Detection of immunogenic parasite and host-specific proteins in the sera of active and chronic individuals infected with Toxoplasma gondii
Toxoplasma gondii infection in pregnant women may result in abortion and foetal abnormalities, and may be life‐threatening in immunocompromised hosts. To identify the potential infection markers of this disease, 2‐DE and Western blot methods were employed to study the parasite circulating antigens a...
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| Published in | Electrophoresis Vol. 31; no. 23-24; pp. 3843 - 3849 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Weinheim
WILEY-VCH Verlag
01.12.2010
WILEY‐VCH Verlag |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0173-0835 1522-2683 1522-2683 |
| DOI | 10.1002/elps.201000038 |
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| Abstract | Toxoplasma gondii infection in pregnant women may result in abortion and foetal abnormalities, and may be life‐threatening in immunocompromised hosts. To identify the potential infection markers of this disease, 2‐DE and Western blot methods were employed to study the parasite circulating antigens and host‐specific proteins in the sera of T. gondii‐infected individuals. The comparisons were made between serum protein profiles of infected (n=31) and normal (n=10) subjects. Antigenic proteins were identified by immunoblotting using pooled sera and monoclonal anti‐human IgM‐HRP. Selected protein spots were characterised using mass spectrometry. Prominent differences were observed when serum samples of T. gondii‐infected individuals and normal controls were compared. A significant up‐regulation of host‐specific proteins, α2‐HS glycoprotein and α1‐B glycoprotein, was also observed in the silver‐stained gels of both active and chronic infections. However, only α2‐HS glycoprotein and α1‐B glycoprotein in the active infection showed immunoreactivity in Western blots. In addition, three spots of T. gondii proteins were detected, namely (i) hypothetical protein chrXII: 3984434‐3 TGME 49, (ii) dual specificity protein phosphatase, catalytic domain TGME 49 and (iii) NADPH‐cytochrome p450 reductase TGME 49. Thus, 2‐DE approach followed by Western blotting has enabled the identification of five potential infection markers for the diagnosis of toxoplasmosis: three are parasite‐specific proteins and two are host‐specific proteins. |
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| AbstractList | Toxoplasma gondii infection in pregnant women may result in abortion and foetal abnormalities, and may be life-threatening in immunocompromised hosts. To identify the potential infection markers of this disease, 2-DE and Western blot methods were employed to study the parasite circulating antigens and host-specific proteins in the sera of T. gondii-infected individuals. The comparisons were made between serum protein profiles of infected (n=31) and normal (n=10) subjects. Antigenic proteins were identified by immunoblotting using pooled sera and monoclonal anti-human IgM-HRP. Selected protein spots were characterised using mass spectrometry. Prominent differences were observed when serum samples of T. gondii-infected individuals and normal controls were compared. A significant up-regulation of host-specific proteins, α(2)-HS glycoprotein and α(1)-B glycoprotein, was also observed in the silver-stained gels of both active and chronic infections. However, only α(2)-HS glycoprotein and α(1)-B glycoprotein in the active infection showed immunoreactivity in Western blots. In addition, three spots of T. gondii proteins were detected, namely (i) hypothetical protein chrXII: 3984434-3 TGME 49, (ii) dual specificity protein phosphatase, catalytic domain TGME 49 and (iii) NADPH-cytochrome p450 reductase TGME 49. Thus, 2-DE approach followed by Western blotting has enabled the identification of five potential infection markers for the diagnosis of toxoplasmosis: three are parasite-specific proteins and two are host-specific proteins. Toxoplasma