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Human neuroglial cells internalize Borrelia burgdorferi by coiling phagocytosis mediated by Daam1

PLoS ONE (2018) 13(5)
DOI: 10.1371/journal.pone.0197413
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Abstract

Borrelia burgdorferi, the agent of Lyme borreliosis, can elude hosts’ innate and adaptive immunity as part of the course of infection. The ability of B. burgdorferi to invade or be internalized by host cells in vitro has been proposed as a mechanism for the pathogen to evade immune responses or antimicrobials. We have previously shown that B. burgdorferi can be internalized by human neuroglial cells. In this study we demonstrate that these cells take up B. burgdorferi via coiling phagocytosis mediated by the formin, Daam1, a process similarly described for human macrophages. Following coincubation with glial cells, B. burgdorferi was enwrapped by Daam1-enriched coiling pseudopods. Coiling of B. burgdorferi was significantly reduced when neuroglial cells were pretreated with anti-Daam1 antibody indicating the requirement for Daam1 for borrelial phagocytosis. Confocal microscopy showed Daam1 colocalizing to the B. burgdorferi surface suggesting interaction with borrelial membrane protein(s). Using the yeast 2-hybrid system for identifying protein-protein binding, we found that the B. burgdorferi surface lipoprotein, BBA66, bound the FH2 subunit domain of Daam1. Recombinant proteins were used to validate binding by ELISA, pull-down, and co-immunoprecipitation. Evidence for native Daam1 and BBA66 interaction was suggested by colocalization of the proteins in the course of borrelial capture by the Daam1-enriched pseudopodia. Additionally, we found a striking reduction in coiling for a BBA66-deficient mutant strain compared to BBA66-expressing strains. These results show that coiling phagocytosis is a mechanism for borrelial internalization by neuroglial cells mediated by Daam1.

