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Medium Development For Production Of Bacillus Thuringiensis Based BiopesticidesOzcan, Orhan 01 February 2008 (has links) (PDF)
The insect pathogen Bacillus thuringiensis (Bt) holds great promise as an effective and friendly way for management of the pests with safety for nontarget animals and humans. However, high capital investment due to high production and formulation cost of commercial Bt preparations has caused prohibitive effect on companies. The present study mainly aimed at developing a low cost medium that supports the growth of different Bt strains and their specific bioinsecticidal & / #948 / -endotoxins (crystal proteins).
A comparison was made between the representative members of three different subspecies of Bt to observe toxin yields in response to certain nutritional conditions. Three different Bt subspecies were Bt kurstaki (strain 81), Bt israelensis (strain HD500) and Bt tenebrionis (strain 3203), producing lepidoptera- and diptera-specific Cry1 and Cry2, diptera-specific Cry4Ba and Cry11Aa and coleoptera-specific Cry3Aa toxins, respectively. Studies were conducted to optimize glucose and inorganic phosphate concentrations in standard DSM medium for the production of these Bt-based biopesticides. General suppression of toxin yields in high glucose medium (10 g/L) thought the generality of carbon catabolite regulation for biosynthesis of different types of toxins. Inorganic phosphate (Pi) level was important for Cry4Ba, Cry11Aa and Cry3Aa biosynthesis while Cry1 and Cry2 production was not responsive to high Pi. Wastewater sludge, fruit residues and broiler litter were next tested as cheap raw materials for Bt-based biopesticide production in batch cultures. Broiler litter seemed to be a much better substrate among all since some degree of production of each toxin was observed at almost every stage of fermentation. The processing of broiler litter was found to significantly improve toxin yields. The medium prepared from processed broiler litter was successfully used to cultivate all Bt stains and obtain bioinsecticidal proteins in high yields which were comparable or higher than those that can be obtained on standard semi-synthetic media.
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Histochemical and scanning electron microscopic study of endotoxin-induced changes in vascular endothelial cells and villus goblet cells of rat intestineLiu, Shang-Pin 22 December 2009 (has links)
Intravenous application of a high dose of endotoxin, such as lipopolysaccharide (LPS), results in endotoxemia and sepsis in experimental animals. LPS induces production of cytokines and free radicals, plasma leakage and systemic inflammation. But the relationship between LPS-induced plasma leakage and endothelial gap formation is still unknown. Under normal physiological and pathological conditions, the mucus of intestine plays an important role in host defense mechanism as a barrier to prevent invasion of bacteria and endotoxin. The integrity of the intestinal epithelium is an important determinant of clinical outcome in septic patients. It is reported that, after LPS application, ileal mucosa is injured consequently. Necrosis of epithelial cells is also prominent feature in the villus epithelium. However, the response of mucin-secreting goblet cells is often ignored. The present study was designed to prove (1) whether LPS application increased plasma leakage by endothelial gap formation in rat intestinal tract, (2) whether LPS application increased goblet cell secretion by compound exocytotic activity in mucosal villi of small intestine; and (3) whether hydroxyl radicals were involved in LPS-induced compound exocytosis in goblet cells and plasma leakage.
First, the microcirculation of large intestine in rats was shown by using silver nitrate staining method, and India ink was used to label the leaky microvessels to express the magnitude of plasma leakage. Endothelial gaps formed between endothelial cells in the venules after LPS-induced inflammation were investigated by light and scanning electron microscopy. In saline control, the number of endothelial gaps per 1000 £gm2 endothelium of postcapillary and collecting venules was 0.2 ¡Ó 0.1 ~ 0.4 ¡Ó 0.1 / 1000 £gm2 (n = 5). At 5 minutes after LPS application, the endothelial gap density drastically increased to 12.1 ¡Ó 1.6 ~ 27.5 ¡Ó 2.2 / 1000 £gm2 (n = 5 or 6), about 43-69 times (P < 0.01) as much as control. At the same time, the magnitude of plasma leakage, expressed by area density of India ink-labeled blood vessels, in the cecum and colon of LPS-treated rats increased to 7.8-8.2 times (P < 0.01) as much as control. Unusually high degree of plasma leakage and high number of endothelial gaps persisted for at least 30 minutes after treatment. Then, a significant reduction to the baseline level occurred at 60 minutes after LPS application (P > 0.05). The results evidently indicated that LPS-induced intestinal plasma leakage and the endothelial gap formation of venules were closely related.
