Differential nitric oxide (NO) production by macrophages from mice and guinea pigs infected with virulent and avirulent Legionella pneumophila serogroup 1

l-arginine-dependent reactive nitrogen intermediates have been identified as macrophage cytotoxic effector molecules against intracellular pathogens. To determine its role, ex vivo production of NO by peritoneal macrophages of C3H/HeN mice and Dunkin–Hartley guinea pigs infected intraperitoneally with a virulent and isogenic avirulent Legionella pneumophila serogroup 1 strain was compared with bacterial clearance from the lungs. While the virulent strain was cleared from mice lungs, the guinea pigs died within 96 h. In vivo infection with both strains resulted in the production of NO by mouse peritoneal macrophages ex vivo. In contrast, guinea pig macrophages did not produce detectable NO. In addition, infection by the avirulent strain led to the production of significantly more NO by mouse macrophages than the virulent parent strain, irrespective of stimulation with lipopolysaccharide (LPS) and/or interferon-gamma (IFN-γ). These results suggest that resistance to Leg. pneumophila infection may depend on the production of NO by host macrophages.     

Whole-blood culture is a valid low-cost method to measure monocytic cytokines — A comparison of cytokine production in cultures of human whole-blood, mononuclear cells and monocytes

Whole-blood and peripheral blood mononuclear cell (PBMC) cultures are used as non-validated surrogate measures of monocytic cytokine production. The aim of this investigation was to compare ex vivo cytokine production from human whole-blood and PBMC with that from isolated monocytes. We also assessed the intra- and inter-individual variation in cytokine production. In 64 healthy men (age 19-40 years) IL-6, TNF and IL-10 were measured by enzyme-linked immunosorbent assay in supernatants from whole-blood, PBMC and monocytes cultured 24 h with lipopolysaccharide (LPS) or UV-killed L. acidophilus. Cytokines produced from whole-blood was found to be more strongly correlated with monocytic cytokines than cytokines from PBMC, particularly after LPS-stimulation: r = 0.57, P < 0.001 versus r = 0.33, P = 0.01 for IL-6 and r = 0.43, P < 0.001 versus r = 0.30, P = 0.02 for TNF-α. Adjustment for a preceding 8-week dietary fatty acid-intervention did not change any of the associations. Based on measurements at three time-points 8 weeks apart the intra-individual variation was ≥ 50% smaller than the inter-individual variation (P < 0.05) in most whole-blood cytokine responses and LPS-stimulated IL-6 from PBMC. We conclude that whole-blood cultures are well-suited low-cost proxy-measures of monocytic cytokine production. Moreover, large inter-individual variation in cytokine production was demonstrated whereas the individual responses in whole-blood were reproducible even over long time-periods.     

Comparison of Arbekacin and Vancomycin in Treatment of Chronic Suppurative Otitis Media by Methicillin Resistant Staphylococcus aureus

Methicillin-resistant Staphylococcus aureus (MRSA) is a major cause of ear infections. We attempted to evaluate the clinical usefulness of arbekacin in treating chronic suppurative otitis media (CSOM) by comparing its clinical efficacy and toxicity with those of vancomycin. Efficacy was classified according to bacterial elimination or bacteriologic failure and improved or failed clinical efficacy response. Ninety-five subjects were diagnosed with CSOM caused by MRSA. Twenty of these subjects were treated with arbekacin, and 36 with vancomycin. The bacteriological efficacy (bacterial elimination, arbekacin vs. vancomycin: 85.0% vs. 97.2%) and improved clinical efficacy (arbekacin vs. vancomycin; 90.0% vs. 97.2%) were not different between the two groups. However, the rate of complications was higher in the vancomycin group (33.3%) than in the arbekacin group (5.0%) (P=0.020). In addition, a total of 12 adverse reactions were observed in the vancomycin group; two for hepatotoxicity, one for nephrotoxicity, eight for leukopenia, two for skin rash, and one for drug fever. It is suggested that arbekacin be a good alternative drug to vancomycin in treatment of CSOM caused by MRSA.     

Prevalence and antimicrobial susceptibility pattern of methicillin-resistant Staphylococcus aureus in Assam

Aims:

Methicillin-resistant Staphylococcus aureus (MRSA) has become a serious problem in intensive care units, because of development of multiresistance, and also intrinsic resistance to β-lactam antibiotics. The present study was carried out to investigate the prevalence of MRSA and their rate of resistance to different antistaphylococcal antibiotics.

