Population Genetic Structure of Taenia Solium from Madagascar and Mexico: Implications for Clinical Profile Diversity and Immunological Technology

Overview

Journal Int J Parasitol

Specialty Parasitology

Date 2003 Oct 24

PMID 14572511

Citations 15

Authors

Rodrigo Vega

Daniel Pinero

Bienvenue Ramanankandrasana

Michel Dumas

Bernard Bouteille

Agnes Fleury

Edda Sciutto

Carlos Larralde

Gladis Fragoso

Affiliations

Soon will be listed here.

Abstract

Taenia solium is a cestode parasitic of humans and pigs that strongly impacts on public health in developing countries. Its larvae (cysticercus) lodge in the brain, causing neurocysticercosis, and in other tissues, like skeletal muscle and subcutaneous space, causing extraneuronal cysticercosis. Prevalences of these two clinical manifestations vary greatly among continents. Also, neurocysticercosis may be clinically heterogeneous, ranging from asymptomatic forms to severely incapacitating and even fatal presentation. Further, vaccine design and diagnosis technology have met with difficulties in sensitivity, specificity and reproducibility. Parasite diversity underlying clinical heterogeneity and technological difficulties is little explored. Here, T. solium genetic population structure and diversity was studied by way of random amplified polymorphic DNA in individual cysticerci collected from pigs in Madagascar and two regions in Mexico. The amplification profiles of T. solium were also compared with those of the murine cysticercus Taenia crassiceps (ORF strain). We show significant genetic differentiation between Madagascar and Mexico and between regions in Mexico, but less so between cysticerci from different localities in Mexico and none between cysticerci from different tissues from the same pig. We also found restricted genetic variability within populations and gene flow was estimated to be low between populations. Thus, genetic differentiation of T. solium suggests that different evolutionary paths have been taken and provides support for its involvement in the differential tissue distribution of cysticerci and varying degrees of severity of the disease. It may also explain difficulties in the development of vaccines and tools for immunodiagnosis.

Citing Articles

Genetic Diversity of and its Relation to Clinical Presentation of Cysticercosis.

Ito A, Budke C Yale J Biol Med. 2021; 94(2):343-349.

PMID: 34211353 PMC: 8223547.

Prevalence and Genetic Characterization of Two Mitochondrial Gene Sequences of Strobilocercus Fasciolaris in the Livers of Brown Rats () in Heilongjiang Province in Northeastern China.

Zhao F, Zhou Y, Wu Y, Zhou K, Liu A, Yang F Front Cell Infect Microbiol. 2020; 10:588107.

PMID: 33324575 PMC: 7723829. DOI: 10.3389/fcimb.2020.588107.

Molecular Identification of Taenia hydatigena from Sheep in Khartoum, Sudan.

Muku R, Yan H, Ohiolei J, Saaid A, Ahmed S, Jia W Korean J Parasitol. 2020; 58(1):93-97.

PMID: 32145734 PMC: 7066435. DOI: 10.3347/kjp.2020.58.1.93.

First molecular description, phylogeny and genetic variation of Taenia hydatigena from Nigerian sheep and goats based on three mitochondrial genes.

Ohiolei J, Luka J, Zhu G, Yan H, Li L, Magaji A Parasit Vectors. 2019; 12(1):520.

PMID: 31690347 PMC: 6833231. DOI: 10.1186/s13071-019-3780-5.

Immunodiagnosis of human neurocysticercosis: comparative performance of serum diagnostic tests in Mexico.

Hernandez M, Astudillo O, Diego G, de-la-Rosa-Arana J, Meza-Lucas A, Garcia-Rodea R Parasitol Res. 2019; 118(10):2891-2899.

PMID: 31418112 DOI: 10.1007/s00436-019-06425-4.