Penetration of the Blood-Brain Barrier by Bacillus anthracis Requires the pXO1-Encoded BslA Protein

Anthrax is a zoonotic disease caused by the gram-positive spore-forming bacterium Bacillus anthracis. Human infection occurs after the ingestion, inhalation, or cutaneous inoculation of B. anthracis spores. The subsequent progression of the disease is largely mediated by two native virulence plasmids, pXO1 and pXO2, and is characterized by septicemia, toxemia, and meningitis. In order to produce meningitis, blood-borne bacteria must interact with and breach the blood-brain barrier (BBB) that is composed of a specialized layer of brain microvascular endothelial cells (BMEC). We have recently shown that B. anthracis Sterne is capable of penetrating the BBB in vitro and in vivo, establishing the classic signs of meningitis; however, the molecular mechanisms underlying the central nervous system (CNS) tropism are not known. Here, we show that attachment to and invasion of human BMEC by B. anthracis Sterne is mediated by the pXO1 plasmid and an encoded envelope factor, BslA. The results of studies using complementation analysis, recombinant BslA protein, and heterologous expression demonstrate that BslA is both necessary and sufficient to promote adherence to brain endothelium. Furthermore, mice injected with the BslA-deficient strain exhibited a significant decrease in the frequency of brain infection compared to mice injected with the parental strain. In addition, BslA contributed to BBB breakdown by disrupting tight junction protein ZO-1. Our results identify the pXO1-encoded BslA adhesin as a critical mediator of CNS entry and offer new insights into the pathogenesis of anthrax meningitis.Bacillus anthracis, the etiologic agent of anthrax, is a gram-positive spore-forming bacterium that is commonly found in soil (29). The bacterium can infect animals and humans by ingestion, inhalation, or cutaneous inoculation of B. anthracis spores (8). Spores are taken up by resident macrophages that migrate to the lymph nodes (15). Here, the spores germinate into vegetative bacteria, multiply, and then disseminate throughout the host, causing septicemia and toxemia (8). Systemic disease can be complicated by the onset of a fulminant and rapidly fatal hemorrhagic meningitis and meningoencephalitis (27). Anthrax meningitis is associated with a high mortality rate despite intensive antibiotic therapy (24). Biopsy studies after an outbreak of inhalational anthrax and experimental studies of inhalational infection in rhesus monkeys demonstrated the presence of bacilli in the central nervous system (CNS) and pathologies consistent with suppurative and hemorrhagic meningitis in the majority of cases (1, 12). The intentional release of B. anthracis spores (19) during the 2001 bioterrorism event resulted in a case of meningitis (19), necessitating a need for a better understanding of the pathogenesis of anthrax meningitis and CNS infection.To cause meningitis, blood-borne bacteria must interact with and breach the blood-brain barrier (BBB). The majority of the BBB is anatomically represented by the cerebral microvascular endothelium; brain microvascular endothelial cells (BMEC) are joined by tight junctions and display a paucity of pinocytosis, thereby effectively limiting the passage of substances and maintaining the CNS microenvironment (4, 5). Despite its highly restrictive nature, certain bacterial pathogens are still able to penetrate the BBB and gain entry into the CNS. The presence of bacilli in the brains of patients (1, 24) and in experimental models of anthrax infection (42, 44) suggests that vegetative B. anthracis cells are able to cross the BBB to initiate meningeal inflammation and the classic pathology associated with meningitis.B. anthracis harbors two large virulence plasmids, pXO1 and pXO2 (8), which are required for full virulence, as strains lacking these plasmids are attenuated in animal models of infection (29). B. anthracis Sterne (pXO1⁺ pXO2⁻) has been utilized as a vaccine strain (41) but is still widely used in both in vitro and in vivo studies of anthrax infection since it causes lethal disease in mouse models of infection (46). Despite the crucial roles of pXO1 and pXO2 in anthrax disease pathogenesis, very few plasmid-encoded factors have been characterized. The best described are the antiphagocytic polyglutamyl capsule, encoded by biosynthetic enzymes on pXO2, and the anthrax toxin complex comprised of protective antigen, lethal factor (LF), and edema factor (EF), encoded by pXO1 (8, 29). Sequence analysis of the pXO1 plasmid revealed that the majority of plasmid-encoded factors, ∼70%, were of unknown function (31). More recently, in silico analysis identified novel pXO1-encoded proteins with immunogenic potential and relevance for pathogenesis. These included factors with putative adherent and invasive properties (2). Interestingly, two of the immunoreactive proteins were predicted surface layer (S-layer) proteins (2), one of which, B. anthracis S-layer protein A (BslA, pXO1-90), has recently been described and shown to mediate adherence of the vegetative form to host cells (20).Using in vitro and in vivo model systems, we have recently shown that B. anthracis Sterne adheres to and invades brain endothelium (44). This interaction was partially dependent on the pXO1-encoded anthrax toxins; however, the molecular mechanisms that contribute to B. anthracis penetration of the BBB are currently unknown. In this study, we investigate the role of pXO1 in B. anthracis Sterne''s interaction with brain endothelium and identify the encoded BslA adhesin as a critical mediator for BBB attachment and penetration during the pathogenesis of anthrax meningitis.     

