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Glycine Betaine Uptake by the ProXVWZ ABC Transporter Contributes to the Ability of Mycobacterium tuberculosis To Initiate Growth in Human Macrophages

Department of Microbiology and Immunology,¹ Department of Biology,² University of Louisville, Louisville, Kentucky, and Central New York Research Corporation, Syracuse, New York³

Received 12 September 2007/ Accepted 27 March 2008

Mycobacterium tuberculosis maintains a large genetic capacity necessary for growth in different environments during infection and survival upon aerosol transmission to new hosts. Screening for bacterial RNAs produced in response to host interactions produced candidate lists where we noted proXVWZ, annotated as encoding a putative glycine betaine or proline transporter. As high surface-to-volume ratios make bacterial cells particularly vulnerable to changes in water availability, we investigated the contributions of this transporter to the ability of M. tuberculosis to colonize macrophages. An H37Rv proXVWZ mutant was impaired for initial survival and intracellular growth and exhibited reduced growth at elevated medium osmolarity. This defect could be complemented by restoring proXVWZ and was attributable to a failure to accumulate the compatible solute glycine betaine. We then demonstrated that ProXVWZ allows M. tuberculosis to obtain betaine from host macrophages and thereby contributes to early steps in colonizing this niche.

Published ahead of print on 4 April 2008.