| Literature DB >> 27795394 |
Katherine E Bonnington1, Meta J Kuehn2.
Abstract
The ability of Gram-negative bacteria to carefully modulate outer membrane (OM) composition is essential to their survival. However, the asymmetric and heterogeneous structure of the Gram-negative OM poses unique challenges to the cell's successful adaption to rapid environmental transitions. Although mechanisms to recycle and degrade OMEntities:
Mesh:
Substances:
Year: 2016 PMID: 27795394 PMCID: PMC5082901 DOI: 10.1128/mBio.01532-16
Source DB: PubMed Journal: mBio Impact factor: 7.867
FIG 1 Salmonella lipid A structures present under different environmental conditions. The colored additions (blue, additional phosphate; red, pEtN and l-Ara4N; green, palmitoyl chain) to the base structure are representative of variations present at pH 7.6 10 mM Mg2+ (A) and pH 5.8 10 µM Mg2+ (B). (C) Diagram indicating the infection events mimicked by the environmental shift conditions. Salmonellae invade epithelial cells and become contained within an acidifying vacuole in step 1. Step 2 is Salmonella replication within this acidic SCV. The third step is Salmonella release into the submucosa, while the fourth step is survival and dissemination in this location. (D) The various environmental shift protocols are listed, with the high Mg2+ concentration corresponding to 10 mM MgSO4 and the low Mg2+ concentration corresponding to 10 µM MgSO4.
FIG 2 Comparison of OM and OMV lipid A compositions under the 7.6H-to-7.6H condition. (A) Representative TLC separation of lipid A from WC time points (OM) and OMV from the 7.6H-to-7.6H condition. (B) Negative-ion ESI-MS showing the doubly charged lipid A species from 7.6H-to-7.6H OM (top) and OMV (bottom) 90-min time points. (C) Values of the ratios derived from densitometric quantification of the bands present in TLC separations. All ratios are in reference to band A. (D) Representation of densitometric ratios as percentages of the total composition. The ratios presented in panel C are percentages of the total sum of all of the ratios present per time point. The standard errors of the composition measurements at the different time points are shown in Fig. S6A in the supplemental material.
FIG 3 Comparison of OM and OMV lipid A compositions under the 7.6H-to-5.8L condition. (A) Representative TLC separation of lipid A from WC time points (OM) and OMVs from the 7.6H-to-5.8L condition. Some lanes have been adjusted in overall contrast for this presentation so the images can be more easily compared, but unaltered images were used during quantification. (B) Negative-ion ESI-MS showing the doubly charged lipid A species from the 7.6H-to-5.8L OM (upper) and OMVs (lower) at the 90-min time point. (C) Values of the ratios derived from densitometric quantification of the bands present in TLC separations. All ratios are in reference to band A. (D) Representation of the densitometric ratios as percentages of the total composition. The ratios presented in panel C are percentages of the total sum of all of the ratios present per time point. The standard errors of the composition measurements at the different time points are shown in Fig. S6B in the supplemental material.
FIG 4 Comparison of OM and OMV lipid A compositions under the 5.8L-to-5.8L condition. (A) Representative TLC separation of lipid A from WC time points (OM) and OMVs from the 5.8L-to-5.8L condition. (B) Negative-ion ESI-MS showing the doubly (m/z 800 to 1,200) and singly (m/z 1,700 to 2,200) charged lipid A species from the 5.8L-to-5.8L OM (upper) and OMVs (lower) at the 90-min time point. (C) Values of the ratios derived from densitometric quantification of the bands present in TLC separations. All ratios are in reference to band A. (D) Representation of densitometric ratios as percentages of the total composition. The ratios presented in panel C are percentages of the total sum of all of the ratios present per time point. The standard errors of the composition measurements at the different time points are shown in Fig. S6C in the supplemental material.
FIG 5 Comparison of OM and OMV lipid A compositions under the 5.8L-to-7.6H condition. (A) Representative TLC separation of lipid A from WC time points (OM) and OMVs from the 5.8L-to-7.6H condition. (B) Values of the ratios derived from densitometric quantification of the bands present in TLC separations. All ratios are in reference to band A. (C) Representation of the densitometric ratios as percentages of the total composition. The ratios presented in panel B are percentages of the total sum of all of the ratios present per time point. The standard errors of the composition measurements at the different time points are shown in Fig. S6D in the supplemental material.
