IGF-I) and the effect of aquaculture related stressors on circulating IGF-I levels

Type of document

Journal Article

Entity Type

Publication

Author(s)	Dyer, Anthony R Upton, Zee Stone, David Thomas, Philip Soole, Kathleen Lydia Higgs, Naomi Quinn, Kirsty Carragher, John F
Publication Date	2004
Abstract	This paper describes the development and validation of a commercially available radioimmunoassay (RIA) for the detection of fish insulin-like growth factor-I (IGF-I). The assay was developed using recombinant barramundi IGF-I as antigen and recombinant tuna IGF-I as radiolabelled tracer and standard. Assay sensitivity was 0.15 ng/ml, inter-assay variation was 16% (n=9) and intra-assay variation was 3% (n=10). Cross reactivity of less than 0.01% was found with salmon insulin, salmon IGF-II and barramundi IGF-II, less than 0.5% with human IGF-I and less than 1% with human IGF-II. Parallel dose-response inhibition curves were shown for barramundi ('Lates calcarifer'), coho salmon ('Oncorhynchus kisutch'), Southern Bluefin tuna ('Thunnus maccoyii'), tilapia ('Oreochromis mossambicus'), and seabream ('Pagrus auratus') IGF-I. The assay was then used to measure stress related changes in different aquacultured fish species. Salt water acclimated Atlantic salmon smolts ('Salmo salar') bathed for 2 h in fresh water showed significantly lower IGF-I concentrations than control smolts two days after the bath (53.1 compared to 32.1 ng/ml), with levels of IGF-I also lower in smolts exhibiting stunted growth (stunts). Capture and confinement of wild tuna in sea-cages resulted in a significant decrease in IGF-I levels (28 ng/ml) when compared to tuna captured and sampled immediately (48 ng/ml), but had recovered to starting levels after 3 weeks (43 ng/ml). Handling and isolation in silver perch ('Bidyanus bidyanus') led to a gradual decline in IGF-I over a 12 h period (36-19 ng/ml) but showed signs of recovery by 24 h (24 ng/ml) and had recovered fully 72 h after treatment (40 ng/ml). A similar trial in black bream ('Acanthopagrus butcherii') showed comparable results with IGF-I levels gradually decreasing (40-26 ng/ml) over 24 h, results that were mirrored by cortisol concentrations which increased during this time (1-26 ng/ml). In the studies presented here changes in IGF-I levels were not observed for at least 3 h after exposure to the stressor. We suggest this is due to the endocrine nature of IGF-I regulation and the clearance rate of IGF-I in vivo.
Citation	General and Comparative Endocrinology, 135(3), p. 268-275
ISSN	1095-6840 0016-6480
Link	https://hdl.handle.net/1959.11/15224
Language	en
Publisher	Academic Press
Title	Development and validation of a radioimmunoassay for fish insulin-like growth factor I (IGF-I) and the effect of aquaculture related stressors on circulating IGF-I levels
Type of document	Journal Article
Entity Type	Publication

Development and validation of a radioimmunoassay for fish insulin-like growth factor I (IGF-I) and the effect of aquaculture related stressors on circulating IGF-I levels

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