DIAGNOSIS AND THERAPY OF LIVER FLUKE (FASCIOLOIDES MAGNA) INFECTION IN FALLOW DEER (DAMA DAMA) IN SERBIA.

Giant liver fluke ( Fascioloides magna ) infection is an important health problem of cervids in southeastern Europe. We measured the prevalence and intensity of infection with F. magna in a fenced area near the Danube River in the South Backa District of Serbia. Parasitologic, pathomorphologic, and histopathologic examinations were conducted from November 2007 to February 2008, beginning with a population of 127 adult fallow deer ( Dama dama ). After a positive diagnosis, therapy with triclabendazole-medicated corn was applied. Deer were treated at four baiting stations, using medicated feed providing triclabendazole at an estimated dose of 10-14 mg/kg of body weight per deer. Treatment lasted for 7 d in early February 2008 and an additional 7 d 2 wk later. For the complete success of pharmacotherapy it was necessary to prevent any contact of deer with the snail intermediate host ( Galba truncatula ). Intervention in the habitat, removing grass and low vegetation, and draining ponds reduces the possibility of contact. Six months after the treatment, livers of hunted deer were reddish, with fibrous tracks; pigmentation and cysts in the parenchyma were surrounded by a fibrous capsule and their fecal samples contained no eggs of F. magna . Over the following years, livers of hunted deer were negative, and the last control cull in March 2015 confirmed complete absence of infection. We reconfirmed the presence of giant liver flukes in fallow deer in Serbia, apparently the result of natural spread across the Danube from Hungary and Croatia. We also report that the treatment of deer with triclabendazole-medicated corn is an effective method for administration of therapeutic doses of drug in semicaptive deer. Interventions in the environment are necessary to prevent recontact of deer with habitats used by the snail intermediate host, and enable the success of the therapy.

Brief application of AF2 produces long lasting potentiation of nAChR responses in Ascaris suum.

Resistance of parasitic nematodes to the cholinergic anthelmintic levamisole is associated with a reduction in the proportion of time that acetylcholine receptor ion-channels are in the open state decreasing the response of nematode parasites to the drug. Here we examine electrophysiological and contractile responses to acetylcholine and the cholinergic agonist, levamisole, in Ascaris suum muscle looking for a pharmacological approach that may be developed to increase the response to cholinergic agonists. We found that short application of the FMRFamide, AF2, produced modulation (long lasting potentiation) of the peak membrane potential response to acetylcholine but not to levamisole. Since levamisole preferentially activates L-type acetylcholine receptors, we also tested the effect of nicotine (selective activator of N-type acetylcholine receptors) and bephenium (selective activator of B-type acetylcholine receptors) and found again no effect of AF2 on peak membrane potential responses. We then tested atropine on the AF2 potentiation of acetylcholine and found it to inhibit the peak potentiation suggesting that AF2 receptors interact with muscarinic receptors to produce the potentiation of acetylcholine. We saw similar atropine sensitive potentiation of acetylcholine responses in our muscle contraction experiments. The potentiation of the acetylcholine responses shows that nematode acetylcholine receptors are capable of a level of plasticity. A model involving calcium release from the sarcoplasmic reticulum, CaM Kinase, calcineurin, muscarinic receptors and AF2 receptors is proposed to explain our observations. These observations are important because they point to a pharmacological approach that may be developed to counter resistance to cholinergic anthelmintics.

Oxantel is an N-type (methyridine and nicotine) agonist not an L-type (levamisole and pyrantel) agonist: classification of cholinergic anthelmintics in Ascaris.

Three pharmacological subtypes of cholinergic receptors have been distinguished in Ascaris suum using a muscle contraction assay and classical pharmacological techniques. The receptor subtypes are: a B-subtype (sensitive to bephenium); an L-subtype (sensitive to levamisole and pyrantel); and an N-subtype (sensitive to nicotine and methyridine). Oxantel is a cholinergic anthelmintic that was first introduced for the treatment of whipworm, Trichuris, infections in children. Here, we compare the subtype selectivity of oxantel with thenium and other cholinergic anthelmintics. We used the A. suum assay to derive pA(2) values for the agonists: oxantel, thenium, bephenium, levamisole, pyrantel, nicotine and methyridine with the antagonists: paraherquamide, 2-desoxyparaherquamide and methyllycaconitine. pA(2) values, rather than pK(B) values, were determined for all agonists when it was found that Schild slopes for some agonists were significantly less than 1.0. The pA(2) of oxantel was 6.58+/-0.25 for paraherquamide; 5.39+/-0.28 for 2-desoxyparaherquamide; 7.01+/-0.19 for methyllycaconitine. Comparison of pA(2) values using cluster analysis showed that oxantel was grouped with nicotine and methyridine, the N-subtype agonists. Thenium had pA(2)s of 7.84+/-0.41 for paraherquamide; 5.52+/-0.50 for 2-desoxyparaherquamide; 6.33+/-0.19 for methyllycaconitine. Cluster analysis placed thenium between the L-subtype agonists and the B-subtype agonist. The therapeutic significance of classification of cholinergic anthelmintics is discussed. Combination of oxantel and pyrantel would have therapeutic advantages, covering N- and L-subtypes, and so increasing spectrum of action and reducing the potential for development of resistance. Our results predict that oxantel may remain effective in some nematode isolates that have become levamisole- and pyrantel-resistant.