Trehalose 6,6-Dimycolate from Mycobacterium tuberculosis Induces Hypercoagulation.

Tuberculosis (TB) remains a global health concern. Trehalose 6'6-dimycolate (TDM) activates innate inflammation and likely also stimulates chronic inflammation observed during disease progression. Noninfectious models using purified TDM oil/water emulsions elicit pathologic findings observed in patients with TB. We introduce a new TDM model that promotes inflammatory lung pathologic findings and vascular occlusion and hemorrhage. C57BL/6 and BALB/c mice were injected with 10 µg of i.p. TDM in light mineral oil (TDM-IP). At day 7, another injection of 10 µg of i.v. TDM in oil/water emulsion was given (TDM-IV). The i.p./i.v. TDM (TDM-IVIP) group was compared with mice injected once with i.v. or i.p. TDM. The responses to TDM-IP, TDM-IV, or TDM-IPIV were consistent between mouse strains. Mice that received TDM-IV and TDM-IPIV had inflammatory pathologic findings with increases in inflammatory and T-cell cytokines, and the TDM-IPIV group had further enhancement of IL-10 and granulocyte-macrophage colony-stimulating factor. The TDM-IPIV group had increased CD4(+) T cells in lung tissue, significantly increased coagulation, decreased clot formation time, and increased maximum clot firmness. Masson's trichrome staining revealed increased deposition of collagen in the occluded vasculature. TDM-IPIV promotes a hypercoagulopathy state, independent of inflammation. This new model argues that TDM is sufficient to generate the hypercoagulopathy observed in patients with TB.

CHO expressed recombinant human lactoferrin as an adjuvant for BCG.

Lactoferrin (LF), an iron binding protein with immune modulatory activities, has adjuvant activity to enhance vaccine efficacy. Tuberculosis (TB) is a pulmonary disease caused by the pathogen Mycobacterium tuberculosis (MTB). Progressive TB disease is clinically defined by damaging pulmonary pathology, a result of inflammation due to immune reactivity. The current vaccine for TB, an attenuated strain of Mycobacterium bovis, Bacillus Calmette Guerin (BCG), has only limited efficacy to prevent adult pulmonary TB. This study examines a Chinese hamster ovary (CHO) expressed recombinant human LF (rHLF) to boost efficacy of the BCG vaccine and delay early pathology post infectious challenge. C57BL/6 mice were immunized with BCG, or BCG admixed with either rHLF or bovine LF (bLF; internal control), or remained unvaccinated. Mice were then aerosol challenged with Erdman MTB. All vaccinated mice demonstrated decreased organ bacterial load up to 19 weeks post infection compared with non-vaccinated controls. Furthermore, mice receiving bLF or rHLF supplemented BCG vaccines showed a modest decrease in lung pathology developed over time, compared to the BCG vaccine alone. While mice vaccinated with BCG/rHLF demonstrated increased general lung inflammation at day 7, it occurred without noticeable increase in pro-inflammatory cytokines. At later times, decreased pathology in the rHLF groups correlated with decreased inflammatory cytokines. Splenic recall to BCG antigens showed BCG/rHLF vaccination increased production of IFN-γ, IL-6, and GM-CSF compared to naïve, BCG, and BCG/bLF groups. Analysis of T cell stimulating functions of bone marrow derived macrophages and dendritic cells treated with BCG/bLF or BCG/rHLF showed decreases in IL-10 production when co-cultured with sensitized CD4 and CD8 T cells, compared to those cultured with macrophages/dendritic cells treated with BCG without LF. These results indicate that addition of rHLF to the BCG vaccine can modulate development of host pathology early post infectious challenge, most likely through host immune regulation affecting hypersensitive responses.

Effects of CHO-expressed recombinant lactoferrins on mouse dendritic cell presentation and function.