Cellular lipid A composition after 90 min of environmental shift
| Growth condition | [M-H]−p | No. of groups at 1 and/or 4′ position | No. of acyl chain additions | |||||
|---|---|---|---|---|---|---|---|---|
| P | di-P | P-pEtN | P- | C16:0 | OH | |||
| 7.6H to 7.6H | 1,718 | 1,715 | 1 | |||||
| 1,798 | 1,775 | 2 | ||||||
| 1,798 | 1,796 | 2 | ||||||
| 1,813 | 1,811 | 2 | 1 | |||||
| 1,878 | 1,876 | 1 | 1 | |||||
| 7.6H to 5.8L | 1,798 | 1,775 | 2 | |||||
| 1,798 | 1,796 | 2 | ||||||
| 1,813 | 1,811 | 2 | 1 | |||||
| 1,841 | 1,838 | 1 | ||||||
| 1,856 | 1,854 | 1 | 1 | |||||
| 1,921 | 1,918 | 1 | 1 | |||||
| 1,929 | 1,926 | 1 | 1 | |||||
| 2,036 | 2,033 | 2 | 1 | |||||
| 2,053 | 2,049 | 1 | 1 | |||||
| 2,068 | 2,065 | 1 | 1 | 1 | ||||
| 5.8L to 5.8L | 1,718 | 1,716 | 1 | |||||
| 1,734 | 1,732 | 1 | 1 | |||||
| 1,751 | 2 | |||||||
| 1,767 | 2 | |||||||
| 1,798 | 1,796 | 2 | ||||||
| 1,850 | 1,847 | 1 | ||||||
| 1,865 | 1,863 | 1 | 1 | |||||
| 1,878 | 1,882 | 1 | 1 | |||||
| 1,894 | 1,898 | 1 | 1 | 1 | ||||
| 1,957 | 1,954 | 1 | ||||||
| 2,088 | 2,086 | 1 | 1 | |||||
| 2,103 | 2,101 | 1 | 1 | 1 | ||||
| 2,117 | 2,120 | 1 | 1 | 1 | ||||
| 2,133 | 2,136 | 1 | 1 | 1 | 1 | |||
| 2,160 | 2,161 | 1 | 1 | 1 | ||||
| 2,175 | 2,180 | 1 | 1 | 1 | 1 | |||
| 2,283 | 2,287 | 2 | 1 | |||||
| 2,298 | 2,303 | 2 | 1 | 1 | ||||
The Mr is the calculated molecular weight of the proposed structure; italicized values indicate less certainty in assignments.
−p is the predicted value for singly charged MS ions.
P, unsubstituted monophosphate.
di-P, unsubstituted diphosphate; at the 1 position.
P-pEtN, diphosphoethanolamine; at either the 1 or the 4′ position but likely at the 1 position when l-Ara4N is present.
P-l-Ara4N, phospho-l-Ara4N.
C16:0, palmitate addition mediated by pagP.
OH, in 2-hydroxymyristate mediated by lpxO.
FIG 6 OMV production under environmental shift conditions. The relative OMV production, normalized to the CFU count, during the 90-min period under the 7.6H-to-7.6H and 7.6H-to-5.8L (A and B) and 5.8L-to-5.8L and 5.8L-to-7.6H (C and D) conditions, as calculated for protein content by OMP densitometry (A and C) and lipid content by FM4-64 fluorescence (B and D). For all conditions, n >3; *, statistically significant differences (P < 0.05) between production values for the pairs of conditions indicated.
FIG 7 OMV morphology under environmental shift conditions. Shown are representative TEM micrographs of negatively stained OMVs collected from 90 min under the 7.6H-to-7.6H (A), 7.6H-to-5.8L (B), 5.8L-to-5.8L (C), and 5.8L-to-7.6H (D) conditions. Size bars, 200 nm (A and B) and 500 nm (C and D). (E) Mean, median, and mode of diameters of OMVs from each environmental shift condition (over three different micrographs, n ≥55). (F and G) Distribution of the measured OMV diameters under the 7.6H-to-7.6H and 7.6H-to-5.8L conditions (F) and the 5.8L-to-5.8L and 5.8L-to-7.6H conditions (G).
FIG 8 Comparison of experimentally determined OMV composition by using theoretical stochastic models. The percent composition of each lipid A species ratio is shown. The observed experimental data are shown next to theoretical values based upon the composition of the OM over time under each condition. (A) Experimental 7.6H-to-7.6H OMV compositions display the least difference from the predicted composition, whereas the 7.6H-to-5.8L values deviate somewhat from the respective predicted compositions. (B) Experimental 5.8L-to-5.8L and 5.8L-to-7.6H OMV compositions deviate substantially from the predicted respective compositions. (C) The seven main lipid A structures present during the 5.8L-to-5.8L shift are shown here as three-dimensional space-filling models (in typical Corey-Pauling-Koltun coloring, with the majority of the H atoms not shown for simplicity). The placement of each molecule on the x axis represents its propensity to be retained in the OM (left, blue), expelled in OMVs (right, red), or neither (center, purple), as estimated from the ESI-MS data presented in Table S1 in the supplemental material. A calculation combining estimations for the van der Waals volume of each molecule’s head group (HG V) and acyl chains (hydrocarbon V), along with the net charge (absolute value used in calculation) of each molecule was used to place the molecules along the y axis. The values for the HGV*|charge|/HCV ratio are shown from low (red) to high (yellow).