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Infection and Immunity, February 2006, p. 861-868, Vol. 74, No. 2
0019-9567/06/$08.00+0     doi:10.1128/IAI.74.2.861-868.2006
Copyright © 2006, American Society for Microbiology. All Rights Reserved.

Deletion of the Mycobacterium tuberculosis -Crystallin-Like hspX Gene Causes Increased Bacterial Growth In Vivo

Yanmin Hu,¹ Farahnaz Movahedzadeh,² Neil G. Stoker,² and Anthony R. M. Coates^1*

Medical Microbiology, Department of Cellular and Molecular Sciences, St. George's Hospital Medical School, London SW17 0RE,¹ Department of Pathology and Infectious Diseases, The Royal Veterinary College, London NW1 0UT, United Kingdom²

Received 5 March 2005/ Returned for modification 9 May 2005/ Accepted 14 November 2005

Hypervirulent mutants of Mycobacterium tuberculosis, whose growth rates are higher in vivo, have now been reported to have mutations in both regulatory and structural genes, but the basis for this unusual phenotype is not understood. One hypervirulence gene, dosR (devR, Rv2031c), activates transcription of approximately 50 genes in this pathogen in response to hypoxia and nitric oxide stress. The most dramatic activation (80-fold) is activation of the hspX (acr, Rv2031c) gene, which encodes a 16-kDa -crystallin-like protein that is a major antigen. In this study we found that a acr mutant exhibited increased growth following infection of BALB/c mice in vivo and in both resting and activated macrophages in vitro (as measured by the number of CFU). The increased growth in macrophages was equal to that of a dosR mutant, while introduction of a constitutively expressed hspX gene reduced the dosR virulence to wild-type levels. These results suggest that the increased number of CFU of the dosR mutant was largely due to loss of hspX expression. We also confirmed that constitutive expression of hspX slows growth in vitro, and we propose that hspX plays an active role in slowing the growth of M. tuberculosis in vivo immediately following infection.

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* Corresponding author. Mailing address: Medical Microbiology, Department of Cellular and Molecular Sciences, St. George's Hospital Medical School, London SW17 0RE, United Kingdom. Phone: 44 (208) 725 5725. Fax: 44 (208) 672 0234. E-mail: acoates{at}sghms.ac.uk.

Editor: J. L. Flynn

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Infection and Immunity, February 2006, p. 861-868, Vol. 74, No. 2
0019-9567/06/$08.00+0     doi:10.1128/IAI.74.2.861-868.2006
Copyright © 2006, American Society for Microbiology. All Rights Reserved.

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