The Effect of Tuberculosis Antimicrobials on the Immunometabolic Profiles of Primary Human Macrophages Stimulated with Mycobacterium tuberculosis.

Tuberculosis (TB) remains a global health challenge. Patients with drug-sensitive and drug-resistant TB undergo long, arduous, and complex treatment regimens, often involving multiple antimicrobials. While these drugs were initially implemented based on their bactericidal effects, some studies show that TB antimicrobials can also directly affect cells of the immune system, altering their immune function. As use of these antimicrobials has been the mainstay of TB therapy for over fifty years now, it is more important than ever to understand how these antimicrobials affect key pathways of the immune system. One such central pathway, which underpins the immune response to a variety of infections, is immunometabolism, namely glycolysis and oxidative phosphorylation (OXPHOS). We hypothesise that in addition to their direct bactericidal effect on Mycobacterium tuberculosis (Mtb), current TB antimicrobials can modulate immunometabolic profiles and alter mitochondrial function in primary human macrophages. Human monocyte-derived macrophages (hMDMs) were differentiated from PBMCs isolated from healthy blood donors, and treated with four first-line and six second-line TB antimicrobials three hours post stimulation with either iH37Rv-Mtb or lipopolysaccharide (LPS). 24 h post stimulation, baseline metabolism and mitochondrial function were determined using the Seahorse Extracellular Flux Analyser. The effect of these antimicrobials on cytokine and chemokine production was also assayed using Meso Scale Discovery Multi-Array technology. We show that some of the TB antimicrobials tested can significantly alter OXPHOS and glycolysis in uninfected, iH37Rv-Mtb, and LPS-stimulated hMDMs. We also demonstrate how these antimicrobial-induced immunometabolic effects are linked with alterations in mitochondrial function. Our results show that TB antimicrobials, specifically clofazimine, can modify host immunometabolism and mitochondrial function. Moreover, clofazimine significantly increased the production of IL-6 in human macrophages that were stimulated with iH37Rv-Mtb. This provides further insight into the use of some of these TB antimicrobials as potential host-directed therapies in patients with early and active disease, which could help to inform TB treatment strategies in the future.

Selection of a Single Domain Antibody, Specific for an HLA-Bound Epitope of the Mycobacterial Ag85B Antigen.

T cells recognizing epitopes on the surface of mycobacteria-infected macrophages can impart protection, but with associated risk for reactivation to lung pathology. We aimed to identify antibodies specific to such epitopes, which carry potentials for development toward novel therapeutic constructs. Since epitopes presented in the context of major histocompatibility complex alleles are rarely recognized by naturally produced antibodies, we used a phage display library for the identification of monoclonal human single domain antibody producing clones. The selected 2C clone displayed T cell receptor-like recognition of an HLA-A*0201 bound 199KLVANNTRL207 peptide from the Ag85B antigen, which is known to be an immunodominant epitope for human T cells. The specificity of the selected domain antibody was demonstrated by solid phase immunoassay and by immunofluorescent surface staining of peptide loaded cells of the T2 cell line. The antibody affinity binding was determined by biolayer interferometry. Our results validated the used technologies as suitable for the generation of antibodies against epitopes on the surface of Mycobacterium tuberculosis infected cells. The potential approaches forward the development of antibody in immunotherapy of tuberculosis have been outlined in the discussion.

Tuberculosis: Smart manipulation of a lethal host.

Tuberculosis (TB) caused by Mycobacterium tuberculosis remains a global threat to human health. Development of drug resistance and co-infection with HIV has increased the morbidity and mortality caused by TB. Macrophages serve as primary defense against microbial infections, including TB. Upon recognition and uptake of mycobacteria, macrophages initiate a series of events designed to lead to generation of effective immune responses and clearance of infection. However, pathogenic mycobacteria utilize multiple mechanisms for manipulating macrophage responses to protect itself from being killed and to survive within these cells that are designed to kill them. The outcomes of mycobacterial infection are determined by several host- and pathogen-related factors. Significant advancements in understanding mycobacterial pathogenesis have been made in recent years. In this review, some of the important factors/mechanisms regulating mycobacterial survival inside macrophages are discussed.

Antigen-specific interferon-gamma responses and innate cytokine balance in TB-IRIS.