Keratinocyte-derived Chemokine in Obesity: EXPRESSION, REGULATION, AND ROLE IN ADIPOSE MACROPHAGE INFILTRATION AND GLUCOSE HOMEOSTASIS*

Obese adipose tissue (AT) is associated with chronic inflammation, and we hypothesized that the keratinocyte-derived chemokine (KC), the mouse ortholog of human interleukin-8, plays a role in obesity-mediated AT inflammation and the subsequent manifestation of insulin resistance. KC expression is increased in the AT and plasma of genetically (ob/ob) and high fat diet-induced obese mouse models, and this increase may be mediated by the elevated leptin and tumor necrosis factor-α levels associated with obesity. Obesity-induced KC expression occurs primarily in stromal vascular cells and not in adipocytes, and it is high in preadipocytes and decreases during adipogenesis. Although KC has no effect on adipogenesis, it induces adipocyte expression of inflammatory factors and the insulin resistance mediator, suppressor of cytokine signaling 3. Using chimeric mice deficient in the KC receptor CXCR2 in their bone marrow, we show that the lack of CXCR2 in hematopoietic cells is sufficient to protect from adipose and skeletal muscle macrophage recruitment and development of insulin resistance in diet-induced obese mice. These studies suggest that KC and its receptor CXCR2 are potential targets for the development of new therapeutic approaches for treatment of obesity-related insulin resistance, type II diabetes, and related cardiovascular diseases.Obesity is characterized by systemic low grade inflammation that appears to contribute to the genesis of insulin resistance (IR),³ type 2 diabetes, and increased risk for cardiovascular diseases (reviewed in Ref. 1). Furthermore, adipose tissue (AT) produces a variety of inflammatory factors, and its excessive development in obesity is associated with accumulation of AT macrophages (ATMs) (1), whose recruitment and proinflammatory activation are required for the development of IR in obese mice (reviewed in Ref. 2). An important question concerning ATMs is/are the trigger(s) driving the recruitment of these cells in obesity.Efforts at identifying factors that attract and recruit ATMs have mostly focused on the CC chemokine MCP-1 (monocyte chemoattractant protein-1) and its receptor CCR2. These studies have led to contradicting results with several publications showing that MCP-1 and CCR2 are important for ATM recruitment and the subsequent development of IR (3–5), whereas others show no involvement of this chemokine and its receptor in these processes (6–8). Furthermore, the studies that claim a role for MCP-1 and CCR2 in ATM recruitment and IR show that deficiency of the ligand or the receptor did not result in normalization of ATM content, indicating that other factors also participate in ATM recruitment. These findings suggest that the precise role of the MCP-1/CCR2 axis in ATM recruitment and IR is unclear, and that other chemokines and their receptors could also play a role in these processes. One such chemokine is interleukin 8 (IL-8), the prototypical CXC chemokine known to recruit and activate monocytes and to attract polymorphonuclear leukocytes to sites of inflammation (9). IL-8 is elevated in plasma of obese subjects (10, 11) and correlates with adiposity and insulin sensitivity, suggesting an involvement of this chemokine in obesity-related health complications (12–14). Additionally, IL-8 is implicated in the pathogenesis of atherosclerosis and cardiovascular disease, two obesity-associated disorders (15). Finally, IL-8 is an angiogenic factor, and angiogenesis is a