Hostname: page-component-669899f699-chc8l Total loading time: 0 Render date: 2025-04-28T02:05:14.010Z Has data issue: false hasContentIssue false
  • English
  • Français

Decrease of psychomotor performance in subjects with latent ‘asymptomatic’ toxoplasmosis

Published online by Cambridge University Press:  07 August 2001

J. HAVLÍČEK ,
Z. GAšOVÁ ,
A. P. SMITH ,
K. ZVÁRA  and
J. FLEGR
J. HAVLÍČEK
Affiliation:
Department of Parasitology, Faculty of Science, Charles University, Viničná 7, 128 44 Prague, Czech Republic
Z. GAšOVÁ
Affiliation:
Institute of Haematology and Blood Transfusion, U nemocnice 1, 120 00 Prague, Czech Republic
A. P. SMITH
Affiliation:
Centre for Occupational and Health Psychology, School of Psychology, Cardiff University, UK
K. ZVÁRA
Affiliation:
Department of Probability and Statistics, Faculty of Mathematics and Physics, Charles University, Sokolovská 83, 186 00, Prague 8, Czech Republic
J. FLEGR
Affiliation:
Department of Parasitology, Faculty of Science, Charles University, Viničná 7, 128 44 Prague, Czech Republic
Get access Rights & Permissions [Opens in a new window]

Abstract

Toxoplasma gondii is known to induce specific behavioural changes in its intermediate hosts. This is usually considered to be an evolutionary adaptation aimed to increase the probability of transmission of the parasite into its definitive host, the cat, by predation. In rodents an increase of reaction time as well as many other specific behavioural patterns have been observed. Here we report the results of our double blind study showing the significantly longer reaction times of 60 subjects with latent toxoplasmosis in comparison with those of 56 controls. Moreover, the existence of a positive correlation between length of infection and mean reaction time suggested that slow and cumulative effects of latent toxoplasmosis rather than a one-step (and possibly transient) effect of acute toxoplasmosis disease are responsible for the decrease of psychomotor performance of infected subjects. To our knowledge, this is the first study confirming the existence of such parasite-induced changes in human behaviour that could be considered in evolutionary history of the human species as adaptive from the point of view of parasite transmission.

Keywords

manipulation hypothesisparasitehumanreaction timesToxoplasma gondiibehaviourevolution
Type
Research Article
Information
Parasitology , Volume 122 , Issue 5 , May 2001 , pp. 515 - 520
Copyright
2001 Cambridge University Press

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.)

