posted on 2019-02-14, 00:00authored byPaul D. Veith, Michelle D. Glew, Dhana G. Gorasia, Dina Chen, Neil M. O’Brien-Simpson, Eric C. Reynolds
The
identification and localization of outer membrane proteins
(Omps) and lipoproteins in pathogenic treponemes such as T. denticola (periodontitis) and T. pallidum (syphilis)
has been challenging. In this study, label-free quantitative proteomics
using MaxQuant was applied to naturally produced outer membrane vesicles
(OMVs) and cellular fractions to identify 1448 T. denticola proteins. Of these, 90 proteins were localized to the outer membrane
(OM) comprising 59 lipoproteins, 25 β-barrel proteins, and six
other putative OM-associated proteins. Twenty-eight lipoproteins were
localized to the inner membrane (IM), and 43 proteins were assigned
to the periplasm. The signal cleavage regions of the OM and IM lipoprotein
sequences were different and may reveal the signals for their differential
localization. Proteins significantly enriched in OMVs included dentilisin,
proteins containing leucine-rich repeats, and several lipoproteins
containing FGE-sulfatase domains. Blue native PAGE analysis enabled
the native size of the dentilisin complex and Msp to be determined
and revealed that the abundant β-barrel Omps TDE2508 and TDE1717
formed large complexes. In addition to the large number of integral
Omps and potentially surface-located lipoproteins identified in T. denticola, many such proteins were also newly identified
in T. pallidum through homology, generating
new targets for vaccine development in both species.