Lactoferrin (LF), a natural iron-binding protein, has previously demonstrated effectiveness in enhancing the Bacillus Calmette-Guérin (BCG) tuberculosis vaccine. This report investigates immune modulatory effects of Chinese hamster ovary (CHO) cell-expressed recombinant mouse and human LFs on mouse bone marrow-derived dendritic cells (BMDCs), comparing homologous and heterologous functions. BCG-infected BMDCs were cultured with LF, and examined for class II presentation molecule expression. Culturing of BCG-infected BMDCs with either LF decreased the class II molecule-expressing population. Mouse LF significantly increased the production of IL-12p40, IL-1ß and IL-10, while human LF-treated BMDCs increased only IL-1ß and IL-10. Overlaying naïve CD4 T-cells onto BCG-infected BMDCs cultured with mouse LF increased IFN-γ, whereas the human LF-exposed group increased IFN-γ and IL-17 from CD4 T cells. Overlay of naïve CD8 T cells onto BCG-infected BMDCs treated with mouse LF increased the production of IFN-γ and IL-17, while similar experiments using human LF only increased IL-17. This report is the first to examine mouse and human recombinant LFs in parallel experiments to assess murine DC function. These results detail the efficacy of the human LF counterpart used in a heterologous system to understand LF-mediated events that confer BCG efficacy against Mycobacterium tuberculosis challenge.

Bidirectional (negative/positive) interference of oleandrin and oleander extract on a relatively new Loci digoxin assay using Vista 1500 analyzer.

BACKGROUND: Oleander interferes with serum digoxin measurements using various immunoassays. The potential interference of oleander and its active ingredient, oleandrin, with a relatively new homogenous sequential chemiluminescent digoxin assay based on luminescent oxygen channeling technology (LOCI digoxin assay, Siemens Diagnostics) has not been previously reported. METHODS: Aliquots of a digoxin-free serum pool were supplemented with increasing concentrations of oleandrin, or with oleander extract, followed by measuring the apparent digoxin concentrations using the LOCI digoxin assay using Vista 1500 analyzer. Mice were fed oleandrin or oleander extract, and their blood digoxin levels at 1 and 2 h were measured with the LOCI digoxin assay. In addition, two digoxin serum pools were prepared by combining sera of patients receiving digoxin; aliquots of both pools were supplemented with oleandrin or oleander extract and digoxin concentrations were again measured. Attempts to overcome this interference were made by measuring free digoxin concentration using a third digoxin pool. RESULTS: Significant apparent digoxin concentrations were observed after supplementing aliquots of the drug-free serum pool with oleandrin or oleander extract. Mice fed with oleandrin or oleander extract also showed apparent digoxin levels 1 and 2 h after feeding. Digoxin values were also falsely lower or elevated (bidirectional interference) when aliquots of digoxin serum pools were further supplemented with oleandrin or oleander extract depending on concentration; this interference was not eliminated by free digoxin monitoring. CONCLUSIONS: Oleandrin interferes with LOCI digoxin assay.

Influence of oral lactoferrin on Mycobacterium tuberculosis induced immunopathology.

The ability of lactoferrin to provide protection and decrease immunopathology in infectious diseases was evaluated using an aggressive aerosol model of Mycobacterium tuberculosis (MTB) infection. C57BL/6 mice were challenged with MTB strain Erdman and treated with 0.5% bovine lactoferrin added to the drinking water starting at day 0 or day 7 post-infection. Mice were sacrificed at three weeks post-challenge and evaluated for organ bacterial burden, lung histopathology, and ELISpot analysis of the lung and spleen for immune cell phenotypes. Mice given tap water alone had lung log10 colony forming units (CFUs) of 7.5 ± 0.3 at week 3 post-infection. Lung CFUs were significantly decreased in mice given lactoferrin starting the day of infection (6.4 ± 0.7), as well as in mice started therapeutically on lactoferrin at day 7 after established infection (6.5 ± 0.4). Quantitative immunohistochemistry using multispectral imaging demonstrated that lung inflammation was significantly reduced in both groups of lactoferrin treated mice, with decreased foamy macrophages, increased total lymphocytes, and increased numbers of CD4+ and CD8+ cells. ELISpot analysis showed that lactoferrin treated mice had increased numbers of CD4 + IFN-γ+ and IL-17 producing cells in the lung, cells that have protective functions during MTB infection. Lactoferrin alone did not alter the proliferation of MTB in either broth or macrophage culture, but enhanced IFN-γ mediated MTB killing by macrophages in a nitric oxide dependent manner. These studies indicate that lactoferrin may be a novel therapeutic for the treatment of tuberculosis, and may be useful in infectious diseases to reduced immune-mediated tissue damage.