Materials and Methods:

Between January 2007 and February 2008, the clinical specimens submitted at the microbiology laboratory were processed and all S. aureus isolates were included in this study. All isolates were identified morphologically and biochemically by standard laboratory procedures and antibiotic susceptibility pattern was determined by modified Kirby Bauer disc diffusion method.

Results:

Methicillin resistance was observed in 34.78% of isolates, of which 37.5% were found to be resistant to all commonly used antibiotics. In MRSA isolates, 50% had constitutive resistance, 9.38% had inducible MLS_B resistance and 18.75% had MS phenotype.

Conclusions:

There is a progressive increase in MRSA prevalence in the country but the present rate is still low in comparison to values found in some other institutes. The rate of inducible MLS_B resistance was also lower in comparison with findings from other parts of the country.     

The roles of SaPI1 proteins gp7 (CpmA) and gp6 (CpmB) in capsid size determination and helper phage interference

SaPIs are molecular pirates that exploit helper bacteriophages for their own high frequency mobilization. One striking feature of helper exploitation by SaPIs is redirection of the phage capsid assembly pathway to produce smaller phage-like particles with T=4 icosahedral symmetry rather than T=7 bacteriophage capsids. Small capsids can accommodate the SaPI genome but not that of the helper phage, leading to interference with helper propagation. Previous studies identified two proteins encoded by the prototype element SaPI1, gp6 and gp7, in SaPI1 procapsids but not in mature SaPI1 particles. Dimers of gp6 form an internal scaffold, aiding fidelity of small capsid assembly. Here we show that both SaPI1 gp6 (CpmB) and gp7 (CpmA) are necessary and sufficient to direct small capsid formation. Surprisingly, failure to form small capsids did not restore wild-type levels of helper phage growth, suggesting an additional role for these SaPI1 proteins in phage interference.     

Etiology of invasive bacterial infections in immunocompetent children in Korea (1996-2005): a retrospective multicenter study

The purpose of this study was to identify the major etiological agents responsible for invasive bacterial infections in immunocompetent Korean children. We retrospectively surveyed invasive bacterial infections in immunocompetent children caused by eight major pediatric bacteria, namely Streptococcus pneumoniae, Haemophilus influenzae, Neisseria meningitidis, Staphylococcus aureus, Streptococcus agalactiae, Streptococcus pyogenes, Listeria monocytogenes, and Salmonella species that were diagnosed at 18 university hospitals from 1996 to 2005. A total of 768 cases were identified. S. agalactiae (48.1%) and S. aureus (37.2%) were the most common pathogens in infants younger than 3 months. S. agalactiae was a common cause of meningitis (73.0%), bacteremia without localization (34.0%), and arthritis (50%) in this age group. S. pneumoniae (45.3%) and H. influenzae (20.4%) were common in children aged 3 months to 5 yr. S. pneumoniae was a common cause of meningitis (41.6%), bacteremia without localization (40.0%), and bacteremic pneumonia (74.1%) in this age group. S. aureus (50.6%), Salmonella species (16.9%), and S. pneumoniae (16.3%) were common in older children. A significant decline in H. influenzae infections over the last 10 yr was noted. S. agalactiae, S. pneumoniae, and S. aureus are important pathogens responsible for invasive bacterial infections in Korean children.     

B lymphocytes regulate airway granulocytic inflammation and cytokine production in a murine model of fungal allergic asthma

Sensitization to fungi often leads to a severe form of asthma that is particularly difficult to manage clinically, resulting in increased morbidity and hospitalizations in these patients. Although B lymphocytes might exacerbate asthma symptoms through the production of IgE, these cells might also be important in the protective response against inhaled fungi. Through cytokine release and T-cell interactions, these lymphocytes might also influence the development and maintenance of airway wall fibrosis. J_H^−/− mice lack the JH gene for the heavy chain component of antibodies, which is critical for B-cell function and survival. These animals have facilitated the elucidation of the role of B lymphocytes in a number of immune responses; however, J_H^−/− mice have not been used to study fungal allergy. In this study, we examined the role of B lymphocytes using an Aspergillus fumigatus murine fungal aeroallergen model that mimics human airway disease that is triggered by environmental fungal exposure. We compared disease progression in sensitized wild-type BALB/c and J_H^−/− mice that were exposed to repeated fungal exposure and found no differences in airway hyperresponsiveness, overall pulmonary inflammation or collagen deposition around the large airways. However, the levels of the Th2-type cytokines IL-4 and IL-13 were significantly attenuated in the airways of J_H^−/− mice relative to the BALB/c controls. By contrast, levels of the inflammatory cytokines IL-17A and IL-6 were significantly elevated in the J_H^−/− animals, and there was significantly more robust airway eosinophilia and neutrophilia than in control animals. Taken together, these findings demonstrate that B lymphocytes help to regulate granulocytic responses to fungal exposure in the pulmonary compartment.     

