Test organisms
Juvenile brown trout and brown trout eggs were purchased from a commercial trout farm in Southern Germany (Forellenzucht Lohmühle, Alpirsbach-Ehlenbogen, Germany). This commercial fish breeder is listed as disease free (category I) according to the EC Council Directive (14). The eggs were obtained in the eyed ova stage and directly transferred into the experiments. Experiments with brown trout larvae took place in two climate chambers set on 7 °C or 11 °C, respectively, with a 10:14 hour light-dark-cycle. Prior to the experiments, juvenile brown trout were kept in an acclimation tank for at least one week. Experiments with juvenile brown trout were carried out in a climate chamber at 7 °C and the same photoperiod. All animal experiments were approved by the animal welfare committee of the Regional Council of Tübingen, Germany (ZO 2/16).
Test substances
Citalopram hydrobromide (C20H21FN2O · HBr, CAS: 59729-32-7) and venlafaxine hydrochloride (C17H27NO2 · HCl, CAS: 99300-78-4) were obtained by Sigma Aldrich (Steinheim, Germany). Citalopram and venlafaxine stock solutions with concentrations of 1 and 100 mg/L were prepared with double distilled water and diluted to the respective test concentrations with filtered tap water (iron filter, active charcoal filter, particle filter). The concentrations refer to the respective free base substance (citalopram: C20H21FN2O; venlafaxine: C17H27NO2).
Exposure conditions
In both experiments, real chemical concentrations only differed slightly from nominal concentrations by 16% for venlafaxine and 19% for citalopram on the average, and limnochemical analyses revealed optimal test conditions with respect to temperature, oxygen content, pH and conductivity. Detailed data can be taken from (74, 75).
Experiments with brown trout larvae
As described previously (74, 75), the eyed-ova staged eggs of brown trout were exposed in a semi-static randomised three-block design at 7 °C and 11 °C. The respective nominal exposure concentrations of either citalopram or venlafaxine were 0, 1, 10, 100, 1000 µg/L. Fish were exposed in 25 L aquaria containing 10 L of the respective test solution, half of which was renewed twice a week. From the total yolk sac consumption until the end of the experiment fish were fed daily 3% of body weight with commercial trout feed (first 0.5 mm, then 0.8 mm, Inico Plus, Biomar, Brande, Denmark). Fish were exposed until eight respectively seven weeks after yolk sac consumption in the citalopram respectively venlafaxine experiment. At the end of the experiments, fish were euthanised with an overdose of the anaesthetic MS222 (1 g/L tricaine methanesulphonate buffered with NaHCO3), followed by a cervical spine cut. Subsequently, fish were dissected. Livers were used for histopathology, heads for analyses of the b-esterase activity and the dorsal body part containing muscle and kidney for testing superoxide dismutase activity (only for the venlafaxine experiment). Livers were directly fixed in 2% glutardialdehyde (GA) dissolved from 25% GA with cacodylic buffer (0.1 M, pH 7.6) and stored at 4 °C until further processing. Samples for superoxide dismutase activity analysis were rinsed in PBS buffer (pH 7.4), and, along with the samples taken for b-esterase activity, frozen in liquid nitrogen and stored at -80 °C.
Experiments with juvenile brown trout
As described in previous publications (74, 75), juvenile brown trout were exposed to 0, 1, 10, 100 and 1000 µg/L of either citalopram or venlafaxine at 7° C in a semi-static randomised block design with three replicates. The fish were exposed in 25 L tanks containing 15 L of the respective concentrations. Twice a week, half of the respective test solution was replaced by freshly prepared test medium. Trout were fed 3% of body weight daily (0.8 mm, Inico Plus, Biomar, Brande, Denmark). After approximately four weeks of exposure (citalopram experiment: 28 days, venlafaxine experiment: 25 days), fish were euthanised with an overdose of MS222 (1 g/L buffered with NaHCO3) followed by a cervical spine cut. Samples were taken from the liver for histopathological analyses, the head was used for analyses of b-esterase activity, the dorsal part of the body containing mainly muscle and kidney was taken for superoxide dismutase testing (only venlafaxine experiment), and the gills were used for stress protein analysis. Liver samples were directly fixed in 2% glutardialdehyde (GA) dissolved from 25% GA with cacodylic buffer (0.1 M, pH 7.6) and stored at 4 °C. Samples for superoxide dismutase activity were rinsed in PBS buffer (pH 7.4) and, along with samples for the other biochemical biomarkers, frozen in liquid nitrogen and stored at -80 °C.