gondii infection in pregnant women may result in abortion and foetal abnormalities, and may be life-threatening in immunocompromised hosts. To identify the potential infection markers of this disease, 2-DE and Western blot methods were employed to study the parasite circulating antigens and host-specific proteins in the sera of T. gondii-infected individuals. The comparisons were made between serum protein profiles of infected (n=31) and normal (n=10) subjects. Antigenic proteins were identified by immunoblotting using pooled sera and monoclonal anti-human IgM-HRP. Selected protein spots were characterised using mass spectrometry. Prominent differences were observed when serum samples of T. gondii-infected individuals and normal controls were compared. A significant up-regulation of host-specific proteins, 2-HS glycoprotein and 1-B glycoprotein, was also observed in the silver-stained gels of both active and chronic infections. However, only 2-HS glycoprotein and 1-B glycoprotein in the active infection showed immunoreactivity in Western blots. In addition, three spots of T. gondii proteins were detected, namely (i) hypothetical protein chrXII: 3984434-3 TGME 49, (ii) dual specificity protein phosphatase, catalytic domain TGME 49 and (iii) NADPH-cytochrome p450 reductase TGME 49. Thus, 2-DE approach followed by Western blotting has enabled the identification of five potential infection markers for the diagnosis of toxoplasmosis: three are parasite-specific proteins and two are host-specific proteins. Toxoplasma gondii infection in pregnant women may result in abortion and foetal abnormalities, and may be life‐threatening in immunocompromised hosts. To identify the potential infection markers of this disease, 2‐DE and Western blot methods were employed to study the parasite circulating antigens and host‐specific proteins in the sera of T. gondii‐infected individuals. The comparisons were made between serum protein profiles of infected (n=31) and normal (n=10) subjects. Antigenic proteins were identified by immunoblotting using pooled sera and monoclonal anti‐human IgM‐HRP. Selected protein spots were characterised using mass spectrometry. Prominent differences were observed when serum samples of T. gondii‐infected individuals and normal controls were compared. A significant up‐regulation of host‐specific proteins, α2‐HS glycoprotein and α1‐B glycoprotein, was also observed in the silver‐stained gels of both active and chronic infections. However, only α2‐HS glycoprotein and α1‐B glycoprotein in the active infection showed immunoreactivity in Western blots. In addition, three spots of T. gondii proteins were detected, namely (i) hypothetical protein chrXII: 3984434‐3 TGME 49, (ii) dual specificity protein phosphatase, catalytic domain TGME 49 and (iii) NADPH‐cytochrome p450 reductase TGME 49. Thus, 2‐DE approach followed by Western blotting has enabled the identification of five potential infection markers for the diagnosis of toxoplasmosis: three are parasite‐specific proteins and two are host‐specific proteins. Toxoplasma gondii infection in pregnant women may result in abortion and foetal abnormalities, and may be life‐threatening in immunocompromised hosts. To identify the potential infection markers of this disease, 2‐DE and Western blot methods were employed to study the parasite circulating antigens and host‐specific proteins in the sera of T. gondii‐infected individuals. The comparisons were made between serum protein profiles of infected (n=31) and normal (n=10) subjects. Antigenic proteins were identified by immunoblotting using pooled sera and monoclonal anti‐human IgM‐HRP. Selected protein spots were characterised using mass spectrometry. Prominent differences were observed when serum samples of T. gondii‐infected individuals and normal controls were compared. A significant up‐regulation of host‐specific proteins, α₂‐HS glycoprotein and α₁‐B glycoprotein, was also observed in the silver‐stained gels of both active and chronic