Article purchase

Temporarily unavailable

References

ARENDT, G., VON GIESEN, H. J., HEFTER, H., NEUEN-JACOB, E., ROICK, H. & JABLONOWSKI, H. (1999). Long-term course and outcome in AIDS patients with cerebral toxoplasmosis. Acta Neurologica Scandinavica 100, 178184.CrossRefGoogle Scholar
ARSENIJEVIC, D., GIRARDIER, L., SEYDOUX, J., CHANG, H. R. & DULLOO, A. G. (1997). Altered energy balance and cytokine gene expression in a murine model of chronic infection with Toxoplasma gondii. American Journal of Physiology 272, E908E917.CrossRefGoogle Scholar
BERDOY, M., WEBSTER, J. P. & MACDONALD, D. W. (2000). Fatal attraction in rats infected with Toxoplasma gondii. Proceedings of the Royal Society of London, B 267, 591594.CrossRefGoogle Scholar
DEROUIN, F., GLUCKMAN, E., BEAUVAIS, B., DEVERGIE, A., MELO, R., MONNY, M. & LARIVIERE, M. (1986). Toxoplasma infection after human allogeneic bone marrow transplantation: clinical and serological study of 80 patients. Bone Marrow Transplantation 1, 6773.Google Scholar
DEVELOUX, M., CANDOLFI, E., HANGO-DOUNBO, S. & KIEN, T. (1988). La toxoplasmose au Niger. Bulletin de la société de Pathologie Exotique 81, 253259.Google Scholar
FIGUEIREDO, J. F., MOYSES-NETO, M., GOMES, U. A., SUAID, H., FERRAZ, A. S., MARTINS, A. C. & FIORILLO, A. M. (1983). Antibody titers to Toxoplasma gondii in renal transplant patients. Brazilian Journal of Medical and Biological Research 16, 235239.Google Scholar
FLEGR, J. & HAVLÍČEK, J. (1999). Changes in the personality profile of young women with latent toxoplasmosis. Folia Parasitologica (Praha) 46, 2228.Google Scholar
FLEGR, J. & HRDÝ, I. (1994). Influence of chronic toxoplasmosis on some human personality factors. Folia Parasitologica (Praha) 41, 122126.Google Scholar
FLEGR, J., KODYM, P. & TOLAROVÁ, V. (2000). Correlation of duration of latent Toxoplasma gondii infection with personality changes in women. Biological Psychology 53, 5768.CrossRefGoogle Scholar
FLEGR, J., ZITKOVÁ, S., KODYM, P. & FRYNTA, D. (1996). Induction of changes in human behaviour by the parasitic protozoan Toxoplasma gondii. Parasitology 113, 4954.CrossRefGoogle Scholar
FRENKEL, J. K. & RUIZ, A. (1980). Human toxoplasmosis and cat contact in Costa Rica. American Journal of Tropical Medicine and Hygiene 29, 11671180.CrossRefGoogle Scholar
GALLINO, A., MAGGIORINI, M., KIOWSKI, W., MARTIN, X., WUNDERLI, W., SCHNEIDER, J., TURINA, M. & FOLLATH, F. (1996). Toxoplasmosis in heart transplant recipients. European Journal of Clinical Microbiology and Infectious Diseases 15, 389393.CrossRefGoogle Scholar
GRANT, I. H., GOLD, J. W., ROSENBLUM, M., NIEDZWIECKI, D. & ARMSTRONG, D. (1990). Toxoplasma gondii serology in HIV-infected patients: the development of central nervous system toxoplasmosis in AIDS. AIDS 4, 519521.CrossRefGoogle Scholar
HALL, S. R. & SMITH, A. P. (1996). Behavioural effects of infectious mononucleosis. Neuropsychobiology 33, 202209.CrossRefGoogle Scholar
HALONEN, S. K., LYMAN, W. D. & CHIU, F. C. (1996). Growth and development of Toxoplasma gondii in human neurons and astrocytes. Journal of Neuropathology and Experimental Neurology 55, 11501156.CrossRefGoogle Scholar
HAY, J., AITKEN, P. P. & ARNOTT, M. A. (1985). The influence of Toxoplasma infection on the spontaneous running activity of mice. Zeitschrift für Parasitenkunde 71, 459462.CrossRefGoogle Scholar
HAY, J., AITKEN, P. P. & GRAHAM, D. I. (1984a). Toxoplasma infection and response to novelty in mice. Zeitschrift für Parasitenkunde 70, 575588.Google Scholar
HAY, J., AITKEN, P. P., HAIR, D. M., HUTCHISON, W. M. & GRAHAM, D. I. (1984b). The effect of congenital Toxoplasma infection on mouse activity and relative preference for exposed areas over a series of trials. Annals of Tropical Medicine and Parasitology 78, 611618.Google Scholar
HAY, J., AITKEN, P. P., HUTCHISON, W. M. & GRAHAM, D. I. (1983a). The effect of congenital and adult-acquired Toxoplasma infections on the motor performance of mice. Annals of Tropical Medicine and Parasitology 77, 261277.Google Scholar
HAY, J., HUTCHISON, W. M. & AITKEN, P. P. (1983b). Congenital Toxoplasma infection and response to novelty in mice. Annals of Tropical Medicine and Parasitology 77, 437439.Google Scholar
HENGST, P. (1979). Zur Häufigkeit und Entwicklung der Kinder mit latenter konnataler Toxoplasma gondii-Infektion. Angewandte Parasitologie 20, 216221.Google Scholar
