1. Identification and functional analysis of the cyclopropane fatty acid synthase of Brucella abortus
- Author
-
Yolanda Gil-Ramírez, Raquel Conde-Álvarez, Ana Gutiérrez, Leyre Palacios-Chaves, Amaia Zúñiga-Ripa, Ignacio Moriyón, and Maite Iriarte
- Subjects
Cyclopropanes ,Mutant ,Brucella abortus ,Virulence ,Microbiology ,Cell Line ,Fatty acids metabolism ,Mice ,Open Reading Frames ,chemistry.chemical_compound ,Bacterial Proteins ,Animals ,Brucella abortus enzymology ,Cyclopropane fatty acid ,Cyclopropanes metabolism ,chemistry.chemical_classification ,Mice, Inbred BALB C ,biology ,ATP synthase ,Macrophages ,Intracellular parasite ,Fatty Acids ,Gene Expression Regulation, Bacterial ,Methyltransferases ,Methyltransferases metabolism ,Hydrogen-Ion Concentration ,biology.organism_classification ,Bacterial proteins metabolism ,Fatty acid synthase ,Enzyme ,chemistry ,Biochemistry ,Mutagenesis, Site-Directed ,biology.protein ,Female ,Acids ,Bacteria - Abstract
The brucellae are facultative intracellular pathogens of mammals that are transmitted by contact with infected animals or contaminated materials. Several major lipidic components of the brucella cell envelope are imperfectly recognized by innate immunity, thus contributing to virulence. These components carry large proportions of acyl chains of lactobacillic acid, a long chain cyclopropane fatty acid (CFA). CFAs result from addition of a methylene group to unsaturated acyl chains and contribute to resistance to acidity, dryness and high osmolarity in many bacteria and to virulence in mycobacteria. We examined the role of lactobacillic acid in Brucella abortus virulence by creating a mutant in ORF BAB1_0476, the putative CFA synthase gene. The mutant did not incorporate [ 14C]methyl groups into lipids, lacked CFAs and synthesized the unsaturated precursors, proving that BAB1_0476 actually encodes a CFA synthase. BAB1_0476 promoter-luxAB fusion studies showed that CFA synthase expression was promoted by acid pH and high osmolarity. The mutant was not attenuated in macrophages or mice, strongly suggesting that CFAs are not essential for B. abortus intracellular life. However, when the mutant was tested under high osmolarity on agar and acid pH, two conditions likely to occur on contaminated materials and fomites, they showed reduced ability to grow or survive. Since CFA synthesis entails high ATP expenses and brucellae produce large proportions of lactobacillic acyl chains, we speculate that the CFA synthase has been conserved because it is useful for survival extracellularly, thus facilitating persistence in contaminated materials and transmission to new hosts.
- Published
- 2012