Protective effect of granulocyte colony-stimulating factor (G-CSF) in a granulocytopenic mouse model of Pseudomonas aeruginosa lung infection through enhanced phagocytosis and killing by alveolar macrophages through priming tumour necrosis factor-alpha (TNF-α) production

We investigated the effects of G-CSF in a granulocytopenic mouse model of Pseudomonas aeruginosa lung infection. The model was prepared by intratracheal instillation of the bacteria, while granulocytopenia was induced by intraperitoneal injection of 4.0 mg of cyclophosphamide (CPA). There was no difference in the survival rate between G-CSF-treated animals and the normal group, and the number of neutrophils in the blood and lung recovered to normal in the former group. However, the phagocytic and killing activities of neutrophils were lower in G-CSF-treated mice than in controls. Interestingly, the mortality rate increased significantly when anti-TNF-α antibody was combined with G-CSF, although it was intermediate between CPA alone and CPA–G-CSF-treated mice. However, the improved mortality was not associated with a change in the number of neutrophils in the circulation and lung. Administration of anti-TNF-α antibody resulted in a significant suppression of TNF-α in bronchoalveolar lavage fluid and of enhanced alveolar macrophage function (phagocytic and bactericidal activity) against P. aeruginosa in G-CSF-treated granulocytopenic mice. We showed also increased TNF-α mRNA expression and TNF-α production in vitro using G-CSF-pretreated alveolar macrophages compared with control untreated macrophages. Our results are the first evidence to suggest that G-CSF provides a synergistic protective effect against lethal P. aeruginosa lung infection in the granulocytopenic host. This effect is probably due to enhancement of alveolar macrophage function through endogenous TNF-α production, in addition to increasing the number of circulating neutrophils.     

TNFRp55 modulates IL-6 and nitric oxide responses following Yersinia lipopolysaccharide stimulation in peritoneal macrophages

While cytokines are major regulators of macrophage activation following host-pathogen interactions, they also act to limit inflammation to avoid tissue damage. In previous studies we reported the development of progressive Yersinia enterocolitica-induced reactive arthritis (ReA) in mice lacking the tumor necrosis factor receptor p55 (TNFRp55). In this work, we analyzed the response of TNFRp55^−/− macrophages to Y. enterocolitica antigens. We found higher concentration of nitric oxide (NO) in TNFRp55^−/− compared to wild-type macrophages in response to heat-killed Yersinia (HKY) and Yersinia outer membranes (OM). Moreover, Toll-like receptor (TLR)4 expression was increased in OM-stimulated TNFRp55^−/− versus wild-type (WT) macrophages. Accordingly, NO production was inhibited in TLR4-deficient macrophages following stimulation with OM, suggesting that LPS may function as a major OM component implicated in these responses. Thus, augmented NO production together with enhanced expression of inducible nitric oxide synthase (iNOS) and higher IL-6 production, may provide a pro-inflammatory setting in Yersinia LPS-stimulated TNFRp55^−/− macrophages. Augmented synthesis of NO and IL-6 was prevented by treatment with Polymyxin B, or by exposure to a specific NF-κB p65 oligonucleotide antisense, indicating the involvement of TLR4-mediated NF-κB activation in the unleashed pro-inflammatory response triggered by TNFRp55 deficiency. Thus, TNFRp55 modulates macrophage functions in response to Yersinia LPS stimulation through mechanisms involving NO, IL-6 and NF-κB pathways, suggesting an essential regulatory role of TNF via TNFRp55 signaling.     

