Effects of cyclopropenoid fatty acids on liver plasma membranes of rainbow trout (Salmo gairdneri)

Marino, Donald R. (Donald Robert)

31 October 1988

Cyclopropenoid fatty acids (CPFA), which are a group of fatty acids produced by plants of the order Malvales, are known to induce adverse physiological effects when administered to a variety of animal species. A structurally strained cyclopropene ring is present in all CPFA and is believed responsible for the toxic action of these fatty acids. Dietary consumption of CPFA by mammals, poultry and fish has resulted in toxic responses including hepatic damage, impaired reproductive capabilities and sizeable alterations in lipid metabolism. Furthermore, CPFA have been identified as mildly carcinogenic and strongly cocarcinogenic towards rainbow trout (Salmo gairdneri). The mechanism by which CPFA enhance carcinogenesis is currently not understood. The research in this thesis has therefore been directed toward obtaining a better understanding as to how CPFA induce toxic responses in rainbow trout. Hepatic plasma membranes were isolated from both control trout and trout which had consumed dietary CPFA. The plasma membranes were then compared via the use of electron microscopy, chromatographic analysis of phospholipid and fatty acid content, two dimensional polyacrylamide gel electrophoresis of proteins, and Western blot analysis of concanavalin A sensitive glycoproteins. Electron micrographs revealed that control plasma membranes appeared more homogeneous than CPFA membranes and were characterized by more membrane sheets and less vesicularization. The analysis of enzyme activities revealed that CPFA caused a decrease in whole liver glucose-6-phosphatase activity and that control plasma membranes expressed slightly higher glucose-6-phosphatase and 5'-nucleotidase activities as compared to CPFA membranes. Although dietary CPFA appeared to have no effect on the phospholipid content of the plasma membranes, significant alterations in the fatty acid profiles of ethanolamine and choline phospholipids were observed. CPFA caused a decrease in palmitic, palmitoleic and oleic acids while the level of stearic and docosahexaenoic acids subsequently increased. Differences between the protein content of control and CPFA plasma membranes were made clear through the analysis of electrophoretic and Western blotting data. Membranes isolated from fish fed CPFA contained several proteins of high molecular weight (above 66,000 daltons) and other proteins of high isoelectric point that were not present in control plasma membranes. Additionally, two families of glycoproteins which had previously been identified as microsomal in origin were detected only in CPFA plasma membranes. A discussion concerning the possible causes and biological ramifications of the observed subcellular alterations caused by CPFA insult is also presented in this thesis. / Graduation date: 1989

Rainbow trout -- Metabolism

Cyclopropenoid fatty acids

Lipids -- Metabolism -- Disorders

Diethylnitrosamine, ethylnitrosourea, and dimethylbenz(a)anthracene DNA binding studies in the rainbow trout