Histopathology
After at least one week of fixation, samples were washed three times with cacodylic buffer (0.1 M, pH 7.6), dehydrated in an ascending ethanol series, followed by 2-propanolol as an intermedium and infiltrated with paraffin wax in a tissue processor (TP 1020, Leica, Wetzlar, Germany). Afterwards, 3 µm sections were cut with a sledge microtome (SM 2000 R, Leica, Wetzlar, Germany). One of the microscope slides were stained with haematoxylin-eosin as an overview staining, and every other slide with alcian blue in combination with periodic acid-Schiff reagent (alcian blue-PAS) as a stain for glycogen and mucopolysaccharides. Slides were visually analysed using a light microscope (Axioskop 2, Zeiss, Oberkochen, Germany). A first evaluation of all samples was conducted to get an overview and to qualitatively assess occurring pathologies. In a second round, samples were re-labelled in a randomised order to obtain an observer-blinded assessment. The second evaluation was semi-quantitative, in which samples were classified into five different categories (1 - control, 2 - slight reaction, 3 - moderate reaction, 4 - strong reaction, 5 - destruction) according to the criteria described by Triebskorn, et al. (65). Additionally, the glycogen content of the samples was classified into three categories (1 - low, 2 - medium, 3 - high glycogen content). After the observer-blind evaluation, the respective class was assigned to the corresponding treatment.
Biochemical biomarkers
Superoxide dismutase activity
Superoxide dismutase (SOD) activity was measured in venlafaxine-exposed fish only, by using the superoxide dismutase assay kit by Cayman Chemical (Item No. 706002, Cayman Chemical Company, Ann Arbor, Michigan, USA). Tissues were homogenised in HEPES buffer (20 mM HEPES, 1 mM EGTA, 210 mM mannitol, 70 mM sucrose, pH 7.2, tissue/buffer ratio 1:5 w/v) with a pestle, and subsequently centrifuged (1500 × g, 5 min, 4 °C). After centrifugation, the supernatant was taken, mixed with Tris-HCl buffer (50 mM, pH 8) (supernatant/buffer ratio 1:30 w/v) and stored at -80 °C. Before performing the assay, the radical detector solution was freshly prepared from 19.95 mL assay buffer (50 mM Tris-HCl, 0.1 mM DTPA, 0.1 mM Hypoxanthine) and 50 µL tetrazolium salt solution (Item No. 706004, Cayman Chemical Company, Ann Arbor, Michigan, USA). Additionally, the SOD-standard curve (0, 0.005, 0.01, 0.02, 0.03, 0.04, 0.05 SOD activity (U/mL)) was freshly prepared containing bovine erythrocyte SOD (Item No. 706005, Cayman Chemical Company, Ann Arbor, Michigan, USA). The assay was performed in 96-well plates with each well being filled with 200 µL radical detector. In the first wells, 10 µL of the standard and in the remaining wells, 10 µL sample was pipetted in duplicates. Subsequently, 50 µL xanthine oxidase (Item No. 706006, Cayman Chemical Company, Ann Arbor, Michigan, USA) was mixed with 1.95 mL assay buffer. 20 µL of this solution was given in each well, the plate was sealed with adhesive foil and incubated for 30 min at room temperature. Subsequently, the plate was measured photometrically at 450 nm and the SOD-activity was calculated according to the following equation:
Results are expressed as unit (U)/mL. One unit is defined as the amount of enzyme needed to exhibit 50% of the superoxide radical.