infections. However, only α₂‐HS glycoprotein and α₁‐B glycoprotein in the active infection showed immunoreactivity in Western blots. In addition, three spots of T. gondii proteins were detected, namely (i) hypothetical protein chrXII: 3984434‐3 TGME 49, (ii) dual specificity protein phosphatase, catalytic domain TGME 49 and (iii) NADPH‐cytochrome p450 reductase TGME 49. Thus, 2‐DE approach followed by Western blotting has enabled the identification of five potential infection markers for the diagnosis of toxoplasmosis: three are parasite‐specific proteins and two are host‐specific proteins. Toxoplasma gondii infection in pregnant women may result in abortion and foetal abnormalities, and may be life-threatening in immunocompromised hosts. To identify the potential infection markers of this disease, 2-DE and Western blot methods were employed to study the parasite circulating antigens and host-specific proteins in the sera of T. gondii-infected individuals. The comparisons were made between serum protein profiles of infected (n=31) and normal (n=10) subjects. Antigenic proteins were identified by immunoblotting using pooled sera and monoclonal anti-human IgM-HRP. Selected protein spots were characterised using mass spectrometry. Prominent differences were observed when serum samples of T. gondii-infected individuals and normal controls were compared. A significant up-regulation of host-specific proteins, α(2)-HS glycoprotein and α(1)-B glycoprotein, was also observed in the silver-stained gels of both active and chronic infections. However, only α(2)-HS glycoprotein and α(1)-B glycoprotein in the active infection showed immunoreactivity in Western blots. In addition, three spots of T. gondii proteins were detected, namely (i) hypothetical protein chrXII: 3984434-3 TGME 49, (ii) dual specificity protein phosphatase, catalytic domain TGME 49 and (iii) NADPH-cytochrome p450 reductase TGME 49. Thus, 2-DE approach followed by Western blotting has enabled the identification of five potential infection markers for the diagnosis of toxoplasmosis: three are parasite-specific proteins and two are host-specific proteins.Toxoplasma gondii infection in pregnant women may result in abortion and foetal abnormalities, and may be life-threatening in immunocompromised hosts. To identify the potential infection markers of this disease, 2-DE and Western blot methods were employed to study the parasite circulating antigens and host-specific proteins in the sera of T. gondii-infected individuals. The comparisons were made between serum protein profiles of infected (n=31) and normal (n=10) subjects. Antigenic proteins were identified by immunoblotting using pooled sera and monoclonal anti-human IgM-HRP. Selected protein spots were characterised using mass spectrometry. Prominent differences were observed when serum samples of T. gondii-infected individuals and normal controls were compared. A significant up-regulation of host-specific proteins, α(2)-HS glycoprotein and α(1)-B glycoprotein, was also observed in the silver-stained gels of both active and chronic infections. However, only α(2)-HS glycoprotein and α(1)-B glycoprotein in the active infection showed immunoreactivity in Western blots. In addition, three spots of T. gondii proteins were detected, namely (i) hypothetical protein chrXII: 3984434-3 TGME 49, (ii) dual specificity protein phosphatase, catalytic domain TGME 49 and (iii) NADPH-cytochrome p450 reductase TGME 49. Thus, 2-DE approach followed by Western blotting has enabled the identification of five potential infection markers for the diagnosis of toxoplasmosis: three are parasite-specific proteins and two are host-specific proteins. Toxoplasma gondii infection in pregnant women may result in abortion and foetal abnormalities, and may be life‐threatening in immunocompromised hosts. To identify the potential infection markers of this disease, 2‐DE and Western blot methods were employed to study the parasite circulating antigens and host‐specific proteins in the sera