Trehalose 6,6′-dimycolate on the surface of Mycobacterium tuberculosis modulates surface marker expression for antigen presentation and costimulation in murine macrophages

Trehalose 6,6′-dimycolate (TDM) is the most abundant lipid extracted from Mycobacterium tuberculosis (MTB). TDM promotes MTB survival by decreasing phagosomal acidification and phagolysosomal fusion in macrophages. Delipidation of MTB using petroleum ether removes TDM and decreases MTB survival within host cells. TDM reconstituted onto MTB restores its virulent wild-type characteristics. We investigated the role of TDM in regulating surface marker expression in MTB-infected macrophages. Macrophages were infected with wild-type, delipidated, and TDM-reconstituted MTB for 24 h and measured for changes in surface marker expression. TDM on MTB was found to specifically target MHCII, CD1d, CD40, CD80 and CD86. Both wild-type and TDM-reconstituted MTB suppressed or induced no change in expression of these surface markers, whereas delipidated MTB increased expression of the same markers. MTB-infected macrophages were also overlaid with MHCII-restricted T cell hybridomas which recognize Antigen 85B. Macrophages infected by wild-type and TDM-reconstituted MTB did not present antigen as well as delipidated MTB-infected macrophages. The evidence shown furthers supports the notion that TDM present on MTB promotes its survival and persistence in host macrophages.     

Allicin-induced suppression of Mycobacterium tuberculosis 85B mRNA in human monocytes

Despite of encountering a robust immune response, Mycobacterium tuberculosis (MTB) successfully survives and persists in the human host. We investigated the early regulation of MTB 85B gene by allicin in MTB-infected human monocytes. During the first 24h of infection, levels of both MTB 85B intracellular mRNA and secreted protein were significantly down-regulated by allicin in a dose-dependent manner, which was mediated by inhibition of glutathione and NF-kappaB pathway. Allicin-induced MTB 85B suppression correlated with suppression of TNF-alpha released from infected monocytes. The allicin-induced up-regulation of glutathione and IFN-gamma with simultaneous decrease in TNF-alpha supports the anti-inflammatory property of allicin by elicitation of protective immune response. Thus, allicin may prove to be valuable in the containment of MTB and therefore be useful as an adjunct in treatment of tuberculosis.     

Monocytes/macrophages in HIV infection and tuberculosis.

Mycobacterium tuberculosis (MTB) and human immunodeficiency virus type 1 (HIV-1) are virulent intracellular pathogens that enter and replicate within macrophages, which represent their reservoire. Public health problems are greatly compounded when the two diseases co-exist, and this is the reason why Acquired Immunodeficiency Syndrome (AIDS) and tuberculosis (TB) have been termed "the cursed duet", given the synergistic effect they exert one each other. With the depression of immunity caused by HIV-1 infection, latent MTB infection is much more likely to progress to clinically significant disease. On the other hand, TB results in activation of T cells and macrophages that may harbor latent HIV. Here some data are reviewed that can contribute to clarify the mechanisms involved in the concurrent infection, given that MTB infection has been shown to be able to: a) enhance HIV-1 replication in macrophages, b) augment CC-CKR5 (CCR5) expression on macrophage membrane, and, c) induce apoptosis in a portion of infected macrophages.     

Suppression of Mycobacterium tuberculosis induced reactive oxygen species (ROS) and TNF-alpha mRNA expression in human monocytes by allicin

Chronic inflammation associated with tumor necrosis factor (TNF)-alpha and reactive oxygen species (ROS) is the hallmark of tuberculosis. Mycobacterium tuberculosis (MTB) directly stimulates human monocytes to secrete TNF-alpha. We show the augmented expression of TNF-alpha mRNA in MTB-infected monocytes by cellular activation and ROS was suppressed by allicin in a dose-dependent manner. Also, allicin enhanced the glutathione peroxidase activity, which correlated inversely with the downregulation of ROS and TNF-alpha in MTB-infected monocytes. Hence, allicin may prove to be a valuable natural antioxidant in combating tuberculosis.     

