Regulation of major efflux transporters under inflammatory conditions at the blood-brain barrier in vitro

ATP-driven efflux transport proteins at the blood-brain barrier protect the healthy brain but impede pharmacotherapy of the disordered CNS. To investigate the question how ATP-binding cassette (ABC)-transporters are regulated during inflammation or infection we analysed the effects of the cytokines tumour necrosis factor-α (TNF-α) and interleukin-1β (IL-1β) on the expression of brain multidrug resistance proteins in primary cultures of porcine brain capillary endothelial cells. We found that TNF-α and IL-1β rapidly decrease Abcg2 ( BMDP/BCRP ) mRNA expression within 6 h. After 24 and 48 h the mRNA level came back to control values. The mRNA reduction at 6 h was counter-regulated by the anti-inflammatory glucocorticoid hydrocortisone. Abcg2 protein levels were suppressed at prolonged stimulations but not after 6 h of stimulation which correlates with Abcg2 specific substrate uptake measurements. Abcb1 (p-glycoprotein) protein expression was transiently increased after TNF-α addition within 6 h of incubation followed by a reduction after 24 and 48 h whereas the Abcb1 mRNA levels were not changed. IL-1β caused a continuous decrease in protein expression of both ABC-transporters. Long-term treatment with an assumed TNF-α-downstream agent, the vasoconstrictor endothelin-1, induced Abcg2 protein expression but suppressed Abcb1. Other efflux pumps like multidrug resistance-associated proteins/Abcc were rarely affected. The present results imply a complex regulation of the two most abundant ABC-transporters at the blood-brain barrier during early inflammation stages suggesting that Abcb1 (p-glycoprotein) is an early target of TNF-α-signalling counterbalanced by Abcg2.     

Differential release of tumor necrosis factor-α from murine peritoneal macrophages stimulated with virulent and avirulent species of mycobacteria

Abstract The ability of Mycobacterium tuberculosis H37Rv and H37Ra, M. bovis BCG and M. smegmatis to induce the secretion of tumor necrosis factor-α (TNF-α) by cultured murine peritoneal macrophages is inversely related to their virulence. The avirulent species of mycobacteria which were unable to persist in macrophages were capable of inducing significant levels of TNF-α compared to that formed in cultures infected with the virulent M. tuberculosis H37Rv. This difference was also associated with an inherent toxicity by live H37Rv for macrophage cultures. Heat-killed H37Rv was non-toxic and induced significant levels of TNF-α; in contrast, live and heat-killed suspensions of avirulent mycobacteria had an equivalent ability to trigger TNF-α secretion. The TNF-α response was dose-dependent, related directly to the percentage of infected cells, and peaked 6–12 h post-infection. An early and vigorous TNF-α response appears to be a marker of macrophage resistance, while the downregulation of this response seems associated with macrophage toxicity and unrestricted mycobacterial growth.     

Interleukin-12 P40 induces the expression of TNF-α in microglia and macrophages

Recently, it has been found that overproduction of IL-12 can be dangerous to the host as it is involved in the pathogenesis of a number of autoimmune inflammatory diseases such as multiple sclerosis. It is composed of two different subunits – p40 and p35. Expression of p40 mRNA but not that of p35 mRNA in excessive amount in the CNS of patients with Multiple Sclerosis (MS) suggests that IL-12 p40 may have a role in the pathogenesis of the disease. The present study was undertaken to explore the role of p40 in the expression of TNF-α in microglia. Interestingly, we have found that IL-12 p70, p402 (the p40 homodimer) and p40 (the p40 monomer) dose-dependently induced the production of TNF-α in BV-2 microglial cells. This induction of TNF-α production was accompanied by an induction of TNF-α mRNA. In addition to BV-2 glial cells, p70, p402 and p40 also induced the production of TNF-α in mouse primary microglia and peritoneal macrophages. Since the activation of both NF-κB and C/EBPb is important for the expression of TNF-α in microglial cells, we investigated the effect of p40 on the activation of NF-κB as well as C/EBPb. Activation of NF-κB as well as C/EBPb by p40 and inhibition of p40-induced expression of TNF-α by Dp65, a dominant-negative mutant of p65, and DC/EBPb, a dominant-negative mutant of C/EBPb, suggests that p40 induces the expression of TNF-α through the activation of NF-κB and C/EBPb. This study delineates a novel role of IL-12 p40 in inducing the expression of TNF-α in microglial cells which may participate in the pathogenesis of neuroinflammatory diseases.
Acknowledgements:   This study was supported by NIH grants (NS39940 and AG19487).     