HRDÁ, š., VOTÝPKA, J., KODYM, P. & FLEGR, J. (2000). Transient nature of Toxoplasma gondii-induced behavioral changes in mice. Journal of Parasitology 86, 657663.CrossRefGoogle Scholar
HUTCHISON, W. M., AITKEN, P. P. & WELLS, B. W. P. (1980a). Chronic Toxoplasma infection and familiarity-novelty discrimination in the mouse. Annals of Tropical Medicine and Parasitology 74, 145150.Google Scholar
HUTCHISON, W. M., AITKEN, P. P. & WELLS, B. W. P. (1980b). Chronic Toxoplasma infections and motor performance in the mouse. Annals of Tropical Medicine and Parasitology 74, 505510.Google Scholar
KONISHI, E. (1989). Annual change in immunoglobulin G and M antibody levels to Toxoplasma gondii in human sera. Microbiology and Immunology 33, 403411.CrossRefGoogle Scholar
ORTONA, L., ANTINORI, A., TAMBURRINI, E., CAPELLI, A., FAMILIARI, U., MARANO, P. & COLOSIMO, C. (1991). AIDS and the central nervous system: correlations between clinical, radiological and anatomo-pathological aspects. A critical review of 40 personal cases. Annali Italiani di Medicina Interna 6, 193202.Google Scholar
PEREA, E. J. & BOROBIO, M. V. (1974). Facteurs epidemiologiques et caracteres cliniques de la toxoplasmose en Espagne. Bulletin de la Société de Pathologie Exotique 67, 183193.Google Scholar
PETITHORY, J. C., AMBROISE THOMAS, P., DELOYE, J., PELLOUX, H., GOULLIER FLEURET, A., MILGRAM, M., BUFFARD, C., GARIN, J. P., BESSIERES, M. H., PARISHAMELIN, A., PESTRE ALEXANDRE, M., BAUFINEDUCROCQ, H., CAZENAVE, J., COUZINEAU, P., DEROUIN, F., DUPOUYCAMET, J., JACQUEMIN, J. L., KIEN, T., LECOLIER, B., NIEL, G., PINON, J. M., QUILICI, M., ROBERT, R., SEGUELA, J. P., SENET, J. M., THULLIEZ, P., JACQUIER, P., JANITSCHKE, K. & REITER, I. (1996). Serodiagnosis of toxoplasmosis: A comparative multicentre study of a series of control sera using various currently available tests and expression of the results in International Units. World Health Organization Bulletin 74, 291298.Google Scholar
POKORNÝ, J., FRUHBAUER, Z., POLEDŇÁKOVÁ, S., SÝKORA, J., ZÁSTĚRA, M. & FIALOVÁ, D. (1989). Assessment of antitoxoplasmatic IgG antibodies with the ELISA method. Československa Epidemiologie 38, 355361.Google Scholar
REMINGTON, J. S. & KRAHENBUHL, J. L. (1982). Immunology of Toxoplasma gondii. In Immunology of Human Infection, Part II (ed. NAHMIAS, A. J. & O'REILLY, J.), pp. 327371. Plenum Publishing Corporation, New York.CrossRef
SCHASSAN, H.-H. & KASKARA, S. (1971). Die Durchseuchung mit Toxoplasma gondii in Hamburg. Zeitschrift für Tropenmedizin und Parasitologie 22, 165177.Google Scholar
SMITH, A. P., TYRRELL, D. A. J., AL-NAKIB, W., BARROW, P. G., HIGGINS, P. G., LEEKAM, S. & TRICKETT, S. (1989). Effects and after-effects of the common cold and influenza on human performance. Neuropsychobiology 21, 9093.CrossRefGoogle Scholar
SPARACIA, G., BRANCATELLI, G., SARNO, C., DEMARIA, M., LAGALLA, R. & FILOSTO, L. (1998). Value of magnetic resonance in the diagnostic definition of neurotoxoplasmosis and in the assessment of the response to pharmacological treatment. Radiology and Medicine 96, 2328.Google Scholar
WARREN, J. & SABIN, A. B. (1942). The complement fixation reaction in toxoplasmic infection. Proceedings of the Society for Experimental Biology and Medicine 51, 1116.CrossRefGoogle Scholar
WEBSTER, J. P. (1994). The effect of Toxoplasma gondii and other parasites on activity levels in wild and hybrid Rattus norvegicus. Parasitology 109, 583589.CrossRefGoogle Scholar
WEBSTER, J. P., BRUNTON, C. F. A. & MACDONALD, D. W. (1994). Effect of Toxoplasma gondii upon neophobic behaviour in wild brown-rats, Rattus norvegicus. Parasitology 109, 3743.CrossRefGoogle Scholar
WERNER, H., MASIHI, K. N. & SENK, U. (1981). Latent Toxoplasma-infection as a possible risk factor for CNS-disorders. Zentralblatt für Bakteriologie, Mikrobiologie und Hygiene A 250, 368375.Google Scholar
WITTING, P.-A. (1979). Learning capacity and memory of normal and Toxoplasma-infected laboratory rats and mice. Zeitschrift für Parasitenkunde 61, 2951.CrossRefGoogle Scholar
ZUFFEREY, J., SUGAR, A., RUDAZ, P., BILLE, J., GLAUSER, M. P. & CHAVE, J. P. (1993). Prevalence of latent toxoplasmosis and serological diagnosis of active infection in HIV-positive patients. European Journal of Clinical Microbiology and Infectious Diseases 12, 591595.CrossRefGoogle Scholar