In the following experiment, in order to obtain an actual number of goblet cells in the mucosal epithelium, an innovative and effective experimental method was developed and adopted to prepare small intestine specimens in this study. Tissue pieces with two rows of mucosal villi were taken under a dissecting microscope. Then, scanning electron microscope was used to observe goblet cells and histochemistry staining was applied to further identify mucosubstance. The degree of goblet cell secretion in the villus epithelium of the duodenum and ileum was expressed by the number of cavitated goblet cells undergoing compound exocytosis. Digital morphometric software SimplePCI was employed to measure the epithelial surface area of sampled villi and to count the number of goblet cells. In addition, hydroxyl radical scavenger ¡V dimethylthiourea (DMTU) was also applied to explore the role of hydroxyl radicals involving in LPS-induced goblet cells secretion and plasma leakage. From scanning electron microscopy study, the numbers of cavitated goblet cells per mm2 of ileal villus epithelium in rats at 5 and 30 minutes after LPS injection were 693 ¡Ó 196 (n = 6) and 547 ¡Ó 213 (n = 6), respectively, which were 5.1 and 8.4 times (P < 0.05) compared with the number of saline control. The percentage of villus cavitated goblet cell numbers, in both duodenum and ileum 5 minutes after LPS and in the ileum 30 minutes after LPS, increased significantly (P < 0.05). When DMTU was given prior to LPS, the number of cavitated goblet cells and the amount of plasma leakage was inhibited and remained at the level as control (P > 0.05). It is concluded that the mechanism of the LPS-induced increase in compound exocytotic activity of goblet cells and increase in plasma leakage during acute phases of inflammatory response in rat small intestine was associated with hydroxyl radicals.
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TNF gene expression in macrophage activation and endotoxin toleranceChow, Nancy Ann-Marie 04 August 2014 (has links)
TNF is an inflammatory cytokine that plays a critical role in the acute phase response to infection, and its dysregulation has been implicated in the pathology of several inflammatory and autoimmune disorders. TNF gene expression is regulated in a cell type- and inducer-specific manner that involves chromatin alterations at both the TNF promoter and distal DNase I hypersensitive (DH) sites within the TNF/LT locus. While the mechanisms underlying TNF gene activation in monocytes/macrophages and T cells have been studied intensively, the mechanisms of enhanced, repressed, and restored TNF gene expression in the context of classical macrophage activation and endotoxin tolerance remain largely unknown. We set out to understand how TNF gene expression is modulated during these biological processes by characterizing the chromatin environment of the TNF/LT locus.
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Structural and Kinetic Characterization of LpxK, the Tetraacyldisaccharide-1- Phosphate Kinase of Lipid A BiosynthesisEmptage, Ryan Paul January 2013 (has links)
<p>Lipopolysaccharide, the physical barrier that protects Gram-negative bacteria from various antibiotics and environmental stressors, is anchored to the outer membrane by the phosphorylated, acylated disaccharide of glucosamine known as lipid A. Besides being necessary for the viability of most Gram-negative bacteria, lipid A interacts directly with specific mammalian immune cell receptors, causing an inflammatory response that can result in septic shock. The lipid A biosynthetic pathway contains nine enzymatic steps, the sixth being the phosphorylation of the tetraacyldisaccharide-1-phosphate (DSMP) precursor to form lipid IV<sub>A</sub> by the inner membrane-bound kinase LpxK, a divergent member of the P-loop containing nucleotide triphosphate hydrolase superfamily. LpxK is the only known P-loop kinase to act on a lipid at the membrane interface.</p><p> We report herein multiple crystal structures of <italic>Aquifex aeolicus</italic> LpxK in apo as well as ATP, ADP/Mg<super>2+</super>, AMP-PCP, and chloride-bound forms. LpxK consists of two α/β/α sandwich domains connected by a two-stranded β-sheet linker. The N-terminal domain, which has most structural homology to other P-loop kinase family members, is responsible for catalysis at the P-loop and positioning of the DSMP substrate for phosphoryl transfer on the inner membrane. The smaller C-terminal domain, a substructure unique to LpxK, helps bind the nucleotide substrate using a 25º hinge motion about its base which also assembles the necessary catalytic residues at the active site.