Comparing efficacy of BCG/lactoferrin primary vaccination versus booster regimen.

Lactoferrin is an iron binding glycoprotein possessing multiple immune modulatory activities, including ability to affect macrophage cytokine production, promote maturation of T- and B-lymphocyte and immature dendritic cells, and enhance the ability of macrophages and dendritic cells to stimulate antigen-specific T-cells. These characteristics of lactoferrin suggested that it could function as an effective adjuvant enhance efficacy of the BCG, the current vaccine for tuberculosis disease. Admix of lactoferrin to the BCG vaccine promoted host protective responses that surpasses activity of the BCG vaccine alone as determined by decreasing pulmonary pathology upon challenge with virulent Mycobacterium tuberculosis (MTB). This study builds on previous reports by examining the effectiveness of the lactoferrin adjuvant comparing primary vaccination versus an immunization schedule with a booster administered at 8 weeks. BCG/lactoferrin vaccinating, given once or twice, demonstrated an improvement in pulmonary disease compared to both the BCG vaccinated and non-immunized groups. The splenic recall profiles showed a difference in cytokine production induced by mycobacterial antigen from splenocytes isolated from mice immunized with BCG/lactoferrin once or twice. Production of IL-17 is increased in the BCG/lactoferrin 2× group compared to the primary vaccinated group. Both BCG/lactoferrin vaccinated group exhibited increase production of IFN-γ compared to the non-immunized group and decreased production of IL-10 compared to the group vaccinated with only BCG. This study illustrates that the adjuvant activity of lactoferrin to enhance BCG efficacy occurs whether the vaccination regimen is a single delivery or combined with a booster, leading to enhanced host protection and decreased disease manifestation.

Effect of Chinese medicines Chan Su, Asian ginseng, Siberian ginseng, and American ginseng on a new digoxin immunoassay based on luminescent oxygen channeling technology.

BACKGROUND: Chan Su, Asian ginseng, Siberian ginseng, and American ginseng are known to interfere with various digoxin immunoassays. Recently, a homogeneous sequential chemiluminescent assay for digoxin based on the luminescent oxygen channeling technology (LOCI digoxin) for application on the Dimension and Vista platform has been introduced into the market. The effects of interference by Chan Su and various ginsengs on this new immunoassay have not yet been reported. MATERIALS AND METHODS: Aliquots of a drug-free serum pool were supplemented with Chan Su, Asian ginseng, Siberian ginseng, and American ginseng representing the expected in vivo concentrations after normal usage and cases of overdose. Serum digoxin concentrations were measured using the LOCI digoxin assay on the Vista 1500 analyzer. We also prepared 3 digoxin pools from patients receiving digoxin. Two digoxin pools were supplemented with these traditional medicines to investigate their effect on serum digoxin measurements. Mice were fed Chan Su extract to determine the potential of in vivo derived interfering factors. The possibility of eliminating interference of Chan Su on serum digoxin measurement was also investigated, by measuring free digoxin concentration after supplementing aliquots of the third digoxin pool with various amounts of Chan Su extract. RESULTS: A clinically significant interference by Chan Su with serum digoxin measurement was observed using the LOCI digoxin assay. The various ginsengs demonstrated negligible effects. In addition, apparent digoxin concentrations were observed in sera of mice after feeding them with Chan Su; the half-life of digoxin-like immunoreactive components was approximately 1 hour. Moreover, serum digoxin concentrations were significantly elevated in the presence of Chan Su, whereas the various ginsengs exhibited no effect. Monitoring free digoxin can only partly eliminate the interference of Chan Su in serum digoxin measurement. CONCLUSIONS: Chan Su interferes with serum digoxin measurement using the LOCI Digoxin, whereas the ginsengs demonstrated no measurable interference at clinically relevant concentrations.

