. 2013 Apr 12:6:96.

doi: 10.1186/1756-3305-6-96.

Changes in the proteomic profiles of mouse brain after infection with cyst-forming Toxoplasma gondii

Dong-Hui Zhou¹, Fu-Rong Zhao, Si-Yang Huang, Min-Jun Xu, Hui-Qun Song, Chunlei Su, Xing-Quan Zhu

Affiliations

Affiliation

¹ State Key Laboratory of Veterinary Etiological Biology, Key Laboratory of Veterinary Parasitology of Gansu Province, Lanzhou Veterinary Research Institute, Chinese Academy of Agricultural Sciences, Lanzhou, Gansu Province 730046, PR China. donghui822002@163.com

PMID: 23587304
PMCID: PMC3660206
DOI: 10.1186/1756-3305-6-96

Changes in the proteomic profiles of mouse brain after infection with cyst-forming Toxoplasma gondii

Dong-Hui Zhou et al. Parasit Vectors. 2013.

. 2013 Apr 12:6:96.

doi: 10.1186/1756-3305-6-96.

Authors

Dong-Hui Zhou¹, Fu-Rong Zhao, Si-Yang Huang, Min-Jun Xu, Hui-Qun Song, Chunlei Su, Xing-Quan Zhu

Affiliation

¹ State Key Laboratory of Veterinary Etiological Biology, Key Laboratory of Veterinary Parasitology of Gansu Province, Lanzhou Veterinary Research Institute, Chinese Academy of Agricultural Sciences, Lanzhou, Gansu Province 730046, PR China. donghui822002@163.com

PMID: 23587304
PMCID: PMC3660206
DOI: 10.1186/1756-3305-6-96

Abstract

Background: Toxoplasma gondii is an opportunistic pathogenic protozoan parasite, which infects approximately one third of the human population worldwide, causing opportunistic zoonotic toxoplasmosis. The predilection of T. gondii for the central nervous system (CNS) causes behavioral disorders and fatal necrotizing encephalitis and thus constitutes a major threat especially to AIDS patients.

Methods: In the present study, we explored the proteomic profiles of brain tissues of the specific pathogen-free (SPF) Kunming mice at 7 d, 14 d and 21 d after infection with cysts of the Toxoplasma gondii Prugniaud (PRU) strain (Genotype II), by two-dimensional gel electrophoresis (2-DE) combined with MALDI-TOF/TOF tandem mass spectrometry (MS/MS).

Results: A total of 60 differentially expressed protein spots were selected. Fifty-six spots were successfully identified, which corresponded to 45 proteins of the mouse. Functional analysis using a Gene Ontology database showed that these proteins were mainly involved in metabolism, cell structure, signal transduction and immune responses, and will be beneficial for the understanding of molecular mechanisms of T. gondii pathogenesis.

Conclusions: This study identified some mouse brain proteins involved in the response with cyst-forming T. gondii PRU strain. These results provided an insight into the responsive relationship between T. gondii and the host brain tissues, which will shed light on our understanding of the mechanisms of pathogenesis in toxoplasmic encephalitis, and facilitate the discovery of new methods of diagnosis, prevention, control and treatment of toxoplasmic encephalopathy.

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Figures

**Figure 1**
**Two-dimensional electrophoresis profiles of infected and non-infected mouse brain tissues with or without cyst-forming** ***Toxoplasma gondii***.

**Figure 2**
**Gene ontology (GO) categories of the identified proteins were obtained from the Uniprot Web site (**http://www.uniprot.org/**), classified into cellular component, molecular function, and biological process according to the GO terms.**

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References

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Changes in the proteomic profiles of mouse brain after infection with cyst-forming Toxoplasma gondii

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Changes in the proteomic profiles of mouse brain after infection with cyst-forming Toxoplasma gondii

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