</p><p> Using a thin-layer chromatography-based radioassay, we have performed extensive kinetic characterization of the enzyme and demonstrate that LpxK activity <italic>in vitro</italic> is dependent on the presence of detergent micelles, the use of divalent cations, and formation of a ternary LpxK-ATP/Mg<super>2+</super>-DSMP complex. Implementing steady-state kinetic analysis of multiple point mutants, we identify crucial active site residues. We propose that the interaction of D99 with H261 acts to increase the pK<sub>a</sub> of the imidazole group, which in turn serves as the catalytic base to deprotonate the 4’-hydroxyl of DSMP. An analogous mechanism has not yet been reported for any member of the P-loop kinase family.</p><p> The membrane/lipid binding characteristics of LpxK have also been also investigated through a crystal structure of the LpxK-lipid IV<sub>A</sub> product complex along with point mutagenesis of residues in the DSMP binding pocket. Critical contacts with the bound lipid include interactions along the glucosamine backbone and the 1-position phosphate group, especially through R171. Furthermore, analysis of truncation mutants of the N-terminal helix of LpxK demonstrates that this substructure is a critical hydrophobic contact point with the membrane, and that both charge-charge and hydrophobic interactions contribute to the localization of LpxK at the lipid bilayer. </p><p> Overall, this work has contributed significantly to the limited knowledge surrounding membrane-bound enzymes that act upon lipid substrates. It has also provided insight into the process of enzyme evolution as LpxK, while containing a similar core domain as other P-loop kinases, has developed multiple subdomains required for both cellular localization and recognition of novel substrates. Finally, the presence of multiple crystal structures and detailed understanding of the LpxK catalytic mechanism will improve the chances of successfully targeting this essential step in lipid A biosynthesis in the pursuit of novel antimicrobials.</p> / Dissertation
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Biosynthesis pathway & transport of endotoxin : promising antibacterial drug targets in the Burkholderia cepacia complex (BCC)Bodewits, Karin January 2011 (has links)
Burkholderia cepacia complex (Bcc) species are opportunistic pathogens in patients with cystic fibrosis (CF), which are able to cause lethal infections. The Bcc are inherently resistant to most classes of antibiotics, which makes successful treatment problematic. Lipid A (also known as endotoxin), the hydrophobic anchor of lipopolysaccaride (LPS), is the bio-active component of LPS. One of several unique characteristics of the lipid A of the Bcc, is the permanent attachment of 4-amino-4-deoxy-L-arabinose (L-Ara4N) to the lipid A molecule. Also, the genes involved in L-Ara4N biosynthesis are necessary for viability in B. cenocepacia. Here we present research on lipid A biosynthesis, modi cation, and transport in the Bcc and highlight promising antimicrobial targets. The synthetic antibiotic CHIR-090 is an inhibitor of LpxC, an enzyme involved in the lipid A biosynthetic pathway. I investigated the activity of CHIR-090 against the Bcc and found that sensitivity to this antibiotic was both species- and strain-specific. CHIR-090 displayed MICs between 0.1 and 12.5 μg/ml against a panel of B. multivorans, the most prevalent Burkholderia species in CF. The species- and strain-specific sensitivity towards CHIR-090 was further explored and a strong correlation was found between the presence of a unique open reading frame, named LpxC2, in resistant species. To address the problem of multiple drug-resistance of the Bcc, we investigated the activity of the pyridoxal 50-phosphate (PLP)-dependent enzyme inhibitor cycloserine (CS) against the Bcc. CS is used as a second line of defense against M. tuberculosis. The activity of the D-enantiomer of CS (DCS) against the Bcc was tested and displayed MICs between 2 and 128 μg/ml and acted bactericidal towards the Bcc. Additionally, DCS inhibition of recombinant ArnB from B. cenocepacia J2315, a PLP-dependent enzyme necessary for viability in the Bcc, was studied. ArnB was inhibited reversibly by DCS. ArnB was further explored as a promising drug-target in the Bcc, but only CS has been identified as an inhibitor so far. In this thesis it was attempted to find the reason why is L-Ara4N modification of lipid A necessary for viability in B. cenocepacia. Therefore, two proteins were characterised, which are involved in lipid A transport: LptA, the periplasmic lipid A binding protein, and LptB, the cytoplasmic ATP-ase. LptA was found to be able to bind both modified and unmodified lipid A in vitro and therefore is not L-Ara4N specific. Furthermore, LptA could bind deep-rough-, rough-, and smooth- LPS, similar to that described for Escherichia coli LptA. The kinetic parameters of LptB were determined in vitro (kcat = 5.71 min-1 and KM = 0.88 mM), and were comparable to E. coli LptB. The ATP-ase activity of LptB was not influenced by the presence of any forms of LPS (modified or non-modified). Therefore, we concluded that both B. cenocepacia J2315 LptA and LptB are not L-Ara4N specific.