Afterhyperpolarization induced by the activation of nicotinic acetylcholine receptors in pelvic ganglion neurons of male rats

The electrophysiological mechanism underlying afterhyperpolarization induced by the activation of the nicotinic acetylcholine receptor (nAChR) in male rat major pelvic ganglion neurons (MPG) was investigated using a gramicidin-perforated patch clamp and microscopic fluorescence measurement system. Acetylcholine (ACh) induced fast depolarization through the activation of nAChR, followed by a sustained hyperpolarization after the removal of ACh in a dose-dependent manner (10 μM to 1 mM). ACh increased both intracellular Ca²⁺ ([Ca²⁺]_i) and Na⁺ concentrations ([Na⁺]_i) in MPG neurons. The recovery of [Na⁺]_i after the removal of ACh was markedly delayed by ouabain (100 μM), an inhibitor of Na⁺/K⁺ ATPase. Pretreatment with ouabain blocked ACh-induced hyperpolarization by 67.2 ± 5.4% (n = 7). ACh-induced hyperpolarization was partially attenuated by either the chelation of [Ca²⁺]_i with BAPTA/AM (20 μM) or the blockade of small-conductance Ca²⁺-activated K⁺ channels by apamin (500 nM). Taken together, the activation of nAChR increases [Na⁺]_i and [Ca²⁺]_i, which activates Na⁺/K⁺ ATPase and Ca²⁺-activated K⁺ channels, respectively. Consequently, hyperpolarization occurs after the activation of nAChR in the autonomic pelvic ganglia.     

Acute and Subchronic Toxicity of Anacardium Occidentale Linn (Anacardiaceae) Leaves Hexane Extract in Mice

These studies focus on the toxicity leaf hexane extract of A. occidentale L (Anacardiaceae) used in Cameroon traditional medicine for the treatment of diabetes and hypertension. Previous findings on antidiabetic and anti-inflammatory have given support to the ethnopharmacological applications of the plant. After acute oral administration, it was found that doses of the extract less than 6 g/kg are not toxic. Signs of toxicity at high doses were asthenia, anorexia, diarrhoea, and syncope. The LD₅₀ of the extract, determined in mice of both sexes after oral administration was 16 g/kg. In the subchronic study, mice received A. occidentale at doses of 6, 10 and 14 g/kg (by oral route) for 56 days. At doses of 2, 6 and 10 g/kg of extract, repeated oral administration to mice produced a reduction in food intake, weight gain, and behavioural effects. Liver or the kidney function tests were assessed by determining serum parameters like, creatinine, transaminases, and urea. All these parameters were significantly (p<0.01) abnormal. Histopatological studies revealed evidence of microcopic lesions either in the liver or in the kidney which may be correlated with biochemical disturbances. We conclude that toxic effects of A. occidentale L hexane leaf extract occurred at higher doses than those used in Cameroon folk medicine.     

Impact of T-cell receptor Vbeta haplotypes on the development of dermatitis in DS-Nh mice: synergistic production of interleukin-13 caused by staphylococcal enterotoxin C and peptide glycans from Staphylococcus aureus

Although the pathogenic role of interleukin-13 (IL-13) is a key for atopic dermatitis (AD), the mechanism of IL-13 production in AD remains unclear. To investigate the role of the T-cell receptor Vbeta (TCR Vbeta) haplotype in the development of dermatitis and the production of IL-13 in the naturally occurring dermatitis model by staphylococcal enterotoxin C (SEC)-producing Staphylococcus aureus, we raised DS-Nh mice harbouring the TCR Vbeta(a) haplotype with a central deletion in the TCRBV gene segments, including TCR Vbeta8S2. Observation and histopathological analysis of the two mouse substrains with spontaneous dermatitis indicated that later onset and weaker severity of AD-like dermatitis were identified in mice with TCR Vbeta(a) compared to those with TCR Vbeta(b). Immunohistochemical examination revealed the infiltration of a large number of CD4-bearing T cells in the skin lesions in mice with TCR Vbeta(b) but not in those with TCR Vbeta(a). Interestingly, much lower levels of serum IL-13 were detected in mice with the TCR Vbeta(a) than in those with the TCR Vbeta(b) haplotype. In vitro, synthetic ligands (Pam(2)CSK4) of toll-like receptor 2 (TLR2) synergistically produced IL-13 with SEC in splenocytes of mice with TCR Vbeta(b) but not of those with TCR Vbeta(a), and natural killer T cells were essential for this synergism. Our findings suggested that this TCR Vbeta-haplotype-dependent synergism with TLR2 plays an important role in the development of AD-like dermatitis in DS-Nh mice.     