hallmark of AT expansion in obesity (16). Although these findings suggest an important role for IL-8 in AT biology and pathology, little is known regarding the mechanism of regulation of IL-8 in obesity and its role in AT biology and pathology. This is probably due, in part, to the absence of suitable animal models because mice and rats do not have a clear-cut IL-8 ortholog (17).Although rodent keratinocyte-derived chemokine (KC) shows the highest homology with human growth-related oncogene (GRO-α), it appears to be the closest equivalent to IL-8, as judged by its pattern of expression and putative function (18). Monocytes express the KC receptor (CXCR2), and KC triggers monocyte arrest on early atherosclerotic endothelium, one of the first steps in the invasion of tissues by macrophages (19). Interaction of monocyte CXCR2 with its ligand KC leads to up-regulation of α₄β₁ integrin affinity and firm adhesion to the endothelium (19). Furthermore, both KC and its receptor play a central role in macrophage infiltration and accumulation in atherosclerotic lesions in mice (20, 21). However, no information is currently available regarding the role of KC in macrophage recruitment in obese AT or its role in AT biology and pathology.In this study, we show that KC expression is elevated in AT and plasma of genetically (ob/ob) and diet-induced obese (DIO) mice, probably as the result of increased leptin and tumor necrosis factor α (TNF-α) levels associated with obesity. We also show that obesity-induced KC is mostly derived from nonadipocyte sources in AT and that KC does not affect adipocyte differentiation but does increase pro-inflammatory cytokine expression in adipocytes. Finally, we show in a DIO model in chimeric mice lacking CXCR2 on their macrophages that the KC receptor plays an important role in macrophage accumulation in adipose and skeletal muscle tissue and subsequent development of IR.     

Neutrophil Gelatinase-Associated Lipocalin induces the expression of heme oxygenase-1 and superoxide dismutase <Subscript>1, 2</Subscript>

Lipocalin-2 (Lcn2, NGAL) is a member of the lipocalin super family with diverse function such as the induction of apoptosis, the suppression of bacterial growth, and modulation of inflammatory response. Much interest has recently been focused on the physiological/pathological role of the lipocalin-2 that is considered to be a novel protective factor against oxidative stress. However, its precise biological roles in this protection are not fully understood. In this report we intended to test the effect of lipocalin-2 on the expression of heme oxygenase _{(1, 2)} and superoxide dismutase _{(1, 2)} which are two strong antioxidants. NGAL was cloned to pcDNA3.1 plasmid by using genetic engineering method. The recombinant vector was transfected to CHO and HEK293T to establish stable cell expressing NGAL and the expression of HO-1, 2 and SOD_{1, 2} were compared with appropriate controls by RT-PCR and western blot. On the other hand, expression of NGAL was suppressed by siRNA transfection in order to study the effect of lipocalin-2 on mentioned genes/proteins. The results showed that the expression of HO-1 and SOD_{1, 2} enzymes were higher in cells expressing recombinant lipocalin-2 compared with the control cells. Although the expression of HO-1 was lower in NGAL silencing cells, the expression of SOD₁ and SOD₂ were higher. Our data suggest that NGAL is a potent inducer of HO-1 and somewhat SOD₁ and SOD₂ and it appears that part of antioxidant property of NGAL could be attributed to the induction of HO-1and SOD_{1, 2}.     