Role of macrophage phospholipase D in natural and CpG-induced antimycobacterial activity

The present study addresses the differential ability of macrophages to control intracellular growth of non-pathogenic Mycobacterium smegmatis (Msm) and pathogenic M. tuberculosis (MTB). Results reported herein show that 3 h post infection, intracellular Msm, but not MTB, was significantly killed by macrophages. As the role of human macrophage phospholipase D (PLD) in the activation of antimicrobial mechanisms has been documented, we hypothesised the role of such enzyme in antimycobacterial mechanisms. To this aim, macrophage PLD activity was analysed at different times after exposure with either pathogenic MTB or non-pathogenic Msm. Results showed that, starting from 15 min after mycobacterial exposure, MTB did not induce macrophage PLD activity, whereas the environmental non-pathogenic Msm stably increased it. The direct contribution of PLD in intracellular mycobacterial killing was also analysed by inhibiting enzymatic activity with ethanol or calphostin C. Results show that PLD inhibition significantly increases intracellular Msm replication. In order to see whether the innate PLD-mediated antimicrobial mechanisms against MTB are also induced after CpG ODN stimulation, the role of PLD has been analysed in the course of CpG-mediated intracellular MTB killing. CpG DNA increased PLD activity in both uninfected and MTB-infected macrophages, and the inhibition of PLD activity resulted in a significant reduction of CpG-induced MTB killing. Taken together, our data suggest a relationship between host PLD activation and the macrophage ability to control intracellular mycobacterial growth.     

结核分枝杆菌抗原检测研究进展

结核病仍然是一个严重的全球性公共卫生问题,有效控制结核病的障碍在于缺乏早期、准确的诊断方法。机体受到结核分枝杆菌感染后,体内首先出现的是结核分枝杆菌特异性抗原。因此,结核分枝杆菌抗原检测作为结核病早期诊断的方法可能具有很高的诊断价值。我们简要综述了结核分枝杆菌抗原检测的相关研究进展。     

Neutrophil superoxide anion production,and CAT and GSSGR activity in patients with tuberculosis

Tuberculosis (TB) is a chronic infection disease caused by Mycobacterium tuberculosis (MTB), as an intracellular pathogen. Various cytokines (TNF-alpha, IL's, GSF etc.) and other factors play important preventing roles and are secreted during the infection. It may cause changes in the metabolism of neutrophils. Production of superoxide anion and antioxidative enzymes activities, such as glutathione reductase (GSSGR) and catalase (CAT) may be changed during MTB infection in the host. In this study, the control group consisted of ten healthy subjects and ten patients with TB were studied before anti-TB treatment. Level of superoxide anion production, activity of CAT and activity of GSSGR were studied from peripheral neutrophils of healthy subjects and patients with TB. Catalase activities of the neutrophils were significantly lower in patients with TB than normal subjects (p < 0.01). Glutathione reductase activities of the neutrophils were also significantly lower in patients with TB than normal subjects (p < 0.05). Superoxide anion production in the neutrophils did not show any significant difference between TB and normal subjects (p > 0.05). As a result, the activities of CAT and GSSGR were lower in the peripheral neutrophils of patients with TB than normal subjects, whereas superoxide anion production in the neutrophils did not differ between in TB patients than normal subjects.     

结核分枝杆菌感染实验模型

结核分枝杆菌是引起人结核病的主要病原,全世界约有1/3人口感染结核分枝杆菌。尽管该病原可感染并引起许多动物疾病,但人类是其中心宿主。为研究结核分枝杆菌的致病机理及宿主对本病原的保护性和免疫病理学反应,选择合适的动物模型非常必要。本文阐述了结核病研究中常用的实验模型及各种模型的优缺点。实验模型的合理应用将促进我们对结核病的认识,从中获取的资料将有助于我们发现更好的预防和治疗方案。     