Van Winkle, Samina

11 August 1988

Dimethylbenz (a) anthracene (EMBA), a carcinogen that requires metabolic activation to produce active metabolites capable of binding to DNA, has been studied in the trout and other fish. Polycyclic aromatic hydrocarbons (PAH) are of importance as they are ubiquitous in the environment and their carcinogenic effects in fish from contaminated waters are an important indication of the pollution risks to man. Since such pollution risk assessment presents the involvement of multiple agents, the study of the modulation of PAH-DNA binding produced by other agents is important. In this study the effect, of dietary pretreatment at 500 ppm, 100 ppm and 2000 ppn, using BNF, Aroclor 1254, or indole-3-carbinol (I3C) respectively on DMBA-DNA binding was examined. To study the effect of age on sensitivity to DMBA-DNA binding, adult trout and fry were used in two separate studies. The fish were fed treatment diet for at least two weeks. Fry were then injected with [³H] DMBA, at 22.4 μCi/3.9 x 10⁻² μmole/fish and adult trout at 284 μCi/1.58 μmole/fish. Liver DNA was isolated, purified and binding of radioactivity to DNA was examined and computed as the covalent binding index (CBI). Mean CBI for control dietary group vising adult trout was 1000 fold lower than for fry. Statistical analysis of covalent binding index for the treatment groups revealed that a statistically significant (p < 0.05) inhibition in DNA-DMBA binding response in adult trout and fry was produced fcy the DNF dietary treatment only. Diethylnitrosamine (DENA), a potent hepatocarcinogen in several animal species belongs also to the class of compounds that require metabolic activation. Dietary treatment and continuous exposure of trout to the carcinogen in water, have produced hepatocellular carcinctnas. The water exposure also produced a dose related DNA ethylation of the O⁶ position of guanine, believed to be the promutagenic adduct produced after DENA exposure. This study examines two other routes of exposure to DENA, in vitro hepatocyte incubations and i.p. injection. Adult trout and fry were injected with [³H] DENA. Adult fish received 3.3, 16.5, and 33 mg/kg DENA, and fry received 10, 50 and 100 mg/kg. Hepatocyte incubation was performed with doses up to 220 μM [³H] DENA, or 1 mM unlabelled DENA. DNA from fish livers and from hepatocyte pellets was isolated, purified and examined for radioactive binding of the DENA metabolites or in the case of the unlabelled DENA, was analyzed for O⁶ and N7 adduct using an HPIC technique with fluorescence detection. O⁶-EtG adduct after DENA exposure, in DNA of hepatocytes obtained from trout pretreated with beta-naphthoflavone (BNF, a known inducer of cytodhrcme P-450 dependent enzyme activities involved in the activation of xenobiotics) was below the limits of detection of the HPDC-fluorescenoe detection procedure used. To examine further if the lack of DNA binding and absence of the O⁶-EtG adduct was due to rapid repair, the persistence of O⁶-EtG after exposure to 40 nM ethylnitrosourea (ENU, a direct ethylating agent) was studied in hepatocytes at 2, 4, and 5 hours after treatment. The activity of the alkyltransferase protein involved in the repair of alkylguanines also was determined using liver extracts from adult rainbow trout. The studies did not reveal a significantly high rate of repair. It is concluded that i.p. injection and in vitro hepatocyte incubations are not a good method for studying the kinetics of activation and DNA binding of DENA in the rainbow trout. The i.p. route may lead to substantial loss of the dose of the carcinogen administered and hepatocyte incubations are limited by the toxic effects of increasing carcinogen concentration. The reasons mentioned above, coupled with low levels of metabolism of nitrosamines in trout results in the inability to detect and study the appearance, persistence and repair of the O⁶-EtG adduct. / Graduation date: 1989

Carcinogens

Rainbow trout -- Metabolism

Three dimensional computer reconstruction of the rainbow trout (Oncorhynchus mykiss) hepatic tubule

Theis, Lisa C.

30 June 1994

Graduation date: 1995

Liver -- Computer simulation

Recovery from exhaustive exercise in rainbow trout white muscle : a model for studies of the control of energy metabolism in vivo

Schulte, Patricia Marita

January 1990

Recovery from exhaustive exercise in the white muscle of rainbow trout (Oncorhynchus mykiss) was used to examine the role of the adenylates in the control of energy metabolism and to assess the validity of equilibrium models of the behaviour of the high energy phosphates. The difficulty of obtaining muscle samples from fish makes detailed analysis of the behaviour of the labile high energy phosphates complex. The use of a new sampling procedure, the infusion of a lethal dose of anaesthetic via an indwelling cannula, minimized this problem. At exhaustion [ATP] and [PCr] were depressed by 75 and 80% respectively relative to the resting values. [ATP] depletion was mirrored by a stoichiometric increase in [IMP]. During recovery [PCr] returned to the resting level within 2 hours, but [ATP] recovery was slow and not complete until 24 hours post exercise. In contrast, energy charge and RATP(the proportion of the free adenylate pool phosphorylated to ATP) were, if anything, higher than the resting values by 2 hours post exercise. Therefore, [ATP] and energy status can be dissociated in tissues like fish white muscle because of the action of the purine nucleotide cycle. At 2 hours post exercise the calculated free ADP concentration dropped to less than one tenth the value at rest. As a result the [ATP] / [ADP] free ratio increased by nearly 6 fold. This condition may be required for glycogen resynthesis from lactate in muscle. Several similar equilibrium models of the behaviour of the adenylates and PCr were applied to the fish white muscle system. In general, the models well describe the relationship between the high energy phosphates. However, the definition of the high energy phosphate pool introduces some complications since this includes the total [ATP]. Because of the action of AMP deaminase the [ATP] concentration can change without measurable changes in the energy status, which is not considered in any of the models. As long as the extent of IMP formation is known the models can be applied, but since the formation of IMP may vary from fish to fish or with exercise regime the models lose much of their predictive power. / Science, Faculty of / Zoology, Department of / Graduate

Rainbow trout -- Metabolism

Oncorhynchus mykiss -- metabolism

Energy Metabolism

Exercise -- Physiological aspects

Exercise -- physiology

Muscles -- Metabolism