B-esterase activity
For measuring the b-esterase activity, fish head samples were homogenised manually in Tris-buffer (10 mM Tris, 10 mM NaCl, pH 7.3) mixed with protease inhibitors (aprotinin, leupeptin, pepstatin, antipain, trypsin). After homogenisation, samples were centrifuged (5000 × g, 10 min, 4 °C), the supernatant was taken and 10% glycerol was added before storage at -20 °C. The protein content of the samples was determined photometrically at 650 nm according to the method of Lowry, et al. (36), modified by Markwell, et al. (39). Bovine serum albumin was used as a standard. The determination of the acetylcholinesterase (AChE) activity was conducted according to Ellman, et al. (13), modified by Rault, et al. (52) and measured for five minutes at 405 nm. The activity of the carboxylesterases (CbE) was analysed using the substrates 4-nitrophenylacetate (NPA) and 4-nitrophenylvalerate (NPV). Determination was conducted according to Carr and Chambers (8) and Chanda, et al. (9), modified by Sanchez-Hernandez, et al. (56). The activity was also measured for five minutes at 405 nm. All samples were analysed in triplicates. The activity of AChE and CbE is referred to the protein content and expressed as milliunits (mU)/mg protein. One unit is defined as one micromole of substrate hydrolysed per minute.
Stress protein level
The quantification of 70 kDa stress proteins (Hsp70) was conducted in gill samples of the juvenile fish. Samples for larvae were not analysed in this assay due to the low weight of the samples and the high base loads of stress proteins in developing brown trout (24). Gills were homogenised with 98% of extraction buffer and 2% protease inhibitor (tissue/buffer ratio 1:4 w/v) according to the protocol of Dieterich, et al. (10). The total protein content was quantified according to Bradford (6). For the quantification of Hsp70, a total amount of 40 µg total protein was analysed. The proteins were separated by sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) and subsequently blotted on a nitrocellulose membrane in a semi-dry chamber according to Dieterich, et al. (10). Subsequently, the protein bands on the membrane were immunostained with a monoclonal α-Hsp70 IgG (mouse anti-human Hsp70, Dianova, Hamburg, Germany) and secondary peroxidase-coupled α-IgG (goat anti-mouse IgG conjugated to peroxidase, Jackson Immunoresearch, West Grove, Pennsylvania, USA). Subsequently, membranes were stained with 4-chloro-1-naphthol until the protein bands became visible. Finally, the optical volume (= band area × average grey scale value) of the bands was quantified by planimetry and densitometry and referred to an internal standard (brown trout total body homogenate). Results are expressed relative to the standard.
Statistics
Statistical analyses were performed with SAS JMP 14 software. Data for histological evaluation, either pathological classes or glycogen classes, were analysed with the likelihood-ratio-χ²-test. Whenever significant differences occurred, single comparisons between control and each treatment were also performed with the likelihood-ratio-χ²-test. To correct for multiple comparisons, the α-level was adjusted according to the method developed by Benjamini and Hochberg (3). Data for biochemical biomarkers were analysed using a nested ANOVA with a subsequent post-hoc Dunnett’s test. If necessary, data were transformed to fulfil model assumptions. If no normal distribution could be achieved by transformation, data were analysed using a Kruskal-Wallis-Test with subsequent post-hoc Steel with control. If no homogeneity of variance was given, data were analysed using a Welch ANOVA with subsequent post-hoc Dunnett’s test. The α-level was always set to 0.05.
CRED
Criteria for reporting and evaluating ecotoxicity data (CRED) aim to improve the evaluation, transparency, reproducibility and consistency of reliability of ecotoxicological studies. For the experiment with citalopram CRED were previously published and provided by Ziegler, et al. (74) and, for the experiments with venlafaxine, CRED are provided in Ziegler, et al. (75).