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Response Surface Optimization Of Bacillus Thuringiensis Israelensis FermentationTokcaer, Zeynep 01 December 2003 (has links) (PDF)
The control of pest populations by using insect pathogens has been an attractive alternative to the application of chemical pesticides employed for the same purpose. As these chemicals not only damage the environment, but also trigger development of resistance by the pests and can harm other organisms together with the target pest,
biological control is preferable and Bacillus thuringiensis (Bt) subspecies have been the most widely used bioinsecticides in forestry, agriculture and mosquito/ black fly control.
The most important property of Bt subspecies is the synthesis of protoxins named as delta-endotoxins (crystal proteins). In this study, response surface optimization of Bt subsp. israelensis HD500 batch fermentation for high level production of its toxin proteins Cry4Ba and Cry11Aa was performed. As the interaction of the medium components as well as cultivation conditions are expected to influence the production of the toxin proteins, an experimental chart was prepared by accepting the previously reported optimal values for the most important parameters as zero points: [Mn], 10-6 M / [K2HPO4], 50 mM / C:N ratio, 20:1 and incubation temperature / 30° / C. When the combinations of these variables at different levels were studied at 30 batch cultures and analysed for the optimum toxin protein concentrations, temperature: 28.3& / #61616 / C, [Mn]: 3.3x10-7M, C:N ratio: 22.2 and [K2HPO4]: 66.1mM yielded the highest concentrations of both Cry4Ba and Cry11Aa toxin proteins.
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Occupational Exposure to Wood DustAlwis, Kuruppuge Udeni January 1998 (has links)
ABSTRACT Occupational exposure to wood dust and biohazards associated with wood dust (endotoxins, (1->3)-b-D-glucans, Gram (-)ve bacteria and fungi), their correlation to respiratory function, and symptoms among woodworkers have been investigated in the present study. Wood dust, endotoxins, and allergenic fungi are the main hazards found in woodworking environments. Relatively very few studies have been done on wood dust exposure. The present study was designed to comprehensively investigate the health effects of wood dust exposure, and in particular provide new information regarding: Exposure to (1->3)-b-D-glucans in an occupational environment; Levels of exposure to wood dust and biohazards associated with wood dust in different woodworking environments; Correlations among personal exposures, especially correlations between (1->3)-b-D-glucans and fungi exposures, and endotoxins and Gram (-)ve bacteria exposures; Effects of personal exposure to biohazards on lung function; Effects of personal exposure to biohazards on work-related symptoms; and Determinants of inhalable exposures (provide which factors in the environment influence the personal inhalable exposures). Workers at four different woodworking processes; two logging sites, four sawmills, one major woodchipping operation and five joineries situated in the state of New South Wales in Australia were studied for personal exposure to inhalable dust (n=182) and respirable dust (n=81), fungi (n=120), Gram (-)ve bacteria (n=120), inhalable endotoxin (n=160), respirable endotoxin (n=79), inhalable (1->3)-b-D-glucan (n=105), and respirable (1->3)-b-D-glucan (n=62). The workers (n=168) were also tested for lung function. A questionnaire study (n=195) was carried out to determine the prevalence of work-related symptoms. The geometric mean inhalable exposure at logging sites was 0.56 mg/m3 (n=7), sawmills 1.59 mg/m3 (n=93), the woodchipping mill 1.86 mg/m3 (n=9) and joineries 3.68 mg/m3 (n=66). Overall, sixty two percent of the exposures exceeded the current standards. Among joineries, 95% of the hardwood exposures and 35% of the softwood exposures were above the relevant standards. Compared with green mills, the percentage of samples, which exceeded the hardwood standard was high for dry mills (70% in dry mills, 50% in green mills). The respirable dust exposures were high at the