Human Papillomavirus (HPV) Prevalence in Nasal and Antrochoanal Polyps and Association with Clinical Data

Objectives

The pathogenesis of sinonasal polyposis remains unclear, in spite of several investigative approaches. Antrochoanal polyps, a subgroup of sinonasal polyposis along with allergic- and chronic-inflammatory nasal polyps, mostly originate from the maxillary sinus and develop as a unilateral, pedunculated mass towards the nasopharynx. The human papillomavirus (HPV) is discussed as a possible causative and influencing factor in development and progression of sinonasal polyposis. This study aims to elucidate HPV frequency in nasal polyps and antrochoanal polyps.

Materials and Methods

Genomic DNA from 257 tissue specimens (166 nasal polyps, 39 antrochoanal polyps and 52 nasal turbinates) was subjected to three different established HPV- polymerase chain reaction assays, testing for 37 low- and high-risk HPV. In addition, immunohistochemical analyses for HPV16 were carried out, as well as immunohistochemistry and western blots of p16, a biomarker for HPV induced cancer.

Results

HPV-DNA was detected in 53.8% of antrochoanal polyps, 15.1% of nasal polyps, and 5.8% of nasal turbinates. HPV16 was the predominant type with a detection rate of 76% in nasal polyps and 62% in antrochoanal polyps. Immunohistochemically, HPV positive tissues stained positive for HPV16 antigens and p16 in epithelial cell layers. No significant p16 overexpression was traceable in antrochoanal polyps, nasal polyps and nasal turbinates by western blot. There was no correlation of HPV-status with sex, age, smoking, alcohol consumption or allergic background.

Conclusion

The present study shows a significant frequency of high-risk type HPV16 in antrochoanal polyps. Absence of oncogenic transformation or correlation of the HPV-status with clinical data suggests a latent superinfection, possibly because of anatomical proximity to the oropharynx.     

Arachidonic acid alleviates the detrimental effects of acetylsalicylic acid on human granulosa cells performance in vitro

Here, we investigated the biological effects of arachidonic acid (AA) in human cumulus granulosa cells (CGCs) after exposure to ASA. Cells were isolated from the follicular fluid and incubated with 0.5 mM acetylsalicylic acid (ASA) and 50 µM AA. Cell viability was analyzed by 3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyltetrazolium bromide assay. E₂ and P₄ levels were measured by chemiluminescence assay. Expression of genes including CYP19A1, FACN, and SCD1 was measured by real‐time polymerase chain reaction assay. Oxidative status was analyzed by monitoring glutathione peroxidase activity. The fatty acid profile was analyzed by the gas chromatography technique. Enzyme‐linked immunosorbent assay was used to measure prostaglandin E₂ (PGE₂) in CGCs after exposure to ASA and AA. Protein levels of the estrogen receptor were studied by immunofluorescence staining. Ultrastructural changes were evaluated by transmission electron microscopy imaging. ASA treatment reduced E₂ production, Cyp19a1 expression, glutathione peroxidase (GPx) activity, and estradiol receptor expression in CGCs. The addition of AA prevented the ASA‐induced E₂ reduction (p < .05) and expression of Cyp19a1. Moreover, AA increased the antioxidant capacity of CGCs exposed to ASA by promoting GPx activity (p < .05). AA increased monounsaturated fatty acid/saturated fatty acid ratio compared with the ASA group (p < .05). AA supplementation triggered the synthesis and secretion of PGE₂ in ASA‐treated CGCS (p < .05). Cytoplasmic vacuolation observed in the ASA group and treatment with AA intensified vacuolation rate. The expression of the estrogen receptor was increased after AA supplementation. Data demonstrated that AA decreased the detrimental effects of ASA on human CGCs after 72 hr.     

Downregulation of peroxisome proliferator-activated receptors (PPARs) in nasal polyposis

Background

Peroxisome proliferator-activated receptor (PPAR) α, βδ and γ are nuclear receptors activated by fatty acid metabolites. An anti-inflammatory role for these receptors in airway inflammation has been suggested.

Methods

Nasal biopsies were obtained from 10 healthy volunteers and 10 patients with symptomatic allergic rhinitis. Nasal polyps were obtained from 22 patients, before and after 4 weeks of local steroid treatment (fluticasone). Real-time RT-PCR was used for mRNA quantification and immunohistochemistry for protein localization and quantification.