Duplication of genes encoding the immunodominant 38 kDa antigen in Mycobacterium intracellulare

Abstract Mycobacterium avium is a causative agent of mycobacterioses in systemically immunocompromised individuals, whereas Mycobacterium intracellulare is responsible for causing infections in relatively immunocompetent hosts. In an attempt to identify components that could be involved in virulence, we characterised the 38 kDa-encoding gene of M. intracellulare that is absent in M. avium . This antigen cross-reacts immunologically with a major 38 kDa antigen of M. tuberculosis , and both antigens are homologues of the phosphate transport subunit S (PstS) of the pst complex of Escherichia coli . Unlike the M. tuberculosis complex the M. intracellulare coding gene was found to be duplicated. We also identified and characterised other pst genes that may constitute an operon. Considering that multiple isoforms of PstS are present in mycobacteria the possible role of pstS1 genes for pathogenesis is discussed.     

Effectivity of crude versus purified mycobacterial secretory proteins as immunogen for optimum antibody production

Monospecific antibodies have been successfully utilized in antigen detection, which is better indicator of active infection. Mycobacterium tuberculosis excretory secretory (M tb ES) antigens such as ES 31, ES 41 and ES 43 (31 kDa, 41 kDa and 43 kDa protein, respectively) have been shown to be present in Mycobacterium tuberculosis H37Ra culture filtrate and are of diagnostic interest. To study the immunogenic potential of crude versus purified antigen, goat was immunized with M tb detergent soluble sonicate (DSS) antigen as well as purified antigen fraction (ESAS 7) containing ES 31 antigen. Both anti-DSS IgG antibody and anti ESAS 7 IgG antibody were found to be reactive with ES 31 antigen upto 1 ng concentration of antibody by ELISA. Crude DSS antigen was found to be quite effective in producing high titre antibodies and showed further high reactivity with other ES antigens (ES 41 and ES 43) of diagnostic interest.     

Characterization of the intracellular survival of Mycobacterium avium ssp. paratuberculosis: phagosomal pH and fusogenicity in J774 macrophages compared with other mycobacteria

The phagosomes containing viable pathogenic mycobacteria, such as Mycobacterium ( M .) tuberculosis and Mycobacterium avium ssp. avium ( M. avium ), are known to be limited in their ability to both acidify and fuse with late (but not early) endocytic organelles. Here, we analysed the pH and fusogenicity of phagosomes containing M. avium ssp. paratuberculosis ( M. ptb ), the causative agent of paratuberculosis in ruminants. Using the murine J774 macrophage cell line, we compared viable and heat-killed M. ptb and, in addition, viable or dead M. avium , as well as two non-pathogenic mycobacteria, Mycobacterium smegmatis and Mycobacterium gordonae . Electron microscopic analysis revealed that M. ptb persisted intracellularly in phagosomes for up to 15 days. The phagosomes containing live M. ptb and M. avium were significantly reduced in their ability to acquire some markers for the endocytic pathway, such as internalized calcein, BSA–gold or the membrane protein Lamp 2. However, they were almost completely accessible to 70 kDa fluorescein isothiocyanate (FITC)–dextran and Lamp 1. Overall, the phagosomes containing dead pathogenic mycobacteria behaved similarly to the ones containing live non-pathogenic mycobacteria in all experiments. Using FITC–dextran in a novel fluorescence-activated cell sorting (FACS)-based method, we could also show that the bulk of endocytic compartments, including phagosomes, were only very mildly acidified to ≈ pH 6.3 over at least 72 h in J774 cells infected with live M. ptb and M. avium . In contrast, J774 cells treated with heat-killed M. ptb or BSA-coated latex beads showed substantial acidification of the phagosome/endocytic compartments to a pH value of ≈ 5.2. After infection with M. smegmatis and M. gordonae , acidification was initially (1–5 h after infection) inhibited, but increased after longer infection to levels similar to those with dead mycobacteria.     