joineries compared with the other worksites. Exposure levels to fungi at logging sites and sawmills were in the range 103-104 cfu/m3, woodchipping 103-105 cfu/m3 and joineries 102-104 cfu/m3. The predominant fungi found at sawmills were Penicillium spp. High exposure levels of Aureobasidium pullulans were also found at two sawmills. At the woodchipping mill the predominant species were Aspergillus fumigatus, Penicillium spp., and Paecilomyces spp. The sawmills, which employed kiln drying processes, had lower exposure levels of fungi compared with the green mills. Those workplaces which had efficient dust control systems showed less exposure to fungi and bacteria. Although mean endotoxin levels were lower than the suggested threshold value of 20 ng/m3, some personal exposures at sawmills and joineries exceeded the threshold limit value. The mean inhalable (1->3)-b-D-glucan level at the woodchipping mill was 2.32 ng/m3, at sawmills 1.37 ng/m3, at logging sites 2.02 ng/m3, and at joineries 0.43 ng/m3. For the respirable size fraction, mean endotoxin and mean (1->3)-b-D-glucan concentrations were much lower, being similar to observed dust concentrations. Significant correlations were found between mean inhalable endotoxin and Gram (-)ve bacteria levels (p<0.0001), and mean airborne inhalable (1->3)-b-D-glucan and fungi levels (p=0.0003). The correlations between mean respirable endotoxin levels vs Gram (-)ve bacteria exposure levels (p=0.005), and respirable (1->3)-b-D-glucan exposure levels vs total fungi levels (p=0.005) were also significant. Significant correlations were found between lung function and personal exposures. Multivariate analyses showed that the effect of all the personal exposures on cross-shift decrements in lung function was more prominent among sawmill and chip mill workers compared with joinery workers. Woodworkers had markedly high prevalence of cough, phlegm, chronic bronchitis, frequent headaches, throat and eye irritations, and nasal symptoms compared with controls. Among the woodworkers, smokers had a high prevalence of chronic bronchitis (20%) compared with non-smokers (10%). Some workers also reported a variety of allergy problems due to exposure to various types of wood dust. Both joinery workers and sawmill and chip mill workers revealed significant correlations between work-related symptoms and personal exposures. Chronic bronchitis was significantly correlated with personal exposure to wood dust, endotoxin, (1->3)-b-D-glucan, fungi, and Gram (-)ve bacteria among joinery workers. Whereas among sawmill workers chronic bronchitis was significantly correlated with personal exposure to endotoxin, (1->3)-b-D-glucan, and fungi. Woodworkers showed significant positive correlations between percentage cross-shift change (decrease) in lung function and respiratory symptoms. Significant inverse correlations were also found among percentage predicted lung function and respiratory symptoms. The elevated inhalable dust exposures observed in this study can be explained by a combination of factors, including: lack of awareness of potential health effects of wood dust exposure among both management and workers, aging equipment, inadequate and ineffective dust extraction systems or usually none especially for hand held tools, poor maintenance of the ventilation system in some, non-segregation of dusty processes, dry sweeping, and the use of compressed air jets. The determinant-of-exposure analysis confirmed the field observations. The significant determinants of personal inhalable dust exposures (n=163) were found to be: local exhaust ventilation, job title, use of hand-held tools, cleaning method used, use of compressed air, and green or dry wood processed. Type of wood processed was not found to be statistically significant. A majority of workers (~90%) did not wear appropriate respirators approved for wood dust, while the workers who did wear them, used them on average less than 50% of the time. Workers should be protected by controlling dust at its source. When exposure to wood dust cannot be avoided, engineering controls should be supplemented with the use of appropriate personal protective equipment.