Effects of type II alveolar epithelial cells on T cell mitogenic responses to concanavalin A and purified protein derivatives

To investigate the role of type II alveolar epithelial cells during the T cell-dependent host immune response to Mycobacterium tuberculosis (MTB), effects of MTB-infected A-549 human type II alveolar epithelial cells (A-549 cells) on T cell mitogenesis in response to concanavalin A (Con A) and purified protein derivatives (PPD) were studied. Human peripheral blood mononuclear cells (PBMCs) were cocultivated with uninfected or MTB-infected A-549 cells and Con A-and PPD-induced T cell mitogeneses were examined, and the following findings were obtained. T cell mitogenesis was inhibited by uninfected as well as MTB-infected A-549 cells, even when a dual-chamber culture system was used to prevent direct cell contact between PBMCs and A-549 cells. Therefore, it appears that A-549 cells suppress T cell mitogenesis by producing some unknown humoral suppressor factors.     

Mycobacterium tuberculosis infection up-regulates MFN2 expression to promote NLRP3 inflammasome formation

Tuberculosis (TB), caused by the infection of Mycobacterium tuberculosis (MTB), is one of the leading causes of death worldwide, especially in children. However, the mechanisms by which MTB infects its cellular host, activates an immune response, and triggers inflammation remain unknown. Mitochondria play important roles in the initiation and activation of the nucleotide-binding oligomerization domain-like receptor with a pyrin domain 3 (NLRP3) inflammasome, where mitochondria-associated endoplasmic reticulum membranes (MAMs) may serve as the platform for inflammasome assembly and activation. Additionally, mitofusin 2 (MFN2) is implicated in the formation of MAMs, but, the roles of mitochondria and MFN2 in MTB infection have not been elucidated. Using mircroarry profiling of TB patients and in vitro MTB stimulation of macrophages, we observed an up-regulation of MFN2 in the peripheral blood mononuclear cells of active TB patients. Furthermore, we found that MTB stimulation by MTB-specific antigen ESAT-6 or lysate of MTB promoted MFN2 interaction with NLRP3 inflammasomes, resulting in the assembly and activation of the inflammasome and, subsequently, IL-1β secretion. These findings suggest that MFN2 and mitochondria play important role in the pathogen-host interaction during MTB infection.     

The Ag85B protein of Mycobacterium tuberculosis may turn a protective immune response induced by Ag85B-DNA vaccine into a potent but non-protective Th1 immune response in mice

Clarifying how an initial protective immune response to tuberculosis may later loose its efficacy is essential to understand tuberculosis pathology and to develop novel vaccines. In mice, a primary vaccination with Ag85B-encoding plasmid DNA (DNA-85B) was protective against Mycobacterium tuberculosis (MTB) infection and associated with Ag85B-specific CD4+ T cells producing IFN-gamma and controlling intramacrophagic MTB growth. Surprisingly, this protection was eliminated by Ag85B protein boosting. Loss of protection was associated with a overwhelming CD4+ T cell proliferation and IFN-gamma production in response to Ag85B protein, despite restraint of Th1 response by CD8+ T cell-dependent mechanisms and activation of CD4+ T cell-dependent IL-10 secretion. Importantly, these Ag85B-responding CD4+ T cells lost the ability to produce IFN-gamma and control MTB intramacrophagic growth in coculture with MTB-infected macrophages, suggesting that the protein-dependent expansion of non-protective CD4+ T cells determined dilution or loss of the protective Ag85B-specific CD4+ induced by DNA-85B vaccination. These data emphasize the need of exerting some caution in adopting aggressive DNA-priming, protein-booster schedules for MTB vaccines. They also suggest that Ag85B protein secreted during MTB infection could be involved in the instability of protective anti-tuberculosis immune response, and actually concur to disease progression.     