BACKGROUND: Tuberculosis-associated immune reconstitution inflammatory syndrome (TB-IRIS) remains a poorly understood complication in HIV-TB patients receiving antiretroviral therapy (ART). TB-IRIS could be associated with an exaggerated immune response to TB-antigens. We compared the recovery of IFNγ responses to recall and TB-antigens and explored in vitro innate cytokine production in TB-IRIS patients. METHODS: In a prospective cohort study of HIV-TB co-infected patients treated for TB before ART initiation, we compared 18 patients who developed TB-IRIS with 18 non-IRIS controls matched for age, sex and CD4 count. We analyzed IFNγ ELISpot responses to CMV, influenza, TB and LPS before ART and during TB-IRIS. CMV and LPS stimulated ELISpot supernatants were subsequently evaluated for production of IL-12p70, IL-6, TNFα and IL-10 by Luminex. RESULTS: Before ART, all responses were similar between TB-IRIS patients and non-IRIS controls. During TB-IRIS, IFNγ responses to TB and influenza antigens were comparable between TB-IRIS patients and non-IRIS controls, but responses to CMV and LPS remained significantly lower in TB-IRIS patients. Production of innate cytokines was similar between TB-IRIS patients and non-IRIS controls. However, upon LPS stimulation, IL-6/IL-10 and TNFα/IL-10 ratios were increased in TB-IRIS patients compared to non-IRIS controls. CONCLUSION: TB-IRIS patients did not display excessive IFNγ responses to TB-antigens. In contrast, the reconstitution of CMV and LPS responses was delayed in the TB-IRIS group. For LPS, this was linked with a pro-inflammatory shift in the innate cytokine balance. These data are in support of a prominent role of the innate immune system in TB-IRIS.

[Preparation of an autophagy-targeted antituberculosis DNA vaccine encoding LpqH fused with LC3].

OBJECTIVE: To construct an autophagy-targeted vaccine harboring the genes encoding lipoprotein antigen precursor LpqH from Mycobacterium tuberculosis and microtubule-associated protein light chain-3(LC3), and to investigate its efficacy of inducing and targeting autophagy. METHODS: The expressions of LC-3 and LC3-LpqH in RAW264.7 cells were detected by Western blotting after transfected with pCMV-LpqH and pCMV-LC3-LpqH plasmids respectively. The pCMV-LC3-LpqH or pCMV-LpqH plasmids were transfected into GFP-LC3-RAW264.7 cells to analyze the localization of LC3-LpqH by immunofluorescence staining. RESULTS: After transfected with pCMV-LpqH DNA, RAW264.7 cells showed a significant increase of LC-3 amount. The LC3-LpqH fusion protein was also detected in RAW264.7 cells after pCMV-LC3-LpqH transfection and in a dose-dependent manner. Interestingly, LpqH was found to be transported to autophagosomes through the fusion protein, which was demonstrated by the co-localization of GFP-LC3 and LC3-LpqH on autophagosomes. CONCLUSION: The recombinant plasmid encoding pCMV-LC3-LpqH could enhance the autophagy in vitro, and facilitate the localization of LpqH on autophagosomes. Our study provides a new practical strategy for the development of improved vaccines against Mycobacterium tuberculosis.

Rapid diagnosis of Mycobacterium tuberculosis infection and drug susceptibility testing.

CONTEXT: The global control of tuberculosis remains a challenge from the standpoint of diagnosis, detection of drug resistance, and treatment. This is an area of special concern to the health of women and children, particularly in regions of the world with high infant mortality rates and where women have limited access to health care. OBJECTIVE: Because treatment can only be initiated when infection is detected, and is guided by the results of antimicrobial susceptibility testing, there recently has been a marked increase in the development and testing of novel assays designed to detect Mycobacterium tuberculosis complex, with or without simultaneous detection of resistance to isoniazid and/or rifampin. Both nonmolecular and molecular assays have been developed. This review will summarize the current knowledge about the use of rapid tests to detect M tuberculosis and drug resistance. DATA SOURCES: Review of the most recent World Health Organization Global Tuberculosis Report, as well as selected publications in the primary research literature, meta-analyses, and review articles. CONCLUSIONS: To a large extent, nonmolecular methods are refinements or modifications of conventional methods, with the primary goal of providing more rapid test results. In contrast, molecular methods use novel technologies to detect the presence of M tuberculosis complex and genes conferring drug resistance. Evaluations of molecular assays have generally shown that these assays are of variable sensitivity for detecting the presence of M tuberculosis complex, and in particular are insensitive when used with smear-negative specimens. As a group, molecular assays have been shown to be of high sensitivity for detecting resistance to rifampin, but of variable sensitivity for detecting resistance to isoniazid.

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.

Increased prevalence of primary drug-resistant pulmonary tuberculosis in immunocompromised patients.

