Abstract
Many intracellular bacterial pathogens naturally release membrane vesicles (MVs) under a variety of growth environments. For pathogenic bacteria there are strong evidences that released MVs are a delivery mechanism for the release of immunologically active molecules that contribute to virulence. Identification of membrane vesicle-associated proteins that can act as immunological modulators is crucial for opening up new horizons for understanding the pathogenesis of certain bacteria and for developing novel vaccines. In this protocol, we provide all the details for isolating MVs secreted by either mycobacteria or Gram-positive bacteria and for the subsequent identification of the protein content of the MVs by mass spectrometry. The protocol is adapted from Gram-negative bacteria and involves four main steps: (1) isolation of MVs from the culture media; (2) purification of MVs by density gradient ultrucentrifugation; (3) acetone precipitation of the MVs protein content and in-solution trypsin digestion and (4) mass spectrometry analysis of the generated peptides and protein identification. Our modifications are:•Growing Mycobacteria in a chemically defined media to reduce the number of unrelated bacterial components in the supernatant.•The use of an ultrafiltration system, which allows concentrating larger volumes.•In solution digestion of proteins followed by peptides purification by ziptip.
Highlights
Many intracellular bacterial pathogens naturally release membrane vesicles (MVs) under a variety of growth environments
Isolation of pure mycobacterial and Gram-positive bacteria (Bacillus subtillis) membrane vesicles involves growing the bacteria in liquid media to mid-logarithmic phase, followed by clarification of the cell supernatant by sequential filtration and concentration
The concentrate is ultracentrifuged and the pellet is submitted to density gradient ultracentrifugation to obtain the pure membrane vesicle fractions [1,2,3]
Summary
Many intracellular bacterial pathogens naturally release membrane vesicles (MVs) under a variety of growth environments. Isolation of pure mycobacterial and Gram-positive bacteria (Bacillus subtillis) membrane vesicles involves growing the bacteria in liquid media to mid-logarithmic phase, followed by clarification of the cell supernatant by sequential filtration and concentration. The concentrate is ultracentrifuged and the pellet is submitted to density gradient ultracentrifugation to obtain the pure membrane vesicle fractions [1,2,3]. Proteins in the purified fractions are acetone precipitated and in-solution digested with trypsin.
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