Results

mRNA expression of PPARα, PPARβδ, PPARγ was found in all specimens. No differences in the expression of PPARs were obtained in nasal biopsies from patients with allergic rhinitis and healthy volunteers. Nasal polyps exhibited lower levels of PPARα and PPARγ than normal nasal mucosa and these levels were, for PPARγ, further reduced following steroid treatment. PPARγ immunoreactivity was detected in the epithelium, but also found in smooth muscle of blood vessels, glandular acini and inflammatory cells. Quantitative evaluation of the epithelial immunostaining revealed no differences between nasal biopsies from patients with allergic rhinitis and healthy volunteers. In polyps, the PPARγ immunoreactivity was lower than in nasal mucosa and further decreased after steroid treatment.

Conclusion

The down-regulation of PPARγ, in nasal polyposis but not in turbinates during symptomatic seasonal rhinitis, suggests that PPARγ might be of importance in long standing inflammations.     

Leukocytic functions in burn-injured patients

Anergy associated with an increase in suppressor helper T cell (T_c) ratio and a decrease in natural killer (NK) is one main cause of death following thermal injury (Tl). Recently, in vitro studies have shown that LTB₄ can induce human T_c to exert suppressor cell activity, and incubation of lymphocytes with LTB₄ for 24 hours significantly suppressed NK cell activity. Thus, we undertook an investigation of both AA metabolism and immunologic response in 20 patients who suffered 40–90% total body surface area (TBSA) burns. Cyclooxygenase (CO:RIA) and lipoxygenase (LO;HPLC det.) metabolites and superoxide (O₂^.−) production were measured in stimulated polymorphonuclear cells (PMNL) (A 23187 ± AA for icosanoid release; phorbol myristate acetate for O₂^.− production). Lyso-paf-acether (P-LPA) was measured in plasma samples. Ca²⁺-dependent K⁺ permeability in PMNL was measured by the cell K⁺ release induced by A 23187. T_c and T_c subsets were determined using monoclonal antibodies (OKT₃₊, OKT₄₊ and OKT₈₊). A biphasic sequential release of the different substances (leukocytic icosanoids and O₂^.− was monitored: increase ( 36–48 h after Tl) and decrease ( 72 h after Tl). The increase in AA stimulation was more transient than that of O₂^.−. The decline in the release of AA metabolites and O₂^.− production was associated with the anergic phase (decrease OKT₄₊/OKT₈₊ ratio) and with the clinical outcome of the patients. The decrease in LTB₄ and other LO metabolites could explain the impairment of neutrophil chemotaxis. Ca²⁺-dependent K⁺ permeability increased early up to 2 or 3 times normal.In order to go further with the mechanism of inhibition of LTB₄ and O₂^.− release, the effect of Tl plasma was assayed on normal leukocytes: a 10 min incubation with such plasma was sufficient to abolish LTB₄ secretion. A less important inhibition was observed with O₂^.− release (−32%) and Ca²⁺-dependent K⁺ permeability (−30%). Plasma inhibition seems to be due to a thermolabile factor(s) [protein(s): “suppressive factor(s) of membrane activation ”SFMA] which is (are) under active investigation using gel-filtration chromatography and fast protein liquid chromotography (FPLC). Among the SFMAs, certain acute phase proteins could play a key role: i.e., incubation (10 min) of normal PMNL with ceruloplasmin (1 mg/ml) abolished LO products and O₂^.− release.     

Electron-transfer chain catalysis in phosphine replacement reaction: Determination of relative donor capability of arylpyridylphosphines

The slight differences in the donor capabilities of PPh_nPy_3−n (n = 0-3) could be measured directly in the equilibrium of phosphine replacement reaction on (η⁵-C₅H₅)Fe(CO)₂-phosphine complexes, taking advantage of the radical pathway to establish equilibrium rapidly. The simultaneous determination of equilibrium constants is done in a single experiment. The donor capability increases in the order PPh₃ < PPh₂Py < PPhPy₂ < PPy₃ with quantified -affinity scales at 1, 4.90, 11.0, and 20.3, respectively.     

Roles of leukotrienes in non-allergic and allergic inflammatory models

Leukotrines (LT) C₄, D₄ and ₄ show potent activities in plasma exudation and vasoconstriction, whereas LTB₄ induces chemotaxis and chemokinesis in very low concentrations (1). Thus, LTs may be involved in inflammatory reactions, particularly in allergic inflammation.The present experiments were performed to detect leukotrienes in inflammatory exudates of rat carrageenin pleurisy as a non-allergic model, compared with those of two types of allergic rat pleurisy.     