Association of admission testosterone level with ST-segment resolution in male patients with ST-segment elevation myocardial infarction undergoing primary percutaneous coronary intervention

Background

Low level of testosterone may be associated with cardiovascular diseases in men, as some evidence suggests a protective role for testosterone in cardiovascular system. Little is known about the possible role of serum testosterone in response to reperfusion therapy in ST-elevation myocardial infarction (STEMI) and its relationship with ST-segment recovery. The present study was conducted to evaluate the association of serum testosterone levels with ST-segment resolution following primary percutaneous coronary intervention (PPCI) in male patients with acute STEMI.

Methods

Forty-eight men (mean age 54.55 ± 12.20) with STEMI undergoing PPCI were enrolled prospectively. Single-lead ST segment resolution in the lead with maximum baseline ST-elevation was measured and patients were divided into two groups according to the degree of ST-segment resolution: complete (> or =50%) or incomplete (<50%). The basic and demographic data of all patients, their left ventricular ejection fraction (LVEF) and laboratory findings including serum levels of free testosterone and cardiac enzymes were recorded along with angiographic finding and baseline TIMI (Thrombolysis in Myocardial Infarction) flow and also in-hospital complications and then these variables were compared between two groups.

Results

A complete ST-resolution (≥50%) was observed in 72.9% of the patients. The serum levels of free testosterone (P = 0.04), peak cardiac troponin (P = 0.03) were significantly higher and hs-CRP (P = 0.02) were lower in patients with complete ST-resolution compared to those with incomplete ST-resolution. In-hospital complications were observed in 31.2% of patients. The patients with a lower baseline TIMI flow (P = 0.03) and those who developed complications (P = 0.04) had lower levels of free testosterone. A significant positive correlation was observed between the left ventricular function and serum levels of free testosterone (P = 0.01 and r = +0.362).

Conclusion

This study suggests that in men with STEMI undergoing PPCI, higher serum levels of testosterone are associated with a better reperfusion response, fewer complications and a better left ventricular function.

     

Sweet sorghum bagasse and corn stover serving as substrates for producing sophorolipids

Journal of Industrial Microbiology & Biotechnology - To make the process of producing sophorolipids by Candida bombicola truly sustainable, we investigated production of these biosurfactants on...     

Effect of ovarian tissue vitrification method on mice preantral follicular development and gene expression

Vitrification is considered a viable method for cryopreservation of ovarian tissue and selection of methods that minimize follicular damage is important. The objective of the present study was to evaluate the effects of two vitrification methods on ovarian tissue morphology, preantral follicles survival rate during in vitro culture, and relative expression of genes associated with oocyte maturation and cumulus expansion. Ovaries from 12-day-old mice were vitrified in media containing ethylene glycol, dimethyl sulphoxide, and sucrose. Before plunging in liquid nitrogen, ovaries were first loaded into an acupuncture needle (needle immersion vitrification [NIV]) or placed on a cold steel surface for 10 to 20 seconds (solid surface vitrification [SSV]). The integrity of the ovarian tissue was well-preserved after vitrification and was similar controls. Follicle viability in the SSV group was lower (P < 0.05) than in the control group after 6 days of culture and the NIV group after 10 day of culture. Follicle viability after 12 day of culture was 92.8%, 82.1%, and 58.4% in control, NIV, and SSV groups, respectively. Bmp15, Gdf9, BmprII, Alk6, Alk5, Has2, and Ptgs2 gene expression patterns were similar among groups. However, the level of gene expression in the vitrification groups during Days 6 to 10 were higher compared with the control group. In conclusion, ovarian tissue morphologic integrity was well-preserved, regardless of the vitrification method. Vitrification using the needle immersion method resulted in greater follicular survival after 12 day of culture than the SSV method. Gene expression patterns during culture did not seem to explain the reduced survival rate observed in the solid surface group.     

