Cardiovascular pathology is seen in both animals and humans after domoic acid intoxication. Whether this damage is direct (i.e., cardiotoxic) or indirect (i.e., CNS/autonomic seizures) is not known. We have previously shown that acute in vitro domoic acid (0.05-0.25[mu]M; 10 min) treatment of isolated cardiac mitochondria compromises mitochondrial FADH and NAD⁺-linked respiratory control and mitochondrial energetics. Domoic acid was shown to traverse and bind the cellular membrane of H9c2 cardiac myoblasts. However it did not compromise cellular viability as assessed using cell quantification or lactate dehydrogenase leakage assays. Exposure of intact H9c2 cells to domoic acid only resulted in complex II-III activity impairment and assessment of reactive oxygen species (superoxide and hydrogen peroxide) production in both isolated cardiac mitochondria and H9c2 cardiomyocytes failed to show any significant differences following exposure to domoic acid. Acute ex vivo domoic acid treatment of an isolated myocardium in Langendorff perfusion mode failed to result in cardiac haemodynamic dysfunction, however there appeared to be small but significant decrease in mitochondrial oxygen utilization. The absence of any substantial damage to intact cardiomyocytes and isolated myocardium suggested that domoic acid does not have a direct toxicological effect on cardiac energetics. We therefore investigated the possibility that cardiovascular pathology is an indirect consequence of autonomic seizure activity. Domoic acid was administered intraperitoneally or intrahippocampally and the development of cardiac pathologies was assessed and compared. Sprague-Dawley rats receiving either i.p. or i.h. domoic acid were assessed behaviourally and shown to reach similar levels in their cumulative seizure scores.
Assessment of the cardiac haemodynamics (LVDP, dP/dt, heart rate and coronary flow) revealed a significant time-dependent decrease in function at 1, 3, 7 & 14-days post-i.p. and 7 & 14-days post-i.h. domoic acid administration. Measurement of ventricular mitochondrial oxygen utilization revealed a similar time-dependent decrease in respiratory control, which appeared to be associated with increased proton leakage, shown by an increase in state-4 respiration rate (P<0.01). Assessment of the mitochondrial electron transport chain (complexes I-V) and the mitochondrial marker of integrity, citrate synthase, showed marked time-dependent impairment in both models of domoic acid -induced seizures. Oxidative stress did play a small role in the myocardial damage as indicated by the small decrease in aconitase activity (P<0.05). Plasma IL-1α, IL-1β and TNF-α levels were significantly increased from 3-days post seizures. Haematoxylin & Eosin staining of ventricular sections revealed the formation of contraction bands, inflammation and oedema, confirming a structural pathology. Cardiac damage did not differ between i.p. and i.h. animals, suggesting cardiac damage following domoic acid results from CNS autonomic seizures and resultant sympathetic storm.
This thesis has demonstrated, for the first time, that the cardiac pathology seen following domoic acid exposure is most likely to be a result of CNS activation and resultant seizure episodes, and is not a consequence of the direct interaction between domoic acid and the myocardium. We have also demonstrated for the first time, that seizure episodes result in chronic cardiac dysfunction and a structural pathology which is similar, but not identical to that seen following isoprotenerol administration in vivo.
Identifer | oai:union.ndltd.org:ADTP/217762 |
Date | January 2007 |
Creators | Vranyac-Tramoundanas, Alexandra, n/a |
Publisher | University of Otago. Department of Pharmacology & Toxicology |
Source Sets | Australiasian Digital Theses Program |
Language | English |
Detected Language | English |
Rights | http://policy01.otago.ac.nz/policies/FMPro?-db=policies.fm&-format=viewpolicy.html&-lay=viewpolicy&-sortfield=Title&Type=Academic&-recid=33025&-find), Copyright Alexandra Vranyac-Tramoundanas |
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