BACKGROUND AND OBJECTIVE: Drug-resistant tuberculosis (DR-TB) is difficult and expensive to treat, and is associated with a higher rate of mortality. We conducted a long-term survey to compare the prevalence of primary drug-resistance, adverse effects of drugs and duration of treatment in immunocompetent and immunocompromised patients. Factors associated with primary drug resistance were also investigated. METHODS: The patients studied had culture-confirmed pulmonary TB but had not previously received anti-TB treatment. These patients were divided into immunocompetent (IMCPe) and immunocompromised (IMCPr) groups. Baseline data, the prevalence of DR-TB, duration of treatment and adverse effects of drugs were analysed. The rates of resistance to individual first-line anti-TB drugs in the two groups and in subgroups of the IMCPr group were calculated. Multinomial regression analysis was performed to investigate the risk factors associated with primary DR-TB. RESULTS: Among the 394 patients, 159 (40.4%) were in the IMCPr group. The baseline data for the two groups were similar, except that the IMCPr group was slightly older. The prevalence of drug-resistance was higher in the IMCPr group (25.8% vs 17.0%, OR 1.69, 95% CI: 1.04-2.77), especially for isoniazid, rifampicin and streptomycin, and patients with liver cirrhosis, malignancies and those receiving immunosuppressants. The incidence of adverse drug effects was similar in the IMCPr and IMCPe groups. Multinomial regression analysis showed that being in the IMCPr group, and especially treatment with immunosuppressants, were independent risk factors for DR-TB. CONCLUSIONS: Immunocompromised patients with underlying diseases had an increased prevalence of primary pulmonary DR-TB but a similar incidence of drug-related adverse effects. Diagnosis and investigation of drug-resistance is important before initiating anti-TB treatment in this group of patients.

Innate and adaptive immune responses to human Mycobacterium tuberculosis infection.

Tuberculosis is a leading cause of death from infectious diseases world-wide, and multidrug-resistant (MDR) tuberculosis continues to spread in many parts of the world. MDR tuberculosis is a potential bioterrorist threat, as therapy is prolonged with potentially toxic agents, and the cure rate is much lower than that for treatment of drug-susceptible tuberculosis. Development of methods to enhance innate and adaptive defenses against M. tuberculosis are an attractive means to provide protection against both MDR and drug-susceptible tuberculosis. Before such strategies can be developed, an improved understanding must be gained of the immune response to M. tuberculosis. Our laboratory is mainly focused on understanding the mechanisms by which natural killer (NK) cells lyse M. tuberculosis-infected cells, determining the molecular mechanisms involved in the induction of regulatory T cells (Tregs), and characterizing the mechanisms by which NK cells affect expansion of Tregs in M. tuberculosis infection. As several studies demonstrated defective immune responses in tuberculosis patients, our studies will pinpoint the nature of this defective immune response and permit development of methods to reverse this defect. In the long run, these findings will permit development of novel methods to stimulate immunity against tuberculosis, a strategy that will contribute to development of an effective vaccine to prevent tuberculosis and novel immunotherapy to treat the disease.

Tuberculosis multirresistente en pacientes con SIDA a comienzos del milenio / Multidrug-resistant tuberculosis in AIDS patients at the beginning of the millennium

La tuberculosis multirresistente (TBMR) asociada al sida emergió durante los años 90 en varios países del mundo. En Argentina, el brote más importante se originó en el Hospital Muñiz y susconsecuencias persisten hasta ahora. Con el objeto de evaluar la situación de la TBMR en este hospital, analizamoslas características clínico-demográfico-epidemiológicas de los 53 pacientes masculinos con TBMR/sida internados por primera vez en el trienio 2001-2003 con relación al genotipo del polimorfismo de longitud de fragmentos de restricción (RFLP) IS6110 de los aislamientos. La edad promedio de los pacientes fue 32 años, 37 (70%) residían en el conurbano bonaerense, 36 (68%) eran usuarios de drogas ilícitas y 14 (26.4%) tenían antecedentes carcelarios. El 88% presentó grave inmunodepresión (CD4+<100/μl) y el 58.5% falleció. La mortalidadse asoció a baja adherencia al tratamiento y a comorbilidades, pero no a enfermedad por Mycobacteriumtuberculosis cepa “M”, causante del brote original. De los 40 casos analizados por RFLP, 29 (72.5%) conformaron clusters y 24 presentaban el genotipo “M”. La resistencia a 5 o 6 drogas resultó un indicador de enfermedad por esa cepa. El genotipo “M” se asoció significativamente a internaciones previas en el Hospital Muñiz oencarcelamiento. En síntesis, 14 años después de ocurrido el primer caso de TBMR/sida, se constata la persistenciay predominancia en el hospital de la cepa responsable del brote. Se requiere una intensificación de las medidas de control de la diseminación institucional de la tuberculosis para consolidar la tendencia decrecientede la TBMR observada en el país en la última década