Lactoferrin enhances efficacy of the BCG vaccine: comparison between two inbred mice strains (C57BL/6 and BALB/c).

The current vaccine for tuberculosis (TB), an attenuated strain of Mycobacterium bovis Bacillus Calmette Guerin (BCG), is effective to prevent childhood onset of the disease, but its efficacy is reduced in adults. One strategy to improve the existing vaccine is to develop more effective adjuvants. Lactoferrin, an iron-binding glycoprotein possessing immune modulatory activities, is a promising adjuvant candidate. The studies presented here examine the effect of lactoferrin to enhance efficacy of the BCG vaccine using a vaccination/challenge protocol (8 weeks boost and challenge at 12 weeks post-boost) that focuses on reduction in development of pathological changes to lung tissue. C57BL/6 and BALB/c mice vaccinated with BCG/lactoferrin exhibited protection upon Mycobacterium tuberculosis (MTB) challenge, showing reduced pulmonary disease pathology and decreased organ bacterial load. In addition, BCG/lactoferrin-treated macrophages isolated from BALB/c mice, which express a relative reduced T(H)1 phenotypic response to MTB antigens compared to the C57BL/6 mouse, were able to activate a higher percentage of IFN-gamma-producing CD4+ splenocytes. Overall, lactoferrin stands as an adjuvant capable of enhancing efficacy of the BCG vaccine through induction of T(H)1 immune responses, even in hosts typically demonstrative of reduced T(H)1 responsiveness to BCG antigens.

Lactoferrin modulation of BCG-infected dendritic cell functions.

Lactoferrin, an 80-kDa iron-binding protein with immune modulating properties, is a unique adjuvant component able to enhance efficacy of the existing Mycobacterium bovis Bacillus Calmette Guerin (BCG) vaccine to protect against murine model of tuberculosis. Although identified as having effects on macrophage presentation events, lactoferrin's capability to modulate dendritic cells (DCs) function when loaded with BCG antigens has not been previously recognized. In this study, the potential of lactoferrin to modulate surface expression of MHC II, CD80, CD86 and CD40 from bone marrow-derived dendritic cells (BMDCs) was examined. Generally, lactoferrin decreased pro-inflammatory cytokines [tumor necrosis factor (TNF)-alpha, IL-6 and IL-12p40] and chemokines [macrophage inflammatory protein (MIP)-1alpha and MIP-2] and increased regulatory cytokine, transforming growth factor-beta1 and a T-cell chemotatic factor, monocyte chemotactic protein-1, from uninfected or BCG-infected BMDCs. Culturing BCG-infected BMDCs with lactoferrin also enhanced their ability to respond to IFN-gamma activation through up-regulation of maturation markers: MHC I, MHC II and the ratio of CD86:CD80 surface expression. Furthermore, lactoferrin-exposed BCG-infected DCs increased stimulation of BCG-specific CD3(+)CD4(+) splenocytes, as defined by increasing IFN-gamma production. Finally, BCG-/lactoferrin-vaccinated mice possessed an increased pool of BCG antigen-specific IFN-gamma producing CD3(+)CD4(+)CD62L(-) splenocytes. These studies suggest a mechanism in which lactoferrin may exert adjuvant activity by enhancing DC function to promote generation of antigen-specific T cells.