Life and death in the granuloma: immunopathology of tuberculosis

During tuberculosis (TB) infection, the granuloma provides the microenvironment in which antigen-specific T cells colocate with and activate infected macrophages to inhibit the growth of Mycobacterium tuberculosis. Although the granuloma is the site for mycobacterial killing, virulent mycobacteria have developed a variety of mechanisms to resist this macrophage-mediated killing. These surviving mycobacteria become dormant, however, if host cellular immunity or the signals maintaining granuloma structure wane, or if mycobacteria resume replication, leading to reactivation of TB. This balance of life and death applies not only to the mycobacterium but also to the host macrophages that may undergo apoptosis or necrosis, leading to the characteristic caseous necrosis within the granuloma, and the potential spread of TB infection. The immunological factors controlling the development and maintenance of the granuloma will be reviewed.     

Novel drug target strategies against Mycobacterium tuberculosis

The resurgence of drug resistant tuberculosis (TB) is a significant global healthcare challenge. Mycobacterium tuberculosis (MTB), TB's causative agent, evades the host immune system and drug regimes by entering prolonged periods of non-proliferation or dormancy. In infected individuals, the immune system sequesters MTB into structures called granulomas where the bacterium survives by shifting into a non-replicative state. Although still not well understood, progress has been made in characterizing the genetic program of MTB, activated by DosR (DevR) signal transduction that allows adaptation to the hypoxic, nutrient limiting granuloma microenvironment. Recent work, especially the identification genes involved in regulatory networks and the Enduring Hypoxic Response (EHR), hold promise for developing new drugs targeting dormancy phase MTB.     

Influence of bovine lactoferrin on expression of presentation molecules on BCG-infected bone marrow derived macrophages

The current vaccine for tuberculosis (TB), caused by Mycobacterium tuberculosis (MTB), is an attenuated strain of Mycobacterium bovis bacillus Calmette-Guerin (BCG). BCG has proven to be effective in children, however, efficacy wanes in adulthood. Lactoferrin, a natural protein with immunomodulatory properties, is a potential adjuvant candidate to enhance efficacy of BCG. These studies define bovine lactoferrin as an enhancer of the BCG vaccine, functioning in part by modulating macrophage ability to present antigen and stimulate T-cells. BCG-infected bone marrow derived macrophages (BMMs) cultured with bovine lactoferrin increased the number of MHC II(+) expressing cells. Addition of IFN-gamma and lactoferrin to BCG-infected BMMs enhanced MHC II expressiona dna increased the ratio of CD86/CD80. Lactoferrin treated BCG-infected BMMs were able to stimulate an increase in IFN-gamma production from presensitized CD3(+) splenocytes. Together, these results demonstrate that bovine lactoferrin is capable of modulating BCG-infected macrophages to enhance T-cell stimulation through increased surface expression of antigen presentation and co-stimulatory molecules, which potentially explains the observed in vivo bovine lactoferrin enhancement of BCG vaccine efficacy to protect against virulent MTB infection.     