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Expression der mRNA der Toll-like Rezeptoren TLR2 und TLR4 bei Sepsis und großen abdominalchirurgischen Eingriffen sowie deren Bezug zur Akute-Phase Reaktion und die Veränderung der peripheren LeukozytenpopulationenUtz, Katja. January 2008 (has links)
Ulm, Univ., Diss., 2008.
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Regulation of macrophage subsets in homeostatic and inflammatory mucosal environmentsAlshaghdali, Khalid January 2018 (has links)
The interaction between epithelial cells and macrophages is integral to mucosal immune fate: determining the decision between tolerance and immune activation/inflammation. Endotoxin tolerisation (ET) is a circumstance where cells go through a hypo-responsive state, unable to respond to further endotoxin-LPS challenge. Mucosal macrophages (MΦs) have a dual functionality that determines tolerance to commensal organisms or immune response to entropathogens such as E. coli. In the case of mucosal inflammatory pathologies, such as Crohn’s disease, this state of tolerance is broken, resulting in destruction of gut mucosal tissue where the macrophage phenotype has been altered from a regulatory M2-like subset phenotype to an inflammatory M1-like subset phenotype, responding to both pathogenic and commensal bacteria. Chronic inflammation by bacterial pathogen related molecular patterns (PAMPs), such as LPS, is well established to induce tolerisation. The aims of this project were firstly, to characterise the control of macrophage differentiation in a mucosal setting by investigating the immunomodulatory effects of PAMPs, such as LPS in presence or absence of TNFα and to investigate ET mechanisms associated with MΦ subsets responding to the entropathogen E. coli K12-LPS. Secondly, to investigate the effect of epithelial cells on macrophage subsets behaviour upon inflammation and ET. M1- and M2-like MΦs were generated in vitro from the THP-1 monocyte cell line by differentiation with PMA and vitamin D3, respectively, whereas differentiated epithelial cells (Caco-2) were obtained by long term culturing for 21 days. A transwell co-culture system of Caco2 cells and MΦ subsets was developed to mimic the cell-to-cell cross-talk between epithelial cells and immune cells. Mono- and co-culture models were pre-treated with either LPS, TNFα or IL-1β prior to stimulation by PAMPs. TNFα, IL-1β, IL-18, IL-6 and IL-10 were qualified by ELISA. Cytokines, PRRs and endogenous negative regulatory molecules were detected by RT-PCR and WB and epithelial barrier function was measured by trans epithelial electrical resistance (TEER). ET induced by K12-LPS failed to demonstrate a differential subset-specific response in MΦ mono-culture system whereas, LPS differentially suppress LPS induced cytokine expression in MΦ co-culture system. Tolerised M1- and M2-like MΦs exhibited a significant reduction in expression and secretion of pro-inflammatory cytokines and comparable levels of anti-inflammatory cytokine, IL-10. The suppression of pro-inflammatory cytokine in these MΦs appeared to be linked to the differential TLR4 expression and up-regulation of negative regulators, such as IRAK-M and Tollip. In addition, MΦ subsets differentially responded to inflammation induced by pro-inflammatory cytokines, TNFα and IL-1β in mono- and co-culture models. In conclusion, tolerisation induced in MΦs is presented by the suppression of pro-inflammatory cytokine, which is associated with corresponding up-regulation of IL-10, TLR4 receptor and the negative regulators, in a subset-independent manner. In the case of cross-talk between epithelial cells and macrophages however, a differential sensitivities to ET was displayed. These findings allow more understanding of MΦ subsets functions and ET mechanisms, which may be beneficial for the development of in-vitro models of MΦ subsets and therapeutics targeting Crohn’s diseases.