A novel recombinant human lactoferrin augments the BCG vaccine and protects alveolar integrity upon infection with Mycobacterium tuberculosis in mice.

Lactoferrin, an iron binding glycoprotein, possesses multiple immune modulatory activities, including the ability to promote antigen specific cell-mediated immunity. Previous studies showed that adding bovine lactoferrin to the BCG vaccine (an attenuated strain of Mycobacterium bovis Bacillus Calmette Guerin) resulted in increased host protective responses upon subsequent challenge with virulent Erdman Mycobacterium tuberculosis (MTB) in mice. The studies outlined here investigate utility of a novel recombinant human lactoferrin to enhance the BCG vaccine and protect against alveolar injury during experimental MTB infection in mice. Sialylated and non-sialylated forms of the recombinant human lactoferrin (rhLF), glycoengineered in yeast (Pichia pastoris) and expressing humanized N-glycosylation patterns, were examined for their ability to enhance efficacy of the BCG vaccine in a murine TB model system. Results indicated that the sialylated form of the recombinant human lactoferrin generated increased antigen specific recall responses to BCG antigens. Furthermore, augmented protection was demonstrated using the sialylated lactoferrin adjuvant with BCG, resulting in significant reduction in associated pathology following challenge with virulent organisms.

Immune modulation of macrophage pro-inflammatory response by goldenseal and Astragalus extracts.

Goldenseal (Hydrastis canadenisis) is a native American medicinal plant used as an immune stimulant. Astragalus (Astragalus membranaceus) is a widely used herbal product in China, other Asian countries, and the United States as an immune stimulant to be taken on first clinical signs of infection. In this study, the innate effects of goldenseal and Astragalus on pro-inflammatory cytokines produced by cultured macrophages were examined using two different commercial preparations of goldenseal and Astragalus. Both goldenseal and Astragalus were found to exhibit little to no direct effect on stimulation of mouse macrophages (J774A.1 cells), with only Astragalus able to affect production of tumor necrosis factor (TNF)-alpha when used in high concentrations. However, both goldenseal and Astragalus were able to modify responses from lipopolysaccharide-stimulated macrophages, with identified immunomodulatory effects to reduce production of TNF-alpha, interleukin (IL)-6, IL-10, and IL-12 in a dose-dependent manner. The results obtained indicate that both goldenseal and Astragalus exhibit abilities to modulate macrophage responses during stimulation. Therefore, it is hypothesized that their historical use as therapeutic agents may be due to reduction in the pro-inflammatory response that indirectly leads to limiting of clinical symptoms during infection. Both products differ in their immune stimulatory patterns, offering insight into differential use and therapeutic potential of these products to regulate macrophage immune responses and activation events.

Lactoferrin enhanced efficacy of the BCG vaccine to generate host protective responses against challenge with virulent Mycobacterium tuberculosis.

Tuberculosis (TB), caused by Mycobacterium tuberculosis (MTB), is a disease with world wide consequences, affecting nearly a third of the world's population. The established vaccine for TB, an attenuated strain of Mycobacterium bovis Calmette Guerin (BCG), has existed since 1921. Lactoferrin, an iron-binding protein found in mucosal secretions and granules of neutrophils was hypothesized to be an ideal adjuvant to enhance the efficacy of the BCG vaccine, specifically because of previous reports of lactoferrin enhancement of IL-12 production from macrophages infected with BCG. Different vaccination protocols were investigated for generation of host protective responses against MTB infection using lactoferrin admixed to the BCG vaccine. Resulting effects demonstrate that BCG/lactoferrin increased host protection against MTB infection by decreasing organ bacterial load and reducing lung histopathology; significant reduction in tissue CFUs and pathology were observed post-challenge compared to those seen with BCG alone. Addition of lactoferrin to the vaccine led to reduced pathological damage upon subsequent infection with virulent MTB, with positive results demonstrated when admixed in oil-based vehicle (incomplete Freund's adjuvant, IFA) or when given with BCG in saline. The observed post-challenge results paralleled increasing production of IFN-gamma and IL-6, but only limited changes to proinflammatory mediators TNF-alpha or IL-1beta from BCG-stimulated splenocytes. Overall, these studies indicate that lactoferrin is a useful and effective adjuvant to improve efficacy of the BCG vaccine, with potential to reduce related tissue damage and pulmonary histopathology.