In vitro neutralization of tumor necrosis factor-α during Chlamydia pneumoniae infection impairs dendritic cells maturation/function and increases chlamydial progeny

Dendritic cells (DCs) produce tumor necrosis factor (TNF)-α upon infection and contribute in various ways to defense against pathogenic agents. Several biological agents have been designed to inhibit TNF-α activity. However, the use of these inhibitors has been associated with an increased rate of certain opportunistic infections. To study the effect of TNF-α inhibition, human monocyte-derived DCs were infected with Chlamydia pneumoniae . TNF-α was neutralized by adalimumab, a human anti-TNF-α monoclonal antibody. Chlamydiae induced the maturation of DC as determined by flow cytometry and quantitative real-time PCR. However, DC maturation was impaired in the presence of adalimumab. Moreover, neutralization of TNF-α resulted in a significant increase of infectious progeny, 16S rRNA gene copy number and development of larger inclusions consisting of different stages of chlamydial development. Additionally, chlamydial infection induced secretion of cytokines/chemokines, which were downregulated by adalimumab treatment. Our data reveal an indirect effect on maturation of DC by C. pneumoniae and that maturation is crucial for the restriction of chlamydial development. The results also demonstrate an increase in infectious progeny after TNF-α inhibition, suggesting a contribution of TNF-α produced by DCs to chlamydial growth arrest. These data suggest a possible mechanism by which TNF-α inhibition enhances the risk of intracellular infections.     

Therapeutic effectiveness of orally administered transgenic low-alkaloid tobacco expressing human interleukin-10 in a mouse model of colitis

Inflammatory bowel disease (IBD) represents a spectrum of diseases in which inflammation leads to acute and chronic gut injury. It is a growing health issue for which no cure exists. The pathogenesis is multifactorial with links to infectious and environmental events that trigger disease in genetically predisposed individuals. Treatment of the two major forms of IBD, Crohn's disease and ulcerative colitis, involves the reduction of inflammation with toxic immunosuppressive drugs or blocking of the pro-inflammatory effects of tumour necrosis factor-α (TNF-α) with antibodies. Here, we show that the oral administration of transgenic low-alkaloid tobacco expressing the contra-inflammatory cytokine human interleukin-10 (hIL-10) reduces the severity of colitis by down-regulating TNF-α expression directly at the sites of inflammation in IBD-susceptible IL-10^−/– mice. hIL-10 expressed in plants is biologically active and displays resistance to gastrointestinal degradation. Dietary supplementation with plant tissue delivering up to 9 µg of hIL-10 daily for 4 weeks was well tolerated by treated mice. Gut histology was significantly improved relative to controls ( P =  0.002), and was correlated with a decrease in small bowel TNF-α mRNA levels and an increase in IL-2 and IL-1β mRNA levels. Transgenic plants expressing IL-10 to directly attenuate TNF-α expression at sites of inflammation in the gut may become a useful new approach in the luminal therapy of IBD.     

Immunohistochemical localization and possible physiological roles of tumor necrosis factor-α in mouse cumulus-oocyte complexes

Tumor necrosis factor-α (TNF-α), a cytokine which is produced by activated macrophages, has been shown to participate in the regulation of ovarian functions. In the course of our investigation on the mechanism of maturation, fertilization and degeneration of mouse oocytes, immunoreactivity to TNF-α was found in the cytoplasm of the cells surrounding the maturing oocytes and of granulosa cells facing the antral cavity. Immunoblot analysis with the specific antibody to TNF-α identified the 17 kDa Mr band in the extract of cumulusoocyte complexes. Various concentrations of TNF-α (mouse, recombinant) and anti TNF-α antiserum (polyclonal rabbit anti-mouse recombinant TNF-α) were then used to determine their effect on the germinal vesicle breakdown (GVBD), polar body extrusion, fertilization and fragmentation of mouse oocytes/eggs. TNF-α at concentrations of 10 ng/mL or less and anti-TNF-α antiserum at concentrations of 10% or less, had no effect on the spontaneous GVBD and polar body extrusion of mouse oocytes in culture. Mouse follicular oocytes cultured for more than 72 h in modified Krebs-Ringer solution in vitro undergo spontaneous fragmentation, which is a degenerative change to form 'blastomeres' with or without nuclear fragments or chromatin. Ghost-like blastomeres were also identified in the space among fragmented 'blastomeres'. The spontaneous fragmentation of mouse follicular oocytes was suppressed in the presence of TNF-α at concentrations of 1 ng/mL or greater. Anti-TNF-α antiserum (1%) accelerated the induction of fragmentation of oocytes cultured in vitro . The addition of anti TNF-α antiserum (10%) to the culture medium did not influence the fertilization rates of the eggs surrounded by the expanded cumulus. These results appear to indicate that the process of degeneration of mouse oocytes/eggs is modulated by TNF-α accumulated in the expanded cumulus during oocyte maturation.     