Ejaculation induced by i.c.v. injection of the preferential dopamine D(3) receptor agonist 7-hydroxy-2-(di-N-propylamino)tetralin in anesthetized rats

In addition to serotonin, dopamine within the CNS is known to play a primary role in the control of ejaculation. However, whether D(2) and/or D(3) dopamine receptor subtypes mediate this effect is still unclear. In order to clarify this issue, a pharmacological competitive study using the preferential D(3) agonist 7-hydroxy-2-(di-N-propylamino)tetralin (7-OH-DPAT) alone or in combination with competitive nonpreferential or preferential D(2) and D(3) antagonists delivered intracerebroventricularly (i.c.v.) was undertaken in anesthetized rats. Urethane-anesthetized male rats were implanted into the cerebral ventricle with a cannula for i.c.v. injections, and recording electrodes were placed within the bulbospongiosus (BS) muscle to monitor BS muscle contractions, which were used as a marker for the expulsion phase of ejaculation. Following i.c.v. injection, 7-OH-DPAT induced ejaculation and rhythmic BS muscle contractions. Co-injected i.c.v. with 7-OH-DPAT, the nonselective D(2)/D(3) antagonist (raclopride), and the preferential D(3) antagonist (S(-)-N[n-butyl-2-pyrrolidinyl)methyl]-1-methoxy-4-cyanonaphtalene-2-carboxamide; nafadotride) but not the preferential D(2) antagonist ((+/-)-3-[4-(4-chlorophenyl)-4-hydroxypiperidinyl]methylindole; L 741,626) inhibited the occurrence of ejaculation and BS muscle contractions. These results suggest that i.c.v. delivery of 7-OH-DPAT does represent a pertinent model to investigate the physio-pharmacology of ejaculation. It is inferred that targeting brain D(3) receptors may provide a therapeutic approach for treating ejaculatory disorders in humans.     

Cytokine induction by pyrogens: comparison of whole blood, mononuclear cells, and TLR-transfectants

Given the shortcomings in the measurement of pyrogenic contamination of pharmaceuticals and/or test substances by means of the rabbit pyrogen test and the Limulus amoebocyte lysate (LAL) test, several in vitro pyrogen tests have been developed based on the measurement of cytokine production by monocytes. In this study we measured cytokine production (IL-6, IL-8, IL-1beta, and TNF) in diluted whole blood (WB), mononuclear cells (MNC), and HEK cells stably transfected with CD14 and Toll-like Receptor-2 (TLR2) or TLR4, after stimulation with both standard pyrogens and contaminated substances. Our study demonstrated that in MNC, IL-6 production was more sensitive to pyrogen stimulation than IL-1beta and TNF production. The sensitivity of WB IL-8 production for pyrogens was comparable with that of MNC IL-6 production, but higher than WB IL-6 production. MNC IL-8 production as readout for pyrogenic stimulation was not useful due to high background IL-8 production. Surprisingly, contaminated culture media potently stimulated WB IL-8 production, but not MNC IL-6 production. Finally, the value of TLR-transfected HEK cells in the detection of pyrogenic contamination as well as the role of IL-10 in interindividual differences in cytokine production, is discussed. To summarize, the results presented herein together with literature data indicate that the measurement of WB IL-8 production may represent an advantageous alternative to the measurement of MNC IL-6 production, for the detection of pyrogenic contamination of pharmaceuticals.     

Synergistic regulation of Pseudomonas aeruginosa‐induced cytokine production in human monocytes by mannose receptor and TLR2

The immune response to pathogen is regulated by a combination of specific PRR, which are involved in pathogen recognition. Pseudomonas aeruginosa, a bacterium that causes life‐threatening disease in immuno‐compromised host, is recognized by distinct members of the TLR family. We have previously shown that viable P. aeruginosa bacteria are recognized by human monocytes mainly through TLR2. Using ligand‐specific blocking antibodies, we herein show that the mannose receptor (MR), a phagocytic receptor for unopsonized P. aeruginosa bacteria, contributes equally to TLR2 in proinflammatory cytokine production by human monocytes in response to P. aeruginosa infection. Synergy of both receptors totally controls the immune response. Viable P. aeruginosa bacteria activate NF‐κB and MAPK pathways and enhance TLR2‐mediated signaling in MR‐transfected human embryonic kidney 293 cells. Moreover, MR follows the same kinetics and colocalizes with TLR2 in the endosome during in vivo infection of human macrophages with P. aeruginosa. The studies provide the first demonstration of a significant role for MR, synergistic with TLR2, in activating a proinflammatory response to P. aeruginosa infection.     