A new method to evaluate anti-allergic effect of food component by measuring leukotriene B<Subscript>4</Subscript> from a mouse mast cell line

Leukotrienes (LTs), chemical mediators produced by mast cells, play an important role in allergic symptoms such as food allergies and hay fever. We tried to construct an evaluation method for the anti-LTB₄ activity of chemical substances using a mast cell line, PB-3c. PB-3c pre-cultured with or without arachidonic acid (AA) was stimulated by calcium ionophore (A23187) for 20 min, and LTB₄ production by the cells was determined by HPLC with UV detection. LTB₄ was not detected when PB-3c was pre-cultured without AA. On the other hand, LTB₄ production by PB-3c pre-cultured with AA was detectable by HPLC, and the optimal conditions of PB-3c for LTB₄ detection were to utilize the cells pre-cultured with 50 µM AA for 48 h. MK-886 (5-lipoxygenase inhibitor) completely inhibited LTB₄ production, but AACOCF₃ (phospholipase A₂ inhibitor) slightly increased LTB₄ production, suggesting that LTB₄ was generated from exogenous free AA through 5-lipoxygenase pathway. We applied this technique to the evaluation of the anti-LTB₄ activity of food components. PB-3c pre-cultured with 50 µM AA for 48 h was stimulated with A23187 in the presence of 50 µM soybean isoflavones (daidzin, genistin, daidzein, and genistein), equol, quercetin, or kaempferol. Genistein, equol, quercetin, and kaempferol strongly inhibited LTB₄ production without cytotoxicity. These results suggest that a new assay system using PB-3c is convenient to evaluate LTB₄ inhibition activity by food components. This method could be utilized for elucidation of the mechanisms of LTB₄ release suppression by food components such as flavonoids and the structure–activity relationship.     

Clearance and metabolism of arachidonic acid by C6 glioma cells and astrocytes

Effects of increased levels of arachidonic acid (AA) were analyzed in vitro by employment of C6 glioma cells and astrocytes from primary culture. The cells were suspended in a physiological medium added with arachidonic acid (AA) in a concentration range from 0.01 to 0.5 mM. The concentration profiles of the fatty acid and AA-metabolited were subsequently followed for 90 min. AA was measured by gas chromatography, whereas the AA-metabolites PGF₂ and LTB₄ by radioimmunoassay (RIA). Following administration of AA at 0.05 or 0.1 mM the medium was completely cleared from the fatty acid within 10 to 15 min. However, when 0.5 mM were added, AA concentrations of 0.36±0.055 mM were found at 20 min, while 0.275±0.045 mM at 90 min. Addition of AA (0.1 mM) to cell-free medium was also associated with a steady decline of its concentration, although the decrease was markedly delayed as compared to the clearance in the presence of glial cells. AA was subjected to dose-dependent metabolisation in the cell suspension as demonstrated by the production of PGF₂ and LTB₄. Following addition of 0.01 or 0.5 mM, concentrations of PGF₂ increased to a 1.9- or 4.9-fold level within 10 min, whereas those of LTB₄ rose to a 1.3- or 33.7-fold level. This was attenuated or completely blocked, respectively, by the cyclo- and lipoxygenase inhibitor BW 755C. Formation of both metabolites from AA was also observed when studying astrocytes from primary culture. The current findings demonstrate an impressive efficacy of C6 glioma cells and astrocytes to clear arachidonic acid from the suspension medium and to convert the lipid compound into prostaglandins and leukotrienes. Uptake and metabolisation of AA by the glial elements may play an important role in vivo, for example in cerebral ischemia.     

Synthesis and characterization of amine complexes of the cyclopentadienyliron dicarbonyl complex cation, [Cp(CO)2Fe]