Lactoferrin augments BCG vaccine efficacy to generate T helper response and subsequent protection against challenge with virulent Mycobacterium tuberculosis.

The ability to control intracellular Mycobacterium tuberculosis (MTB) infection relies on cellular immunity and generation of a strong T-cell helper 1 (T(H)1) response. Lactoferrin, an iron-binding protein with immune regulatory functions, was investigated as an adjuvant to boost Mycobacterium bovis Bacillus Calmette-Guerin (BCG) efficacy. Lactoferrin was initially shown to augment IL-12(p40) production from macrophages stimulated with LPS. A single immunization of mice with Lactoferrin as an adjunct adjuvant resulted in amplified splenocyte proliferative response to heat-killed BCG, and elevated IL-12(p40) production with increased relative ratios of IL-12/IL-10. Furthermore, splenocyte recall response to HK-BCG was augmented for proinflammatory mediators, TNF-alpha, IL-1beta, and IL-6, approaching responses generated to complete Freund's adjuvant (CFA) immunized controls. Specific responses were identified, with significant elevation of IFN-gamma generated during antigenic recall. Subsequent aerosol challenge of Lactoferrin adjuvant immunized mice with virulent M. tuberculosis revealed decreased mycobacterial loads in the lung, and limitation of organism dissemination to a peripheral organ (spleen). These studies indicate that Lactoferrin can act as an adjunct adjuvant to augment cellular immunity and boost BCG efficacy for protection against subsequent challenge with virulent MTB.

Cytokine production by non-adherent mouse splenocyte cultures to Echinacea extracts.

BACKGROUND: Echinacea is commonly used in oral dosage as an immune stimulant to increase resistance to viral, bacterial and fungal infections of the upper respiratory tract. It has been suggested that Echinacea is able to stimulate innate immune responses, including those regulated by macrophages and natural killer cells. Indeed, macrophages respond to purified polysaccharide and alkylamide preparations. However, the mechanisms for stimulation of cells responsible for adaptive immunity have not been fully elucidated for other molecules present in Echinacea purpurea preparations. METHODS: Adherent and non-adherent mouse splenocyte populations were incubated in vitro with Echinacea, or with water or alcohol soluble Echinacea extract preparations. Supernatants were collected at 48-h post-incubation, and tested by standard ELISA for presence of secreted cytokines and proinflammatory mediators. RESULTS: Whole splenocyte populations were capable of producing significant amounts IL-6 (1014 pg/ml) in response to Echinacea preparations. The response was primarily contained towards products isolated to the water extract preparation; no IL-6 was produced upon challenge with the alcohol extract. The IL-6 response was produced by the non-adherent cellular population, which made 4912 pg/ml IL-6 when treated with water soluble extract at 1 mg/ml. Likewise, the water soluble extract of Echinacea was able to stimulate non-adherent splenocyte populations to produce TNF-alpha (2082 pg/ml), IL-10 (892 pg/ml) and MIP-1alpha (6486 pg/ml) from non-adherent splenocytes, but only significant concentrations of TNF-alpha and MIP-1alpha mediators were produced from adherent populations at similar dose concentrations. Neither population of splenocytes was capable of stimulating significant production of IFN-gamma, IL-2 or IL-12 to any preparation of Echinacea examined. CONCLUSIONS: The immune stimulatory ability of components contained within E. purpurea extracts offer insight into possible therapeutic potential of this product to regulate non-adherent lymphocytes in immune responses and activation events.