of T. gondii ‐infected individuals. The comparisons were made between serum protein profiles of infected ( n =31) and normal ( n =10) subjects. Antigenic proteins were identified by immunoblotting using pooled sera and monoclonal anti‐human IgM‐HRP. Selected protein spots were characterised using mass spectrometry. Prominent differences were observed when serum samples of T. gondii ‐infected individuals and normal controls were compared. A significant up‐regulation of host‐specific proteins, α 2 ‐HS glycoprotein and α 1 ‐B glycoprotein, was also observed in the silver‐stained gels of both active and chronic infections. However, only α 2 ‐HS glycoprotein and α 1 ‐B glycoprotein in the active infection showed immunoreactivity in Western blots. In addition, three spots of T. gondii proteins were detected, namely (i) hypothetical protein chrXII: 3984434‐3 TGME 49, (ii) dual specificity protein phosphatase, catalytic domain TGME 49 and (iii) NADPH‐cytochrome p450 reductase TGME 49. Thus, 2‐DE approach followed by Western blotting has enabled the identification of five potential infection markers for the diagnosis of toxoplasmosis: three are parasite‐specific proteins and two are host‐specific proteins. |
| Author | Osman, Emelia Noordin, Rahmah Yeng, Chen Mohamed, Zeehaida |
| Author_xml | – sequence: 1 givenname: Chen surname: Yeng fullname: Yeng, Chen organization: Institute for Research in Molecular Medicine (INFORMM), Universiti Sains Malaysia, Penang, Malaysia – sequence: 2 givenname: Emelia surname: Osman fullname: Osman, Emelia organization: Institute for Research in Molecular Medicine (INFORMM), Universiti Sains Malaysia, Penang, Malaysia – sequence: 3 givenname: Zeehaida surname: Mohamed fullname: Mohamed, Zeehaida organization: Department of Medical Microbiology and Parasitology, School of Medical Sciences, Universiti Sains Malaysia, Kelantan, Malaysia – sequence: 4 givenname: Rahmah surname: Noordin fullname: Noordin, Rahmah email: rahmah8485@gmail.com organization: Institute for Research in Molecular Medicine (INFORMM), Universiti Sains Malaysia, Penang, Malaysia |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/21080484$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1371_journal_pone_0109012 crossref_primary_10_1016_j_jprot_2012_09_018 crossref_primary_10_1186_s12879_015_0786_2 crossref_primary_10_3390_microorganisms9112346 |
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| References | Reichmann, G., Dlugonska, H., Hiszczynska-Sawicka, E., Fischer, H., Microbes Infect. 2001, 3, 779-787. Guigo, R., Flicek, P., Abril, J. F., Reymond, A., Lagarde, J., Denoed, F., Antonarakis, S., Ashburner, M., Bajic, V. B., Birney, E., Castelo, R., Eyras, E., Ucla, C., Gingeras, T. R., Harrow, J., Hubbard, T., Lewis, S. E., Reese, M. G., Genome Biol. 2006, 7, S21-S31. Shojaee, S., Keshavarz, H., Rezaian, M., Mohebali, M., Pak. J. Med. Sci. 2007, 23, 100-102. He, Q. Y., Yang, H., Benjamin, C. Y. W., Chiu, J. F., Dig. Dis. Sci. 2008, 53, 3112-3118. Neudwck, A., Stachelhaus, S., Nischik, N., Striepen, B., Microbes Infect. 2002, 4, 581-590. Girma, J. P., Meyer, D., Verweij, C. L., Pannekoek, H., Sixma, J. J., Blood 1987, 70, 605-611. Heukeshoven, J., Dernick, R., Electrophoresis 1988, 9, 28-32. Ma, G. Y., Zhang, J. Z., Yin, G. R., Zhang, J. H., Exp. Parasitol. 2009, 122, 41-46. Lu, F., Jiang, H., Ding, J., Mu, J., Valenzuela, J. G., BMC Genomics 2007, 8, 255. Maria, G., Cecilia, G. V., Rafael, S. D., Alfonso, I. R., Rev. Soc. Bras. Med. Trop. 1998, 31, 271-277. Susanto, L., Muljono, R., Southeast Asian J. Trop. Med. Public Health 2001, 32, 195-197. Dubey, J. P., Beattie, C. P., Toxoplasmosis of Animals and Man, CRC Press: Boca Raton, FL 1988. Emelia, O., Zeehaida, M., Sulaiman, O., Rohela, M., Saadatnia, G., Chen, Y., Rahmah, N., J. Immunoassay Immunochem. 2010, 31, 79-91. Gastens, M. H., Fischer, H. G., Int. J. Parasitol. 2002, 32, 1225-1234. Attallah, A. M., Ismail, H., Ibrahim, A. S., J. Immunoassay Immunochem. 