Literature DB >> 21306439

Requirement for acetyl-CoA carboxylase in Trypanosoma brucei is dependent upon the growth environment.

Patrick A Vigueira1, Kimberly S Paul.   

Abstract

Trypanosoma brucei, the causative agent of human African trypanosomiasis, possesses two fatty acid synthesis pathways: a major de novo synthesis pathway in the ER and a mitochondrial pathway. The 2-carbon donor for both pathways is malonyl-CoA, which is synthesized from acetyl-CoA by Acetyl-CoA carboxylase (ACC). Here, we show that T. brucei ACC shares the same enzyme architecture and moderate ∼ 30% identity with yeast and human ACCs. ACC is cytoplasmic and appears to be distributed throughout the cell in numerous puncta distinct from glycosomes and other organelles. ACC is active in both bloodstream and procyclic forms. Reduction of ACC activity by RNA interference (RNAi) resulted in a stage-specific phenotype. In procyclic forms, ACC RNAi resulted in 50-75% reduction in fatty acid elongation and a 64% reduction in growth in low-lipid media. In bloodstream forms, ACC RNAi resulted in a minor 15% decrease in fatty acid elongation and no growth defect in culture, even in low-lipid media. However, ACC RNAi did attenuate virulence in a mouse model of infection. Thus the requirement for ACC in T. brucei is dependent upon the growth environment in two different life cycle stages.
© 2011 Blackwell Publishing Ltd.

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Year:  2011        PMID: 21306439      PMCID: PMC3656591          DOI: 10.1111/j.1365-2958.2011.07563.x

Source DB:  PubMed          Journal:  Mol Microbiol        ISSN: 0950-382X            Impact factor:   3.501


  88 in total

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Review 4.  Fatty acid synthesis in African trypanosomes: a solution to the myristate mystery.

Authors:  K S Paul; D Jiang; Y S Morita; P T Englund
Journal:  Trends Parasitol       Date:  2001-08

5.  Glycosyl phosphatidylinositol myristoylation in African trypanosomes. New intermediates in the pathway for fatty acid remodeling.

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6.  Subcellular localization of acetyl-CoA carboxylase in the apicomplexan parasite Toxoplasma gondii.

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8.  Inhibition of Trypanosoma brucei gene expression by RNA interference using an integratable vector with opposing T7 promoters.

Authors:  Z Wang; J C Morris; M E Drew; P T Englund
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Review 4.  Lipid synthesis in protozoan parasites: a comparison between kinetoplastids and apicomplexans.

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8.  Effects of the green tea catechin (-)-epigallocatechin gallate on Trypanosoma brucei.

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9.  Revisiting the central metabolism of the bloodstream forms of Trypanosoma brucei: production of acetate in the mitochondrion is essential for parasite viability.

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10.  Essential regulation of cell bioenergetics in Trypanosoma brucei by the mitochondrial calcium uniporter.

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