Xpert MTB/RIF在人类免疫缺陷病毒感染/艾滋病患者中诊断结核病的价值

为探讨利福平耐药结核分枝杆菌实时荧光定量核酸扩增检测技术(Xpert Mycobacterium tuberculosis/rifampicin,Xpert MTB/RIF)在人类免疫缺陷病毒感染/艾滋病(human immunodeficiency virus infection/acquired immunodeficiency syndrome,HIV/AIDS)患者中诊断结核病的价值,本研究回顾性分析了2018年1月1日—2020年12月31日复旦大学附属公共卫生临床中心感染与免疫科收治的801例HIV/AIDS合并疑似结核病患者的临床资料。801例患者中,657例进行了Xpert MTB/RIF、外周血结核感染T细胞斑点试验(tuberculosis T cell spot test,T-SPOT.TB)、抗酸染色涂片镜检和BACTEC MGIT 960液体培养等检测。以液体培养及菌型鉴定结果作为结核病诊断的“金标准”,确诊结核病92例,Xpert MTB/RIF、T-SPOT.TB、抗酸染色涂片镜检在HIV/AIDS患者中诊断结核病(包括肺结核和肺外结核)的灵敏度分别为72.8%、55.4%和69.6%,特异度分别为96.8%、90.3%和84.4%,与“金标准”行一致性检验,Kappa值分别为0.719 (P<0.01)、0.430(P<0.01)和0.424(P<0.01)。Xpert MTB/RIF检测502份呼吸道样本,结果显示其诊断肺结核的灵敏度和特异度分别为66.7%和96.0%;在痰涂片阳性和阴性的患者中,Xpert MTB/RIF诊断肺结核的灵敏度分别为77.4%和35.2%,特异度分别为87.7%和 97.8%。采用Xpert MTB/RIF检测343份肺外标本,结果显示其诊断肺外结核的灵敏度和特异度分别为63.3%和95.2%。以上结果提示,Xpert MTB/RIF在HIV/AIDS患者中诊断结核病(包括肺结核和肺外结核)具有较高的灵敏度和特异度,诊断肺结核的灵敏度高于肺外结核,因此推荐将其作为HIV/AIDS患者疑似结核病的首选检测方法。     

Differential MicroRNA Expression in Human Macrophages with Mycobacterium tuberculosis Infection of Beijing/W and Non-Beijing/W Strain Types

Objectives

The role of microRNAs in association with Mycobacterium tuberculosis (MTB) infection and the immunology regulated by microRNAs upon MTB infection have not been fully unravelled. We examined the microRNA profiles of THP-1 macrophages upon the MTB infection of Beijing/W and non-Beijing/W clinical strains. We also studied the microRNA profiles of the host macrophages by microarray in a small cohort with active MTB disease, latent infection (LTBI), and from healthy controls.

Results

The results revealed that 14 microRNAs differentiated infections of Beijing/W from non-Beijing/W strains (P<0.05). A unique signature of 11 microRNAs in human macrophages was identified to differentiate active MTB disease from LTBI and healthy controls. Pathway analyses of these differentially expressed miRNAs suggest that the immune-regulatory interactions involving TGF-β signalling pathway take part in the dysregulation of critical TB processes in the macrophages, resulting in active expression of both cell communication and signalling transduction systems.

Conclusion

We showed for the first time that the Beijing/W TB strains repressed a number of miRNAs expressions which may reflect their virulence characteristics in altering the host response. The unique signatures of 11 microRNAs may deserve further evaluation as candidates for biomarkers in the diagnosis of MTB and Beijing/W infections.     

MTB-PCDB: Mycobacterium tuberculosis proteome comparison database

The Mycobacterium tuberculosis Proteome Comparison Database (MTB-PCDB) is an online database providing integrated access to proteome sequence comparison data for five strains of Mycobacterium tuberculosis (H37Rv, H37Ra, CDC 1551, F11 and KZN 1435) sequenced completely so far. MTB-PCDB currently hosts 40252 protein sequence comparison data obtained through inter-strain proteome comparison of five different strains of MTB. 2373 proteins were found to be identical in all 5 strains using MTB H(37)Rv as reference strain. To enable wide use of this data, MTB-PCDB provides a set of tools for searching, browsing, analyzing and downloading the data. By bringing together, M. tuberculosis proteome comparison among virulent & avirulent strains and also drug susceptible & drug resistance strains MTB-PCDB provides a unique discovery platform for comparative proteomics among these strains which may give insights into the discovery & development of TB drugs, vaccines and biomarkers. AVAILABILITY: The database is available for free at http://www.bicjbtdrc-mgims.in/MTB-PCDB/     

结核病实验诊断技术

结核病诊断一直是控制结核病疫情的关键,快速准确、敏感特异、简便低廉的诊断方法是目前迫切需要的.从结核分枝杆菌快速诊断噬菌体法、AMPLICOR(R) MTB试验、Gen-Probe分子生物学诊断方法到T-SPOT.TB和QuantiFeron-Gold Test免疫学检测方法,结核病实验诊断方法在不断改进和完善.近年来...