2006, 27, 45-60. Nischik, N., Schade, B., Dytnerska, K., Dlugonska, H., Reichmann, G., Fischer, G., Microbes Infect. 2001, 3, 689-699. Nielsen, P., Krogh, A., Bioinformatics 2005, 21, 4322-4329. Thayan, R., Huat, T. L., See, L. L. C., Tan, C. P. L., Khairullah, N. S., Yusof, R., Devi, S., Trans. R. Soc. Trop. Med. Hyg. 2009, 103, 413-419. Shevchenko, A., Wilm, M., Vorm, O., Mann, M., Anal. Chem. 1996, 68, 850-858. Lee, N. I., Chen, C. H., Sheu, J. C., Lee, H. S., Huang, G. T., Chen, D. S., Yu, C. Y., Wen, F. J., Chow, L. P., Proteomics 2006, 6, 2865-2873. Vonlaufen, N., Naguleswaran, A., Gianinazzi, C., Hemphil, A., Parasitology 2007, 134, 805-817. Huynh, M. H., Rabenau, K. E., Harper, J. M., Beatty, W. L., Sibley, L. D., Carruthers, V. B., EMBO J. 2003, 22, 2082-2090. Dybas, J. M., Madrid-Aliste, C. J., Che, F.-Y., Nieves, E., Rykunov, D., Angeletii, R. H., Weiss, L. M., Kim, K., Fiser, A., PLoS ONE, 2008, 3, e3899. Jones, J. L., Kruszon-Moran, D., Wilson, M., McQuillan, G., Navin, T., McAuley, J. B., Am. J. Epidemiol. 2001, 154, 357-365. Chen, Y., Lim, B. K., Peh, S. C., Abdul-Rahman, P. S., Hashim, O. H., Proteome Sci. 2008, 6, 20. Araujo, F. G., Handman, E., Remington, J. S., Infect. Immun. 1980, 30, 12-16. Gladkova, S. V., Dedkova, L. M., Belanov, E. F., Gilbiatnikova, A. V., Kiseleva, Z. F., Reshetnikov, S. S., Parasitology 2000, 4, 15-18. Monteiro, V. G., Soares, C. P., De Souza, W., FEMS Microbiol. Lett. 1998, 164, 323-327. Jethwaney, D., Lepore, T., Hassan, S., Mello, K., Infect. Immun. 2005, 73, 5883-5891. Tenter, A. M., Heckeroth, A. R., Weiss, L. M., Int. J. Parasitol. 2000, 30, 1217-1258. Gangadharan, B., Antrobus, R., Dwek, R. A., Zitzmann, N., Clin. Chem. 2007, 53, 1792-1799. He, Q. Y., Lau, G. K. K., Zhou, Y., Yuen, S. T., Lin, M. C., Kung, H. F., Chiu, J. F., Proteomics 2003, 3, 666-674. Nielsen, H. V., Schmidt, D. R., Petersen, E., J. Clin. Microbiol. 2005, 43, 711-715. Gross, U., Hambach, C., Windeck, T., Heesemann, J., Parasitol. Res. 1993, 79, 191-194. 2010; 31 2000; 4 1987; 70 2002; 32 2006; 7 2006; 6 2002; 4 2005; 43 2005; 21 2008; 6 2008; 3 2008; 53 2007; 53 2001; 154 2007; 134 1993; 79 1988; 9 1980; 30 2006; 27 2000; 30 2007; 8 2005; 73 2003; 3 2009; 122 2001; 3 1996; 68 1998; 31 2007; 23 2009; 103 1998; 164 2003; 22 1988 2001; 32 e_1_2_6_31_2 Gladkova S. V. (e_1_2_6_27_2) 2000; 4 e_1_2_6_18_2 e_1_2_6_19_2 e_1_2_6_12_2 e_1_2_6_13_2 e_1_2_6_34_2 e_1_2_6_10_2 e_1_2_6_33_2 e_1_2_6_11_2 e_1_2_6_32_2 e_1_2_6_16_2 e_1_2_6_17_2 e_1_2_6_14_2 Dubey J. P. (e_1_2_6_3_2) 1988 e_1_2_6_15_2 e_1_2_6_36_2 Girma J. P. (e_1_2_6_35_2) 1987; 70 e_1_2_6_20_2 Araujo F. G. (e_1_2_6_28_2) 1980; 30 Shojaee S. (e_1_2_6_30_2) 2007; 23 e_1_2_6_8_2 Susanto L. (e_1_2_6_6_2) 2001; 32 e_1_2_6_7_2 e_1_2_6_9_2 e_1_2_6_29_2 e_1_2_6_4_2 e_1_2_6_5_2 e_1_2_6_24_2 e_1_2_6_23_2 e_1_2_6_2_2 e_1_2_6_22_2 e_1_2_6_21_2 e_1_2_6_26_2 e_1_2_6_25_2 |
| References_xml | – reference: Vonlaufen, N., Naguleswaran, A., Gianinazzi, C., Hemphil, A., Parasitology 2007, 134, 805-817. – reference: Nielsen, P., Krogh, A., Bioinformatics 2005, 21, 4322-4329. – reference: Ma, G. Y., Zhang, J. Z., Yin, G. R., Zhang, J. H., Exp. Parasitol. 2009, 122, 41-46. – reference: Shojaee, S., Keshavarz, H., Rezaian, M., Mohebali, M., Pak. J. Med. Sci. 2007, 23, 100-102. – reference: Susanto, L., Muljono, R., Southeast Asian J. Trop. Med. Public Health 2001, 32, 195-197. – reference: Thayan, R., Huat, T. L., See, L. L. C., Tan, C. P. L., Khairullah, N. S., Yusof, R., Devi, S., Trans. R. Soc. Trop. Med. Hyg. 2009, 103, 413-419. – reference: Heukeshoven, J., Dernick, R., Electrophoresis 1988, 9, 28-32. – reference: Neudwck, A., Stachelhaus, S., Nischik, N., Striepen, B., Microbes Infect. 2002, 4, 581-590. – reference: Girma, J. P., Meyer, D., Verweij, C. L., Pannekoek, H., Sixma, J. 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| Title | Detection of immunogenic parasite and host-specific proteins in the sera of active and chronic individuals infected with Toxoplasma gondii |
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