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Tolerância a endotoxina no periodonto de ratos: participação do óxido nítrico / Endotoxin tolerance in the periodontal of rats: participation of the nitric oxideValéria Pontelli Navarro Tedeschi 09 December 2009 (has links)
A injeção de doses repetidas de lipopolissacarídeo (LPS) resulta em atenuação da resposta febril, que é chamada de tolerância a endotoxina. Esta resposta já foi caracterizada em ratos por meio de injeções sistêmicas. No presente estudo, nós testamos a hipótese que a tolerância a endotoxina ocorre localmente nos tecidos periodontais de proteção de ratos e que o óxido nítrico participa desta tolerância. Ratos machos Wistar foram injetados nos tecidos periodontais de proteção com solução salina ou LPS de Escherichia coli na dose de 100 μg/kg em 3 dias consecutivos com 24 horas de intervalo. A temperatura corporal (Tc) foi medida por meio de datalogger 1 h antes e 6 h após as injeções. Outro grupo experimental recebeu injeção intracerebroventricular (i.c.v.) de L-NMMA (500 μg/rato) 30 min antes da injeção de LPS no terceiro dia. Além disto, foi realizada a imunohistoquímica para proteína Fos para verificar a ativação neuronal na Área Pré-óptica do hipotálamo (POA) e no subnúcleo caudal do núcleo trigeminal espinhal no primeiro dia (animais não tolerantes) e terceiro dia (animais tolerantes) do tratamento com LPS, e também em animais que receberam L-NMMA ou salina i.c.v. no terceiro dia, antes do LPS. No dia, 1 após a injeção de LPS, foi observado uma resposta febril polifásica, no dia 2 houve uma alteração no padrão desta resposta e no dia 3 a resposta febril foi completamente abolida, caracterizando o desenvolvimento de tolerância a endotoxina na cavidade oral. Esta tolerância foi revertida com o pré-tratamento com L-NMMA no terceiro dia e os animais voltaram a apresentar febre. A imunohistoquímica detectou um aumento na expressão da proteina Fos no subnúcleo caudal do núcleo trigeminal espinhal e na POA no dia 1 em animais que receberam LPS, aumento este que foi abolido no dia 3 de tratamento com LPS. Da mesma forma que observamos a reversão do mecanismo de tolerância com o desenvolvimento da resposta febril no terceiro dia, o pré-tratamento com L-NMMA aumentou o número de células Fos positivas em ambas às áreas estudadas. Estes resultados indicam que ratos desenvolvem tolerância ao LPS nos tecidos periodontais e que o óxido nítrico participa desse mecanismo de tolerância induzido por LPS no periodonto de ratos. / Systemic injection of repeated doses of Escherichia coli lipopolysaccharide (LPS) results in attenuation of the febrile response, i.e. endotoxin tolerance, which has been well characterized systemically in rats. In the present study, we tested the hypothesis that endotoxin tolerance also occurs after repeated local injection of LPS into periodontal protection tissue of rats and that nitric oxide plays a role in this mechanism. Male Wistar rats were given a gingival injection of sterile saline or LPS at a dose of 100 μg/kg on three consecutive days with 24 hours break. Body core temperature (Tb) was measured with a miniature datalogger 1 hour before and 6 hours after the injections. Another group received L-NMMA (500 μg/rat) intracerebroventricular (i.c.v.), 30 minutes before LPS, in the third day. Besides it, was performed the Fos immunohistochemistry to verify the neuronal activation in the preoptic area of hypothalamus (POA) and in the subnucleus caudalis of spinal trigeminal nucleus in the first day (non-tolerant animals), in the third day of LPS treatment (tolerant animals) and in the animals that received L-NMMA or saline i.c.v. in the third day, before LPS. On day one we observed a polyphasic febrile response after LPS injection. On day two this response was sensitized and on day three the febrile response was completely abolished, characterizing the development of the endotoxin tolerance in the oral cavity. This tolerance was reverted with the pretreatment with L-NMMA in the third day and the animals develop the febrile response. The immunohistochemistry detected an increase in Fos protein expression in the subnucleus caudalis of spinal trigeminal nucleus and in the POA on day one in animals that received LPS and a reduction in Fos expression was observed on day three. Similarly to the reversion of the tolerance mechanism by the development of the febrile response in the third day, the pretreatment with L-NMMA, increased the number of Fos positive cells in both studied areas. These results indicate that rats develop endotoxin tolerance in periodontal tissues and that nitric oxide plays a role in this mechanism.
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