Identification of GABA A receptor modulators in Kadsura longipedunculata and assignment of absolute configurations by quantum-chemical ECD calculations

A petroleum ether extract of Kadsura longipedunculata enhanced the GABA-induced chloride current (I_GABA) by 122.5 ± 0.3% (n = 2) when tested at 100 μg/ml in Xenopuslaevis oocytes expressing GABA A receptors (α₁β₂γ_2S subtype) in two-microelectrode voltage clamp measurements. Thirteen compounds were subsequently identified by HPLC-based activity profiling as responsible for GABA A receptor activity and purified in preparative scale. 6-Cinnamoyl-6,7-dihydro-7-myrceneol and 5,6-dihydrocuparenic acid were thereby isolated for the first time. The determination of the absolute stereochemistry of these compounds was achieved by comparison of experimental and calculated ECD spectra. All but one of the 13 isolated compounds from K. longipedunculata potentiated I_GABA through GABA A receptors composed of α₁β₂γ_2S subunits in a concentration-dependent manner. Potencies ranged from 12.8 ± 3.1 to 135.6 ± 85.7 μM, and efficiencies ranged from 129.7 ± 36.8% to 885.8 ± 291.2%. The phytochemical profiles of petroleum ether extracts of Kadsura japonica fruits (114.1 ± 2.6% potentiation of I_GABA at 100 μg/ml, n = 2), and Schisandra chinensis fruits (inactive at 100 μg/ml) were compared by HPLC-PDA-ESIMS with that of K. longipedunculata.     

Mass and relative elution time profiling: two-dimensional analysis of sphingolipids in Alzheimer's disease brains

Current lipidomic profiling methods rely mainly on MS to identify unknown lipids within a complex sample. We describe a new approach, involving LC×MS/MS (liquid chromatography×tandem MS) analysis of sphingolipids based on both mass and hydrophobicity, and use this method to characterize the SM (sphingomyelin), ceramide and GalCer (galactosylceramide) content of hippocampus from AD (Alzheimer's disease) and control subjects. Using a mathematical relationship we exclude the influence of sphingolipid mass on retention time, and generate two-dimensional plots that facilitate accurate visualization and characterization of the different ceramide moieties within a given sphingolipid class, because related molecules align horizontally or vertically on the plots. Major brain GalCer species that differ in mass by only 0.04 Da were easily differentiated on the basis of their hydrophobicity. The importance of our method's capacity to define all of the major GalCer species in the brain samples is illustrated by the novel observation that the proportion of GalCer with hydroxylated fatty acids increased approximately 2-fold in the hippocampus of AD patients, compared with age- and gender-matched controls. This suggests activation of fatty acid hydroxylase in AD. Our method greatly improves the clarity of data obtained in a lipid profiling experiment and can be expanded to other lipid classes.     

Casein kinase I delta controls centrosome positioning during T cell activation

Although termed central body, the centrosome is located off-center in many polarized cells. T cell receptor (TCR) engagement by antigens induces a polarity switch in T cells. This leads to the recruitment of the centrosome to the immunological synapse (IS), a specialized cell-cell junction. Despite much recent progress, how TCR signaling triggers centrosome repositioning remains poorly understood. In this paper, we uncover a critical requirement for the centrosomal casein kinase I delta (CKIδ) in centrosome translocation to the IS. CKIδ binds and phosphorylates the microtubule plus-end-binding protein EB1. Moreover, a putative EB1-binding motif at the C terminus of CKIδ is required for centrosome translocation to the IS. We find that depletion of CKIδ in T lymphocytes and inhibition of CKI in epithelial cells reduce microtubule growth. Therefore, we propose that CKIδ-EB1 complexes contribute to the increase in microtubule growth speeds observed in polarized T cells, a mechanism that might serve to generate long-stable microtubules necessary for centrosome translocation.