Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-22T17:46:49.559Z Has data issue: false hasContentIssue false

First record of natural Baylisascaris transfuga (Ascaridoidea, Nematoda) infection in wild rodents

Published online by Cambridge University Press:  10 September 2019

Sergey V. Bugmyrin*
Affiliation:
Institute of Biology, Karelian Research Centre, Russian Academy of Sciences, 11 Pushkinskaya St., 185910 Petrozavodsk, Russia
Sergey E. Spiridonov*
Affiliation:
Severtsov Institute of Ecology and Evolution, Russian Academy of Sciences, 33 Leninskii prospect, 119071 Moscow, Russia
*
Author for correspondence: Sergey V. Bugmyrin, E-mail: [email protected]; Sergey E. Spiridonov, E-mail: [email protected]
Author for correspondence: Sergey V. Bugmyrin, E-mail: [email protected]; Sergey E. Spiridonov, E-mail: [email protected]

Abstract

The intestinal parasitic nematode, Baylisascaris transfuga, was recorded in wild rodents for the first time. Representatives of four murid species (15 Myodes rufocanus, 10 M. rutilus, 3 M. glareolus and 27 Microtus oeconomus) were collected in the White Sea coastal habitats in the south of the Kola Peninsula, Russia in July 2015 and examined for parasites. Encapsulated nematode larvae were detected in the mesentery and the large intestine wall of one grey-sided vole (M. rufocanus) and one tundra vole (M. oeconomus). Based on morphology, the larvae were identified as belonging to the genus Baylisascaris Sprent 1968. The partial 18S rDNA sequence of the larvae from the voles was obtained and fully corresponded to the sequence of Baylisascaris transfuga in the NCBI GenBank. The ITS rDNA and CoxI mtDNA sequences these larvae were also similar to the respective B. transfuga sequences in GenBank. The presence of B. transfuga in wild rodents suggests that rodents can participate in the B. transfuga life cycle.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2019 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Altschul, SF, Gish, W, Miller, W, Myers, EW and Lipman, DJ (1990) Basic local alignment search tool. Journal of Molecular Biology 215, 403410.Google Scholar
Anikanova, VS, Bugmyrin, SV and Ieshko, EP (2007) Methods for Collection and Study of Helminths in Small Mammals. Petrozavodsk: Karelian Research Centre RAS (in Russian).Google Scholar
Bauer, C (2013) Baylisascariosis – infections of animals and humans with unusual roundworms. Veterinary Parasitology 193, 404412.Google Scholar
Beasley, JC, Eagan, TS, Page, LK, Hennessy, CA and Rhodes, OE (2013) Baylisascaris procyonis infection in white-footed mice: predicting patterns of infection from landscape habitat attributes. Journal of Parasitolog 99, 743747.Google Scholar
Bowles, J, Blair, D and McManus, DP (1992) Genetic variants within the genus Echinococcus identified by mitochondrial DNA sequencing. Molecular and Biochemical Parasitology 54, 165174.Google Scholar
Bugmyrin, SV, Tirronen, KF, Panchenko, DV, Kopatz, A, Hagen, SB, Eiken, HG and Kuznetsova, AS (2017) Helminths of brown bears (Ursus arctos) in the Kola Peninsula. Parasitology Research 116, 17551760.Google Scholar
Catalano, S, Lejeune, M, Tizzani, P, Verocai, GG, Schwantje, H, Nelson, C and Duignan, P (2015) Helminths of grizzly and black bears in Alberta and British Columbia, Canada. Canadian Journal of Zoology 93, 765772.Google Scholar
Cho, S, Egami, M, Ohnuki, H, Saito, Y, Chinone, S, Shichinohe, K, Suganuma, M and Akao, N (2007) Migration behaviour and pathogenesis of five ascarid nematode species in the Mongolian gerbil Meriones unguiculatus. Journal of Helminthology 81, 4347.Google Scholar
De Ambrogi, M, Aghazadeh, M, Hermosilla, C, Huber, D, Majnaric, D, Reljic, S and Elson-Riggins, J (2011) Occurrence of Baylisascaris transfuga in wild populations of European brown bears (Ursus arctos) as identified by a new PCR method. Veterinary Parasitology 179, 272276.Google Scholar
Derycke, S, VanAverbeke, J, Rigaux, A, Backeljau, T and Moens, T (2010) Exploring the use of cytochrome oxidase c subunit 1 (COI) for DNA barcoding of free-living marine nematodes. PLoS One 5, e13716.Google Scholar