Aids-related multidrug-resistant tuberculosis (MDRTB) emerged during the 90s in several countries aroundthe world. In Argentina, the most notorious outbreak was documented in the Hospital Muñiz, which is still undergoing its aftermaths. In order to evaluate the situation in this hospital regarding MDRTB, we analysed clinical,demographic and epidemiological traits of the 53 male MDRTB-aids patients admitted during 2001-2003 at award especially dedicated to their isolation. Patients’ mean age was 32 years, 70% lived in Buenos Aires suburbs. A history of illicit drug users or imprisonment was recorded in 68% and 26% of the patients, respectively.Severe immunodepression (CD4+ count <100/μl) was found in 88% of the patients and 58% died. Mortality wasassociated with non-adherence to treatment and co-morbidity, but not with the genotype of the “M” strain, responsible for the original outbreak. Of 40 cases available for restriction fragment length polymorphism (RFLP),29 (72.5%) resulted in cluster. RFLP patterns of 24 matched the “M” genotype. In this study, resistance to 5 or 6 drugs was found to be an indicator of disease due to the “M” strain. The “M” genotype associated significantlyto previous admission at the Hospital Muñiz or imprisonment. In brief, 14 years after the detection of the firstMDRTB-aids case, we report here the persistence and predominance of the original outbreak strain at the hospital.Stronger TB infection control measures are urgently needed in hospitals and jails in order to strengthenthe declining trend of the MDRTB observed in our country towards the end of the last decade

Pulmonary tuberculosis: evaluation of interferon-gamma levels as an immunological healing marker based on the response to the Bacillus Calmette-Guerin.

Tuberculosis (TB) is a disease caused by Mycobacterium tuberculosis whose interaction with the host may lead to a cell-mediated protective immune response. The presence of interferon gamma (IFN-gamma) is related to this response. With the purpose of understanding the immunological mechanisms involved in this protection, the lymphoproliferative response, IFN-gamma and other cytokines like interleukin (IL-5, IL-10), and tumor necrosis factor alpha (TNF-alpha) were evaluated before and after the use of anti-TB drugs on 30 patients with active TB disease, 24 healthy household contacts of active TB patients, with positive purified protein derivative (PPD) skin tests (induration > 10 mm), and 34 asymptomatic individuals with negative PPD skin test results (induration < 5 mm). The positive lymphoproliferative response among peripheral blood mononuclear cells of patients showed high levels of IFN-gamma, TNF-alpha, and IL-10. No significant levels of IL-5 were detected. After treatment with rifampicina, isoniazida, and pirazinamida, only the levels of IFN-gamma increased significantly (p < 0.01). These results highlight the need for further evaluation of IFN-gamma production as a healing prognostic of patients treated.

Activity against Mycobacterium tuberculosis with concomitant induction of cellular immune responses by a tetraaza-macrocycle with acetate pendant arms.

The novel tetraaza-macrocyclic compound 3,7,11-tris(carboxymethyl)-3,7,11,17-tetraaza-bicyclo[11.3.1]heptadeca-1(17),13,15-triene, abbreviated as ac3py14, was investigated for its activity against Mycobacterium tuberculosis and for induction of protective cellular immune responses. Perspective results show that ac3py14 and its Fe3+ 1:1 complex, [Fe(ac3py14)], inhibited radiometric growth of several strains of M. tuberculosis. Inhibition with 25 microg/mL varied from 99% for H37Rv to 80% and above for multiple drug-resistant clinical isolates. The capacity of ac3py14 to elicit a beneficial immune response without cellular apoptosis was assessed and compared to the effects of virulent M. tuberculosis. The present study produces evidence that after stimulation with ac3py14 there was significant production of interferon gamma (IFN-gamma), whereas the production of interleukin-5 (IL-5) remained low, and there was development of a memory population (CD45RO). The level of binding of Annexin V, a marker of apoptosis, was not sufficient to result in toxic effects toward alphabeta and gammadelta T cells and CD14+ macrophages. This preliminary study is the first report of a compound that simultaneously exerts an inhibitory effect against M. tuberculosis and induces factors associated with protective immune responses.