C. Wortham scite author profile

To study the mechanism by which endothelial cells respond to mechanical forces, we used digital fluorescence microscopy to measure changes in intracellular Ca2+ concentration ([Ca2+]i) in primary cultures of bovine aortic endothelial cells in response to mechanical stimulation. Before stimulation, [Ca2+]i was stable (approximately 50-75 nM). When an individual cell within the monolayer was mechanically stimulated with a microprobe, [Ca2+]i increased in the stimulated cell and spread in the form of a wave from the site of contact to the cell edges. After a delay of approximately 1 s, nonstimulated adjacent cells showed a similar spreading rise in [Ca2+]i. This outwardly radiating [Ca2+]i wave involved progressively more distal cells to a radius of 4-6 cells. The time delay before the wave appeared in adjacent cells increased, and peak [Ca2+]i in each cell decreased with distance from the stimulated cell. In the absence of extracellular Ca2+, there was no increase in [Ca2+]i in the stimulated cell, yet a wave of increased [Ca2+]i occurred in neighboring cells as if communicated from the stimulated cell. These results indicate that endothelial cell mechanosensitivity results in increases in [Ca2+]i and that the temporospatial dynamics of intercellular Ca2+ signaling are mediated by a diffusible substance other than Ca2+.

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A complex flow pattern of low shear stress and flow reversal promotes monocyte binding to endothelial cells

Honda

Hsiai

Wortham

et al. 2001

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Enhanced Protective Antibody Responses to PspA after Intranasal or Subcutaneous Injections of PspA Genetically Fused to Granulocyte-Macrophage Colony-Stimulating Factor or Interleukin-2

Wortham¹,

Grinberg²,

Kaslow

et al. 1998

Infect Immun

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Antibody to pneumococcal surface protein A (PspA) has been shown to be protective for Streptococcus pneumoniae infections in mice. In an attempt to define a model for inducing protective antibody to PspA in the absence of adjuvant, we designed two genetic fusions, PspA–interleukin-2 [IL-2]) and PspA–granulocyte-macrophage colony-stimulating factor (GM-CSF). These constructs maintained high cytokine function in vitro, as tested by their activity on IL-2 or GM-CSF-dependent cell lines. While intranasal immunization with PspA induced no detectable anti-PspA response, both PspA–IL-2 and PspA–GM-CSF stimulated high immunoglobulin G1 (IgG1) antibody responses. Interestingly, only the PspA–IL-2, not the PspA–GM-CSF, construct stimulated IgG2a antibody responses, suggesting that this construct directed the response along a TH1-dependent pathway. Comparable enhancement of the anti-PspA response with similar isotype profiles was observed after subcutaneous immunization as well. The enhancement observed with PspA–IL-2 was dependent on IL-2 activity in that it was not seen in IL-2 receptor knockout mice, while PspA in alum induced high-titer antibody in these mice. The antibody was tested for its protective activity in a mouse lethality model using S. pneumoniae WU-R2. Passive transfer of 1:90 dilutions of sera from mice immunized with PspA–IL-2 and PspA–GM-CSF elicited protection of CBA/N mice against intravenous challenge with over 170 50% lethal doses of capsular type 3 strain WU2. Only 0.17 μg or less of IgG antibody to PspA was able to provide passive protection against otherwise fatal challenge with S. pneumoniae. The data demonstrate that designing protein-cytokine fusions may be a useful approach for mucosal immunization and can induce high-titer systemic protective antibody responses.

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Bacterial lipoproteins may substitute for cytokines in the humoral immune response to T cell-independent type II antigens.

Snapper

Rosas²,

Jin³

et al. 1995

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Bacterial lipoproteins share a common structural motif that has been shown to stimulate proliferation and Ig secretion of murine B cells, in a manner distinct from that mediated by LPSs. Studies of lipoprotein-mediated B cell activation utilized heterogeneous populations of lymphoid cells, leaving unresolved their ability to directly activate resting B cells, as well as their ability to interact with other B cell stimuli. Using highly enriched and/or sort-purified resting murine B cells, we demonstrate that, in contrast to previous reports, lipoproteins (lipoprotein-D, lipoprotein-OspA, and/or the synthetic analogue Pam3Cys) stimulate little, if any, proliferation or Ig secretion in resting B cells. However, when combined with a multivalent membrane (m)Ig-mediated cross-linking signal, dextran-conjugated anti-IgD Abs (alpha delta-dex), lipoproteins mediate up to 10,000-fold inductions in IgM secretion and up to 25-fold enhancements in cellular proliferation relative to that observed with alpha delta-dex alone, in the absence of added cytokines. This mIg-mediated enhancement of Ig secretion was not observed when B cells were stimulated with bivalent, unconjugated anti-Ig. CD40 ligand (CD40L), shows a similar, although somewhat more moderate, synergy with lipoproteins for induction of proliferation and IgM secretion. By contrast, lipoproteins by themselves are relatively ineffective at costimulating Ig secretion in the presence of various combinations of cytokines. These data suggest that bacteria may induce Ag-specific humoral immunity through the action of bacterial polysaccharides that mediate an Ag-specific multivalent mIg signal, in concert with bacterial lipoproteins that deliver ancillary signals, without a requirement for recruitment of non-B cell types.

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CD8+ lymphocytes participate in the development of chronic rejection

Fischbein

Yun

Laks

et al. 2001

The Journal of Heart and Lung Transplantation

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C. Wortham

Mechanical stimulation induces intercellular calcium signaling in bovine aortic endothelial cells

A complex flow pattern of low shear stress and flow reversal promotes monocyte binding to endothelial cells

Enhanced Protective Antibody Responses to PspA after Intranasal or Subcutaneous Injections of PspA Genetically Fused to Granulocyte-Macrophage Colony-Stimulating Factor or Interleukin-2

Bacterial lipoproteins may substitute for cytokines in the humoral immune response to T cell-independent type II antigens.

CD8+ lymphocytes participate in the development of chronic rejection

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