Floyd, RM, Rogers, AD, Lambshead, PJD and Smith, CR (2005) Nematode-specific PCR primers for the 18S small subunit rRNA gene. Molecular Ecology Notes 5, 611612.Google Scholar
Hoberg, EP, Burek-Huntington, K, Beckmen, K, Camp, LE and Nadler, SA (2018) Transuterine infection by Baylisascaris transfuga: neurological migration and fatal debilitation in sibling moose calves (Alces alces gigas) from Alaska. International Journal for Parasitology: Parasites and Wildlife 7, 280288.Google Scholar
Kanzaki, N and Futai, K (2002) PCR primer set for determination of phylogenetic relationships of Bursaphelenchus species within the xylophilus group. Nematology 4, 3541.Google Scholar
Kazacos, KR (2016) Baylisascaris Larva Migrans. U.S. Geological Survey Circular 1412, Reston, Virginia. http://dx.doi.org/10.3133/cir1412.Google Scholar
Kumar, S, Stecher, G and Tamura, K (2016) MEGA7: molecular evolutionary genetics analysis. Version 7.0 for biggerdatasets. Molecular Biology and Evolution 33, 18701874.Google Scholar
Matoff, K and Komandarev, S (1965) Comparative studies on the migration of the larvae Toxascaris leonina and Toxascaris transfuga. Parasitology Research 25, 538555.Google Scholar
Nicholas, KB, Nicholas, HB Jr. and Deerfield, DW (1997) Multiple Sequence Alignment Editor and Shading Utility, Version 2.7.000. Available at http://www.psc.edu/biomed/genedoc (Accessed 6 August 2018).Google Scholar
Page, LK, Swihart, RK and Kazacos, KR (2001) Changes in transmission of Baylisascaris procyonis to intermediate hosts as a function of spatial scale. Oikos 93, 213220.Google Scholar
Papini, R, Cavicchio, P and Casarosa, L (1993) Experimental infection in chickens with larvae of Baylisascaris transfuga (Nematoda: Ascaridae). Folia Parasitology 40, 141143.Google Scholar
Papini, R, Renzoni, G, Lo Piccolo, S and Casarosa, L (1996) Ocular larva migrans and histopathological lesions in mice experimentally infected with Baylisascaris transfuga embryonated eggs. Veterinary Parasitology 61, 315320.Google Scholar
Rogers, LL and Rogers, SM (1976) Parasites of bears: a review. In Pelton, MR, Lentfer, JW and Folk, GE (eds), Bears – Their Biology and Management. Papers of the Third International Conference on Bear Research and Management. Paper 42. Morges: IUCN, pp. 411430.Google Scholar
Sapp, SGH, Gupta, P, Martin, MK, Murray, MH, Neidringhaus, KD, Pfaff, MA and Yabsley, MJ (2017) Beyond the raccoon roundworm: the natural history of nonraccoon Baylisascaris species in the New World. International Journal for Parasitology: Parasites and Wildlife 6, 8599.Google Scholar
Sato, H, Matsuo, K, Osanai, A, Kamiya, H, Akao, N, Owaki, S and Furuoka, H (2004) Larva migrans by Baylisascaris transfuga: fatal neurological diseases in Mongolian jirds, but not in mice. Journal of Parasitology 90, 774782.Google Scholar
Sprent, JFA (1952) On the migratory behavior of the larvae of various Ascaris species in white mice: I. Distribution of larvae in tissues. The Journal of Infectious Diseases 90, 165176.Google Scholar
Sprent, JFA (1953) On the life history of Ascaris devosi and its development in the white mouse and the domestic ferret. Parasitology 42, 244258.Google Scholar
Štrkolcová, G, Goldová, M, Šnábel, V, Špakulová, M, Orosová, T, Halán, M and Mojžišová, JA (2018) A frequent roundworm Baylisascaris transfuga in overpopulated brown bears (Ursus arctos) in Slovakia: a problem worthy of attention. Acta Parasitologica 63, 167174.Google Scholar
Thompson, JD, Gibson, TJ, Plewniak, F, Jeanmougin, F and Higgins, DG (1997) The Clustal_X windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. Nucleic Acids Research 24, 48764882.Google Scholar
Tirronen, KF, Panchenko, DV and Kuznetsova, AS (2015) Brown bear (Ursus arctos L.) of the White Sea of the Kola Peninsula. The Herald of Game Management 12, 125136 (in Russian).Google Scholar
Tranbenkova, NA and Spiridonov, SE (2017) Molecular characterization of Baylisascaris devosi Sprent, 1952 (Ascaridoidea, Nematoda) from Kamchatka sables. Helminthologia 54, 105112.Google Scholar
Weinstein, SB (2017) Introduced rats and an endemic roundworm: does Rattus rattus contribute to Baylisascaris procyonis transmission in California? Journal of Parasitology 103, 677682.Google Scholar