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Clinical and Vaccine Immunology, April 2008, p. 598-606, Vol. 15, No. 4
1071-412X/08/$08.00+0     doi:10.1128/CVI.00472-07
Copyright © 2008, American Society for Microbiology. All Rights Reserved.

Independent Loss of Immunogenic Proteins in Mycobacterium ulcerans Suggests Immune Evasion ^,

Swiss Tropical Institute, Socinstrasse 57, 4002 Basel, Switzerland

Received 14 November 2007/ Returned for modification 9 January 2008/ Accepted 24 January 2008

The highly immunogenic mycobacterial proteins ESAT-6, CFP-10, and HspX represent potential target antigens for the development of subunit vaccines and immunodiagnostic tests. Recently, the complete genome sequence revealed the absence of these coding sequences in Mycobacterium ulcerans, the causative agent of the emerging human disease Buruli ulcer. Genome reduction and the acquisition of a cytopathic and immunosuppressive macrolide toxin plasmid are regarded as crucial for the emergence of this pathogen from its environmental progenitor, Mycobacterium marinum. Earlier, we have shown the evolution of M. ulcerans into two distinct lineages. Here, we show that while the genome of M. marinum M contains two copies of the esxB-esxA gene cluster at different loci (designated MURD4 and MURD152), both copies are deleted from the genome of M. ulcerans strains belonging to the classical lineage. Members of the ancestral lineage instead retained some but disrupted most functional MURD4 or MURD152 copies, either by newly identified genomic insertion-deletion events or by conversions of functional genes to pseudogenes via point mutations. Thus, the esxA (ESAT-6), esxB (CFP-10), and hspX genes are located in hot-spot regions for genomic variation where functional disruption seems to be favored by selection pressure. Our detailed genomic analyses have identified a variety of independent genomic changes that have led to the loss of expression of functional ESAT-6, CFP-10, and HspX proteins. Loss of these immunodominant proteins helps the bacteria bypass the host's immunological response and may represent part of an ongoing adaptation of M. ulcerans to survival in host environments that are screened by immunological defense mechanisms.

Published ahead of print on 6 February 2008.

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