Figures

  • Fig 1. H4 and HS683 cells internalize B. burgdorferi by coiling phagocytosis. Coiling phagocytosis of B. burgdorferi by H4 and HS683 neuroglial cells viewed at 63X magnification after 1, 4, 8, and 12 hrs post-coincubation. A) H4 cells incubated with B. burgdorferi; B) HS683 incubated with B. burgdorferi. Fields are: left panel) anti-Daam1 stained with Alexafluor 594 (red); middle panel) GFP-B. burgdorferi (green); right panel) merged image. Note that after a few hours incubation, Daam1 enriched pseudopods engulf the spirochetes. Yellow in merged images indicate Daam1 colocalizing with B. burgdorferi outer membrane (arrows). ICQ values are denoted quantifying colocalization as described in Methods.
  • Fig 2. Anti-Daam1 antibody treatment of host cells reduces B. burgdorferi phagocytosis. Bars represent number of coiling events per 1000 host cells. Coiling event is defined as a host cell with a Daam1-stained pseudopod coiling around a B. burgdorferi cell. Asterisks denote P-value< 0.01 by Two-way ANOVA Sidak’s multiple comparisons test. Graphs represent the mean of all experiments.
  • Fig 3. Recombinant BBA66 and FH2/Daam1 binding by Y2H confirmation and validating binding assays. A) Amino acid sequence and location of the Y2H Daam1-FH2 insert on the Daam1. Human Daam1 protein is illustrated at the top with the subdomains; GTPase binding domain (GBD); diaphanous inhibitory domain (DID); dimerization domain (DD); coiled coil (CC); formin-homology-1 (FH1); formin-homology-2 (FH2); diaphanous auto-regulatory domain (DAD). The FH2 subdomains are shown based on the crystal structure [33, 34]. B) left panel: Y2HGold yeast cotransformed with both BBA66-pGBKT7 and Daam1/ FH2-pGADT7 and plated on quadruple dropout media (left side of plate). Y2HGold yeast cotransformed with control plasmid BBA64-pGBKT7 and Daam1/FH2-pGADT7 (right side of plate); right panel: Recombinant Y2H Daam1/FH2 on SDS-PAGE stained with GelCode Blue, and Recombinant Y2H Daam1/FH2 immunoblot with anti-Daam1. Molecular weight markers are denoted on the left in kilodaltons. C) Binding profiles by ELISA. (left) Recombinant BBA66 binding to antigens at 500 ng protein/well, p value determined by one-way ANOVA; (right) dose dependent binding of recombinant BBA66 to recombinant FH2/Daam1 and BSA control, p value determined by two-way ANOVA. denotes p value< 0.001. D) Pull down assay binding of BBA66 and FH2/Daam1 by silver stained SDS-PAGE. Lanes: 1) purified recombinant FH2/Daam1; 2) purified recombinant BBA66; 3–5) elution fraction of pull down, 3) FH2/Daam1 only; 4) BBA66 only; 5) FH2/Daam1 and BBA66. Equal concentrations of protein were subjected to each pull down reaction and loaded in each lane. Arrows denote position of rBBA66, rFH2/Daam1. Molecular weight markers are denoted to the left. Asterisk in lane 3 denotes the 60 kDa subunit of streptavidin that eluted from the beads. E) CO-IP binding of FH2/Daam1 and BBA66 complex to anti-BBA66 antibody. Left) GelCode Blue staining; Lanes: 1) FH2/Daam1 only elution from protein G beads; 2) FH2/Daam1 and BBA66 elution from protein G beads. Right) Immunoblot probed with both anti-Daam1 and anti-BBA66 to identify bands in left panel, lane 2. Arrows indicate IgG heavy chain (50 kDa), BBA66 (45 kDa), IgG light chain (25 kDa), and FH2/Daam1 (17 kDa). Heavy and light chain appear on blot due to reaction with secondary alkaline-phosphatase conjugated anti-IgG.
  • Fig 4. Colocalization of BBA66 to Daam1 during neuroglial cell infection. A) Western blot demonstrating BBA66 production by the BBA66-expressing B. burgdorferi strains. Lanes: 1) B31:pBSV2G-BBA66 pre- induced; 2) B31: pBSV2G-BBA66 induced; 3) B31:pMC2498-BBA66 pre induced; 4) B31:pMC2498-BBA66 induced; 5) B31-A3 WT grown at 34˚C; 6) B31-A3 WT grown at 37˚C; 7) BBA66 knockout mutant strain; 8) recombinant BBA66. B) IFA of induced B31:pMC2498-BBA66. B. burgdorferi are stained green and BBA66 stained red. Arrows indicate subpopulations of cells expressing BBA66 that appear with red punctate on green background. C) Colocalization of Daam1 to BBA66 during host H4 cell infection. B. burgdorferi stained with fluorescein (green), BBA66 stained with Alexafluor 594 (red), and Daam1 stained with Pacific Blue (blue) in the psuedopodia. Arrow indicates Daam1-BBA66 area of colocalization by merged blue and red color.
  • Fig 5. BBA66 knockout mutant strain demonstrates reduced coiling phagocytosis compared to BBA66-expressing strains. A) Bars represent number of coiling events per 1000 host cells. Coiling event is defined as a host cell with a Daam1-stained pseudopod coiling around a B. burgdorferi cell. Asterisks denote P-value< 0.001 by Two-way ANOVA Tukeys’s multiple comparisons test. Graphs represent the mean of all experiments. B) Representative field of H4 cell infection at 2 hrs post-incubation with B31: pMC2498-BBA66 (left panel) and with BBA66 knockout mutant strain (right panel). Daam1 stained red and B. burgdorferi and host cell nucleus stain blue by DAPI.

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Williams, S. K., Weiner, Z. P., & Gilmore, R. D. (2018). Human neuroglial cells internalize Borrelia burgdorferi by coiling phagocytosis mediated by Daam1. PLoS ONE, 13(5). https://doi.org/10.1371/journal.pone.0197413

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