Compartmentalization of Lipid Biosynthesis in Mycobacteria

Yasu S Morita,René Velasquez,Ellen Taig,Ross F Waller,John H Patterson,Dedreia Tull,Spencer J Williams,Helen Billman-Jacobe,Malcolm J Mcconville

doi:10.1074/jbc.m414181200

Yasu S Morita, René Velasquez + Show 7 more

Open Access

https://doi.org/10.1074/jbc.m414181200

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Abstract

The plasma membrane of Mycobacterium sp. is the site of synthesis of several distinct classes of lipids that are either retained in the membrane or exported to the overlying cell envelope. Here, we provide evidence that enzymes involved in the biosynthesis of two major lipid classes, the phosphatidylinositol mannosides (PIMs) and aminophospholipids, are compartmentalized within the plasma membrane. Enzymes involved in the synthesis of early PIM intermediates were localized to a membrane subdomain termed PMf, that was clearly resolved from the cell wall by isopyknic density centrifugation and amplified in rapidly dividing Mycobacterium smegmatis. In contrast, the major pool of apolar PIMs and enzymes involved in polar PIM biosynthesis were localized to a denser fraction that contained both plasma membrane and cell wall markers (PM-CW). Based on the resistance of the PIMs to solvent extraction in live but not lysed cells, we propose that polar PIM biosynthesis occurs in the plasma membrane rather than the cell wall component of the PM-CW. Enzymes involved in phosphatidylethanolamine biosynthesis also displayed a highly polarized distribution between the PMf and PM-CW fractions. The PMf was greatly reduced in non-dividing cells, concomitant with a reduction in the synthesis and steady-state levels of PIMs and amino-phospholipids and the redistribution of PMf marker enzymes to non-PM-CW fractions. The formation of the PMf and recruitment of enzymes to this domain may thus play a role in regulating growth-specific changes in the biosynthesis of membrane and cell wall lipids.

Highlights

The plasma membrane of Mycobacterium sp. is the site of synthesis of several distinct classes of lipids that are either retained in the membrane or exported to the overlying cell envelope
We showed that rapidly dividing M. smegmatis elaborates a distinct membrane fraction, termed plasma membrane fraction (PMf), which is highly enriched for enzymes involved in apolar phosphatidylinositol mannosides (PIMs) and PtdEtn biosynthesis
These data demonstrate that the enzyme activities involved in the synthesis of two major PIM end-products, AcPIM2 and AcPIM6 are localized in distinct subcellular compartments

Summary

Introduction

The plasma membrane of Mycobacterium sp. is the site of synthesis of several distinct classes of lipids that are either retained in the membrane or exported to the overlying cell envelope. A major class of mycobacterial glycolipids are the phosphatidylinositol mannosides (PIM(s)) and hypermannosylated derivatives, lipomannan (LM) and lipoarabinomannan (LAM) [2, 5, 6] These lipids are thought to be localized in both the plasma membrane and the overlying cell envelope [7, 8]. Both PIM and LAM appear to be important virulence factors in pathogenic species of mycobacteria [6, 9], whereas recent gene disruption studies have shown that phosphatidylinositol (PtdIns), the immediate lipid precursor for PIM biosynthesis, and early PIM intermediates are essential for the growth of M. smegmatis [10, 11]. AcPIM2 can be an end-product, or further modified with a second acyl chain and/or additional Man residues to form polar PIM species (having 4 – 6 Man residues) or LM/LAM [13, 14]

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