Trichinella spiralis: strong antibody response to a 49 kDa newborn larva antigen in infected rats

In this work, we analyzed the kinetics of anti-Trichinella spiralis newborn larva (NBL) antibodies (Ab) and the antigenic recognition pattern of NBL proteins and its dose effects. Wistar rats were infected with 0, 700, 2000, 4000 and 8000 muscle larvae (ML) and bled at different time intervals up to day 31 post infection (p.i.). Ab production was higher with 2000 ML dose and decreased with 8000, 4000 and 700 ML. Abs were not detected until day 10, peaked on day 14 for the 2000 ML dose and on day 19 for the other doses and thereafter declined slowly from 19 to 31 days p.i. In contrast, Abs to ML increased from day 10, peaked on day 19 and remained high until the end of the study. Abs bound strongly at least to three NBL components of 188, 205 and 49 kDa. NBL antigen of 188 and 205 kDa were recognized 10-26 days p.i. and that of 49 kDa from day 10 to day 31 p.i. A weak recognition towards antigens of 52, 54, 62 and 83 kDa was also observed during the infection. An early recognition of 31, 43, 45, 55, 68 and 85 kDa ML antigens was observed whereas the response to those of 43, 45, 48, 60, 64 and 97 kDa (described previously as TSL-1 antigens) occurred late in the infection. A follow-up of antigen recognition up to day 61 with the optimal immunization dose (2000 ML) evidenced a decline of Ab production to the 49 kDa NBL antigen 42 days p.i., which suggested antigenic differences with the previously reported 43 kDa ML antigen strongly recognized late in the infection. To analyze the stage-specificity of the 49 kDa NBL antigen, polyclonal antibodies (PoAb) were obtained in rats immunized with 49 kDa NBL antigen. PoAb reacted strongly with the 49 kDa NBL component in NBL total soluble extract but no reactivity was observed with soluble antigen of the other T. spiralis stages. Albeit with less intensity, the 49 kDa component was also recognized by PoAb together with other antigens of 53, 97 and 107 kDa, in NBL excretory-secretory products (NBL-ESP). Thus, our results reveal differences in the kinetics of anti-NBL and ML Ab responses. While anti-NBL Abs declined slowly from day 19 until the end of the experiment, Abs to ML antigen remained high in the same period. It is remarkable the optimal Ab response to NBL antigens with 2000 ML infective dose and the reduced number of NBL antigens identified throughout the experimental T. spiralis infection, standing out the immunodominant 49 kDa antigen. Interestingly, this antigen, which was prominently expressed in NBL somatic proteins, was also detected in NBL-ESP.     

Recombinant interleukin-4-treated macrophages, epithelioid cell surrogates, harbor and arrest Mycobacterium avium multiplication in vitro

Our group has previously described that murine peritoneal macrophages treated in vitro for 7 days with recombinant interleukin-4 (rIL-4) acquire morphological and functional characteristics of epithelioid cells (ECs) found in granulomatous lesions. Although EC function has not been clarified so far, it has been suggested that these cells could present antigens and control multiplication of mycobacteria. These aspects have been addressed here using in vitro EC surrogates. Using immunocytochemistry and immunofluorescence methods, we have observed an increased expression of CD11b, CD54, CD86 and CD40 molecules on rIL-4-treated macrophages when compared to untreated ones. Cytokine-treated cells were less phagocytic for latex beads (P<0.03) and more pinocytic for dextran particles than untreated macrophages. T-cell lymphoproliferation assays using ovalbumin (OVA) and Mycobacterium avium as antigens showed that both cultured macrophages were equally efficient as antigen presenting cells (APCs). However, M. avium antigens were better presented in vivo by EC surrogates (P<0.01). Both macrophage cultures were similarly infected by M. avium. However, while the infection level was maintained in the cytokine-treated population, untreated macrophages showed a progressive increase in the number of bacilli/cell with time (P<0.01) and a reduction of about 65% in cell population. After 96 h of M. avium infection, untreated cells secreted higher amounts of tumor necrosis factor-alpha (P<0.005) while rIL-4-treated macrophages showed higher, although not significant, transforming growth factor-beta production. Also, EC surrogates produced less nitric oxide than control macrophages (P<0.05). Hence, EC surrogates restrain M. avium growth and act as APCs in vitro and in vivo.     