Coordinate expression of group II phospholipase A2 and the acute-phase proteins haptoglobin (HP) and α1-anti-chymotrypsin (ACH) by HepG2 cells

The early response to inflammation is characterized by the synthesis of a variety of proteins under cytokine and glucocorticoid control. During episodes of infection or inflammation, a secretory phospholipase A₂ (sPLA₂) appears in the circulation along with a variety of acute-phase proteins (APP), suggesting possible common regulatory elements amongst sPLA₂ and APP. Using the human hepatoma line, HepG2, regulation of sPLA₂ expression was examined in relation to synthesis of HP and ACH. The patterns of induction of sPLA₂, HP and ACH were distinct for each of IL-1, tumour necrosis factor (TNF) and IL-6, oncostatin M, IL-11 and leukaemia inhibitory factor. Dexamethasone had an enhancing effect on IL-6-induced expression of HP and ACH, but inhibited sPLA₂ expression by 50%. Both 8-bromo-cAMP and dibutyryl cAMP increased sPLA₂ expression (48.8-fold and 64.2-fold, respectively), whereas KT5720, an inhibitor of protein kinase A, down-regulated cytokine-induced sPLA₂ synthesis by 51%. These data show that a panel of cytokines induced varying patterns of up-regulation of sPLA₂, ACH and HP. Although dexamethasone potentiated IL-6-induced APP expression in HepG2 cells, it suppressed sPLA₂ expression in a dose-dependent manner. In several respects, sPLA₂ regulation is similar to that of HP and ACH, but a notable difference is the reciprocal effect of glucocorticoids on sPLA₂ expression compared with that of ACH and HP.     

Mice that carry the resistance allele of the Bcg gene (Bcgr) develop a superior capacity to stabilize bacille Calmette–Guérin (BCG) infection in their lungs and spleen over a protracted period in the absence of specific immunity

In mice, natural resistance to infection with BCG is under the influence of an autosomal gene designated Bcg. It is shown here in agreement with others that mice that possess the dominant resistant allele of the gene (Bcg^r) are more capable than mice that possess the susceptible recessive allele (Bcg^s) at restricting the growth of BCG in their lungs, as well as in their spleens, during the first 20 days of infection. It is shown, in addition, that in the absence of specific immunity the resistance difference between Bcg^r and Bcg^s mice became much more pronounced as infection progressed beyond day 20. Whereas T cell-depleted Bcg^r mice developed a capacity after day 20 to cause infection in their lungs and spleens to stabilize and plateau for a least 40 days, T cell-depleted Bcg^s mice were unable to prevent infection from progressing in these organs. On the other hand, both types of T cell-depleted mice were capable of causing infection to plateau in their livers and kidneys. Moreover, this T cell-independent mechanism of resistance was essentially abolished in all organs in which it was expressed by treating the mice with hydrocortisone. In the lungs of immunocompetent Bcg^s mice, failure to stabilize infection was associated with heavily infected macrophages and failure to contain BCG at original sites of infection.     

Differential regulation of cytokine genes in gingival epithelial cells challenged by Fusobacterium nucleatum and Porphyromonas gingivalis

IL-8 mRNA in human gingival epithelial cells (HGECs) is up-regulated by Fusobacterium nucleatum, and up-/down-regulated by Porphyromonas gingivalis in a complex interaction in the early stages (< or = 4 h) after infection. The mechanisms involved in this regulation in response to F. nucleatum and/or P. gingivalis infection, and identification of co-regulated cytokine genes, are the focus of this investigation. Heat, formalin or protease treatment of F. nucleatum cells attenuated the IL-8 mRNA up-regulation. NF-kappaB, mitogen-activated protein kinase (MAPK) p38 and MAPK kinase/extracellular signal-regulated kinase (MEK/ERK) pathways were involved in IL-8 mRNA induction by F. nucleatum. Pretreatment of P. gingivalis with heat, formalin or protease enhanced IL-8 mRNA induction. NF-kappaB, MARK p38, and MEK/ERK pathways were also involved in this induction. In contrast, down-regulation of IL-8 mRNA by P. gingivalis involved MEK/ERK, but not NF-kappaB or MAPK p38 pathways. cDNA arrays analysis revealed that mRNA down-regulation by P. gingivalis is a specific reaction that only a number of genes, e.g. IL-1beta, IL-8, macrophage inflammatory protein-2alpha, and migration inhibitory factor-related protein-14, are affected based on examination of 278 cytokine/receptor genes. These data indicate that F. nucleatum and P. gingivalis trigger specific and differential gene regulation pathways in HGECs.