Abstract
Measurement of cortisol response is an important tool to asses stress in fisheries research. Radioimmunoassay (RIA) is a common method for the measure of cortisol in fish. Use of enzyme-linked immunosorbent assays (ELISA) to detect cortisol would eliminate health hazards, costs of handling radioisotopes, and the short stability time associated with RIA. Enzyme-linked immunosorbent assays have been used for the determination of cortisol in several fish species. However, the ELISA method of cortisol determination in fish lacks proper validation testing. We conducted validation procedures for multiple commercial cortisol ELISA kits and compared the results to RIA. The assays were tested for four species: (1) channel catfish Ictalurus punctatus, (2) largemouth bass Micropterus salmoides, (3) red pacu Piaractus brachypomus, and (4) golden shiners Notemigonus crysoleucas. We evaluated the ELISA methods against RIA, and determined that at least one kit is suitable (accuracy: mean recovery of spiked samples, 102.8%; reproducibility: interassay coefficient of variation < 10.5% for all species; precision: intra-assay coefficient of variation < 16.8% for all species; linearity: R 2 > 0.96 for all species) for the measurement of cortisol response in fish and comparative determination of stress. All of the ELISA assay results varied by more than 10% from the cortisol concentrations detected by the RIA. The high variability of the kit results indicates that commercial ELISA kits could be utilized for qualitative determination of cortisol in fish, but should be fully validated in each laboratory for each species before being used for research.
This is a preview of subscription content, access via your institution.
References
Ainsworth AJ, Dexiang C, Waterstrat PR (1991) Changes in peripheral blood leukocyte percentages and function of neutrophils in stressed channel catfish. J Aqua Animal Health 3(1):41–47
Ainsworth AJ, Bowser PR (1985) Serum cortisol levels in channel catfish, from production ponds. Progr Fish Cult 47(3):176–181
Andoh T (2006) Non-radioisotopic Immunoassay for Fish Insulin. In: Reinecke M, Zaccone G, Kapoor BG (eds) Fish endocrinology, vol 1. Science Publishers, Enfield, New Hampshire
Barry TP, Lapp AF, Kayes TB, Malison JA (1993) Validation of a microtitre plate ELISA for measuring cortisol in fish and comparison of stress responses of rainbow trout (Oncorhynchus mykiss) and lake trout (Salvelinus namaycush). Aquaculture 117(3–4):351–363
Barton BA (2002) Stress in fishes: a diversity of responses with particular reference to changes in circulating corticosteroids. Integr Comp Biol 42:517–525
Biswas AK, Seoka M, Tanaka Y, Takyii K, Kumai H (2006) Effect of photoperiod manipulation on the growth performance and stress response of juvenile sea bream (Pagrus major). Aquaculture 258:350–356
Caldwell CA, Hinshaw JM, Kattesh HG (1990) Validation of a solid-phase enzyme immunoassay technique for the measure of plasma cortisol in rainbow trout. J Aqua Animal Health 2:228–230
Davis KB (2006) Management of physiological stress in finfish aquaculture. North Am J Aquacult 68:116–121
Hazon N, Balment RJ (1998) Endocrinology. In: Evans DH (ed) The physiology of fishes. CRC Press LLC, Boca Raton, Florida, pp 441–463
Kebus MJ, Collins MT, Brownfield MS, Amundson CH, Kayes TB, Malison JA (1992) Effects of rearing density on the stress response and growth of rainbow trout. J Aqua Animal Health 4:1–6
Matty AJ (1985) Fish endocrinology. Timber Press, Portland, Oregon
Maule AG, Schreck CB (1990) Changes in numbers of leukocytes in immune organs of juvenile coho salmon after acute stress or cortisol treatment. J Aqua Animal Health 2(4):298–304
Mommsen TP, Vijayan MM, Moon TW (1999) Cortisol in teleosts: dynamics, mechanisms of action, and metabolic regulation. Rev Fish Biol Fish 9(3):211–268
Pifat D (2006) Assay validation. United States Food and Drug Administration. http://www.fda.gov/cber/summaries/120600bio10.ppt#1. Accessed March 2006
Sink TD, S Kumaran, and Lochmann RT, (2007) Development of a whole-body cortisol extraction procedure for determination of stress in golden shiners, Notemigonus crysoleucas. Fish Physiol Biochem Accepted 12 January 2007
Wang N, Gardeur JN, Henrotte E, Marie M, Kestemont P, Fontaine P (2006) Determination of the reproductive cycle in female Eurasian perch, Perca fluviatilis: Identification of environmental cues and permissive factors. Aquaculture 261(2):706–714
Welker TL, Lim C, Yildirim-Aksoy M, Klesius PH (2007) Growth, immune function, and disease and stress resistance of juvenile Nile tilapia (Oreochromis niloticus) fed graded levels of bovine lactoferrin. Aquaculture 262(1):156–162
Weyts FAA, Verburg-van Kemenade BML, Flik G, Lambert JGD, Wendelaar Bonga SE (1997) Conservation of apoptosis as an immune regulatory mechanism: effects of cortisol and cortisone on carp lymphocytes. Brain Behav Immun 11:95–105
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Sink, T.D., Lochmann, R.T. & Fecteau, K.A. Validation, use, and disadvantages of enzyme-linked immunosorbent assay kits for detection of cortisol in channel catfish, largemouth bass, red pacu, and golden shiners. Fish Physiol Biochem 34, 95–101 (2008). https://doi.org/10.1007/s10695-007-9150-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10695-007-9150-9
Keywords
- Cortisol
- ELISA
- Validation