The identification of antigenic determinants on Mycobacterium bovis using monoclonal antibodies

Murine hybridomas secreting monoclonal antibodies to Mycobacterium bovis were produced and three soluble antigens were identified using radioimmunoassays and immunoblotting from polyacrylamide electrophoresis gels. Antibody MB3 (IgM, k chain) reacted with 20-100 kDal antigens produced by all mycobacterial strains examined while antibody MB5 (IgG2a, k chain) identified a 29.8 kDal antigen detected in field isolates of M. bovis and M. bovis strains Vallée and AN5. There was insignificant binding to M. bovis BCG, M. tuberculosis, M. microti, M. africanum, M. avium or M. paratuberculosis. Monoclonal antibody MB17 (IgA, k chain) reacted with a 17.4 kDal antigen present in M. bovis, M. tuberculosis and M. microti. Absorption of monoclonal antibodies with antigens from different species of Mycobacterium confirmed the specificities of MB3 and MB5 but the binding of MB17 was inhibited to some extent by all the extracts examined. The antigen identified by MB3 was present in purified protein derivative (PPD) from M. bovis, M. paratuberculosis and M. avium but antigens identified by MB5 and MB17 were not detected in these reagents.     

Immunodominant antigens recognized by the human immune response to infection by organisms of the species Leptospira interrogans serogroup Australis

Abstract Serum samples from patients infected by organisms of Leptospira interrogans serogroup Australis were tested by Western blot to determine the nature of major antigens that are involved in the immune response. Although there was some patient-to-patient variability, immunodominant genus-specific antigens were found to be proteins of apparent molecular ratio 68, 46 and 35-kDa, and lipopolysaccharide (LPS) sub-units in the 35-14-kDa region. Serogroup epitopes specific for Australis were exclusively saccharides of about 32 and 24 kDa: a serovar-specific antigen for serovar lora was of 38–40 kDa and behaved like a protein. Antibodies to the LPS serogroup-specific antigens and to the 38–40 kDa protein were long-lasting and consequently suggest that these immunodominant epitopes are important in resistance to re-infection.     

Effect of tumor necrosis factor-α on intracellular Staphylococcus aureus in vascular endothelial cells

Although tumor necrosis factor-α (TNF-α) is an important host factor against intracellular bacteria, little is known about the effect of TNF-α on the persistence of intracellular Staphylococcus aureus in vascular endothelial cells. It was investigated whether recombinant human TNF-α influences the survival of intracellular S. aureus (ATCC 29213) in human umbilical vein endothelial cells (HUVEC) under a condition with an antistaphylococcal agent, and its mechanism. The HUVECs were incubated with TNF-α, oxacillin, or both in 24-well plates for up to 48 h following internalization of S. aureus (10⁶ CFU well⁻¹) into HUVECs for 1 h. TNF-α (1 ng mL⁻¹) significantly reduced the number of intracellular S. aureus in HUVECs, and TNF-α plus oxacillin eliminated more intracellular S. aureus in HUVEC than oxacillin alone. The LDH viability assay and quantification of apoptosis using photometric enzyme-immunoassay showed that TNF-α preferentially induced cell death and apoptosis of HUVECs infected with S. aureus compared with noninfected HUVECs. These results indicate that TNF-α helps antistaphylococcal antibiotics to eliminate intracellular S. aureus in vascular endothelial cells, partly because TNF-α preferentially induces apoptosis of endothelial cells infected by S. aureus .     

Mycobacterium avium subspecies paratuberculosis and Mycobacterium avium subsp. avium infections in a tule elk (Cervus elaphus nannodes) herd

Between 2 August and 22 September 2000, 37 hunter-killed tule elk (Cervus elaphus nannodes) were evaluated at the Grizzly Island Wildlife Area, California, USA, for evidence of paratuberculosis. Elk were examined post-mortem, and tissue and fecal samples were submitted for radiometric mycobacterial culture. Acid-fast isolates were identified by a multiplex polymerase chain reaction (PCR) that discriminates among members of the Mycobacterium avium complex (MAC). Histopathologic evaluations were completed, and animals were tested for antibodies using a Johne's enzyme-linked immunosorbent assay (ELISA) and agar gel immunodiffusion. In addition, 104 fecal samples from tule elk remaining in the herd were collected from the ground and submitted for radiometric mycobacterial culture. No gross lesions were detected in any of the hunter-killed animals. Mycobacterium avium subsp. paratuberculosis (MAP) was cultured once from ileocecal tissue of one adult elk and was determined to be a strain (A18) found commonly in infected cattle. One or more isolates of Mycobacterium avium subsp. avium (MAA) were isolated from tissues of five additional adult elk. Gastrointestinal tract and lymph node tissues from 17 of the 37 elk (46%) examined had histopathologic lesions commonly seen with mycobacterial infection; however, acid-fast bacteria were not observed. All MAC infections were detected from adult elk (P = 0.023). In adult elk, a statistically significant association was found between MAA infection and ELISA sample-to-positive ratio (S/P) > or = 0.25 (P=0.021); four of five MAA culture-positive elk tested positive by ELISA. Sensitivity and specificity of ELISA S/P > or = 0.25 for detection of MAA in adult elk were 50% and 93%, respectively. No significant associations were found between MAC infection and sex or histopathologic lesions. Bacteriologic culture confirmed infection with MAP and MAA in this asymptomatic tule elk herd. The Johne's ELISA was useful in signaling mycobacterial infection on a population basis but could not discriminate between MAA and MAP antibodies. The multiplex PCR was useful in discriminating among the closely related species belonging to MAC.     

IL-17 is involved in bone resorption in mouse periapical lesions

Periapical lesions are induced by bacterial infection of the dental pulp and result in destruction of the surrounding alveolar bone. Although various immunological studies concerning periapical bone resorption have been reported, the role of cytokines in the formation of periapical lesions remains unclear. In this study, the role of IL-17A in periapical lesions in mice was investigated. Normal C57BL/6, IFN-γ^−/−, TNF-α^−/−, and IL-17A^−/− mice were subjected to pulp exposure and infected with Prevotella intermedia (ATCC25611) and Porphyromonas gingivalis (ATCC33277) in the mandibular first molar. Periapical lesions were determined by μCT on day 21 after infection, and 3D visual construction was performed using 3D picture quantification software. The expression of IL-17A mRNA in periapical lesions was determined by the RT-PCR and real-time RT-PCR method. Periapical lesions developed in wild-type, IFN-γ^−/−, and TNF-α^−/− mice after infection with P. intermedia and P. gingivalis . However, periapical lesions were not observed in IL-17A^−/− mice. The expression of IL-17A mRNA was significantly induced in periapical lesions of wild-type mice after infection. These results suggest that IL-17A, but not IFN-γ or TNF-α, plays an important role in the formation of periapical lesions.     

The tandem CCCH zinc finger protein tristetraprolin and its relevance to cytokine mRNA turnover and arthritis

Tristetraprolin (TTP) is the best-studied member of a small family of three proteins in humans that is characterized by a tandem CCCH zinc finger (TZF) domain with highly conserved sequences and spacing. Although initially discovered as a gene that could be induced rapidly and transiently by the stimulation of fibroblasts with growth factors and mitogens, it is now known that TTP can bind to AU-rich elements in mRNA, leading to the removal of the poly(A) tail from that mRNA and increased rates of mRNA turnover. This activity was discovered after TTP-deficient mice were created and found to have a systemic inflammatory syndrome with severe polyarticular arthritis and autoimmunity, as well as medullary and extramedullary myeloid hyperplasia. The syndrome seemed to be due predominantly to excess circulating tumor necrosis factor-α (TNF-α), resulting from the increased stability of the TNF-α mRNA and subsequent higher rates of secretion of the cytokine. The myeloid hyperplasia might be due in part to increased stability of granulocyte–macrophage colony-stimulating factor (GM-CSF). This review highlights briefly the characteristics of the TTP-deficiency syndrome in mice and its possible genetic modifiers, as well as recent data on the characteristics of the TTP-binding site in the TNF-α and GM-CSF mRNAs. Recent structural data on the characteristics of the complex between RNA and one of the TTP-related proteins are reviewed, and used to model the TTP-RNA binding complex. We review the current knowledge of TTP sequence variants in humans and discuss the possible contributions of the TTP-related proteins in mouse physiology and in human monocytes. The TTP pathway of TNF-α and GM-CSF mRNA degradation is a possible novel target for anti-TNF-α therapies for rheumatoid arthritis, and also for other conditions proven to respond to anti-TNF-α therapy.     

Xylanase production by Aspergillus nidulans

Abstract The effect of phagocyte activation by TNF-α on the ability to trigger a chemiluminescence (CL) response, associated with the release of oxidizing species was evaluated in healthy human mononuclear cells in the presence of Mycobacterium leprae . Recombinant TNF-α (r-TNF-α) increased the CL response of unstimulated M. bovis BCG- and PMA-stimulated cells but did not reverse the M. leprae defective activation of the human phagocyte oxidative burst. M. leprae was less well phagocytosed than M. bovis BCG but phagocytosis of mycobacteria was not altered by addition of r-TNF-α. The failure of activation of oxygen-free radical production might have some relevance to the pathogenesis of leprosy.