The organometallic Lewis acid, [CpFe(CO)₂]⁺ (Cp = η⁵-C₅H₅) reacts with excess dry diethyl ether at low temperatures to form the labile complex [CpFe(CO)₂(Et₂O)]⁺[BF₄]⁻ (1) which is stable at low temperatures and has been fully characterized. Complex 1 in turn reacts with 1-aminoalkanes and α,ω-diaminoalkanes to form new complexes of the type [CpFe(CO)₂NH₂(CH₂)_nCH₃]BF₄ (n = 2-6) (2) and [{CpFe(CO)₂}₂μ-(NH₂(CH₂)_nNH₂)](BF₄)₂ (n = 2-4) (3), respectively. These complexes have been fully characterized and the mass spectral patterns of complexes 2 are reported. The structures of compounds 2a (n = 2) and 2b (n = 3) have been confirmed by single crystal X-ray crystallography. The single crystal X-ray diffraction data show that complex 2a, [CpFe(CO)₂NH₂(CH₂)₂CH₃]BF₄, crystallizes in a triclinic space group while 2b, [CpFe(CO)₂NH₂(CH₂)₃CH₃]BF₄, crystallizes in an orthorhombic Pca2₁ space group with two crystallographically independent molecular cations in the asymmetric unit. Furthermore, the reaction of 1 with 1-alkenes gives the η²-alkene complexes in high yield.     

Phenotypic expression of proteoglycan in mast cells of the human nasal mucosa

Summary The phenotypic expression of the proteoglycan of human mast cells in the nasal mucosa and normal skin was analysed using histochemical techniques. Nasal mucosa was obtained from normal subjects, from patients with seasonal allergic rhinitis before and during the pollen season and from patients with nasal polyps. In the latter groups, specimens were taken from both polyp tissue and adjacent nasal mucosa. Formaldehyde treatment blocked the cationic dye binding in 75–84% of the mast cells located in the nasal mucosa, as compared to the optimum fixation with IFAA (iso-osmotic formaldehyde-acetic acid). A significantly lower degree of blocking of dye binding was obtained in the human skin where 45% of the mast cells were susceptible to formaldehyde treatment (P<0.01). The mast cells of the polyp tissue also showed a relatively low degree of blocking (54%), which was significantly lower than the blocking of mast cells of the nasal mucosa taken from the same individuals (P<0.05). Staining of serial tissue sections in Alcian Blue containing graded concentrations of MgCl₂ was used to determine the critical electrolyte concentration (CEC) of the dye binding, defined as the salt concentration at which the staining of 50% of the mast cells is extinguished. The CEC of the skin mast cells was 0.64m MgCl₂ which is significantly higher than that of the mast cells of the nasal mucosa of normal subjects [0.49m (P<0.05)], allergic subjects [0.52m (P<0.01)], patients with polyp disease [0.52m (P<0.01)] and the polyp tissue proper [0.57m (P<0.05)]. This implies that mast cells of the nasal mucosa contain glycosaminoglycans of a relatively lower charge density and/or molecular size than the connective tissue mast cells found in the human skin. A similar difference has been observed between rat mucosal mast cells, containing a chondroitin suphate proteoglycan, and rat connective tissue mast cells which contain a heparin proteoglycan. However, unlike the rat mucosal cells, the mast cells of the human nasal mucosa showed a weakly fluorescent Berberine binding and, like the rat connective tissue mast cells, entirely lost the ability to bind Toluidine Blue after treatment with nitrous acid. Such treatment results in a deaminative cleavage of heparin and heparan sulphate, but does not degrade chondroitin sulphate. These results provide further evidence of the existence of a distinctive mucosal mast cell phenotype also in man. It is suggested that the lower CEC of the mucosal mast cells is an expression of a content of haparan sulphate, while the relatively higher CEC of the skin mast cells is compatible with a content of heparin.     

Racial Differences in Relative Skeletal Muscle Mass Loss During Diet‐Induced Weight Loss in Women

Objective

It is unclear whether there are race‐specific differences in the maintenance of skeletal muscle during energy restriction. Changes in relative skeletal muscle index (RSMI; limb lean tissue divided by height squared) were compared following (1) diet alone, (2) diet + aerobic training, or (3) diet + resistance training.

Methods

Overweight, sedentary African American (AA; n = 72) and European American (EA; n = 68) women were provided an 800‐kcal/d diet to reduce BMI < 25 kg/m². Regional fat‐free mass was measured with dual‐energy x‐ray absorptiometry. Steady‐state VO₂ and heart rate responses during walking were measured.

Results

AA women had greater RSMI and preserved RSMI during diet alone, while RSMI was significantly reduced among EA women (EA women –3.6% vs. AA women + 1.1%; P < 0.05). Diet + resistance training subjects retained RSMI (EA women + 0.2% vs. AA women + 1.4%; P = 50.05), whereas diet + aerobic training subjects decreased RSMI (EA women –1.4% vs. AA women –1.5%; P < 0.05). Maintenance of RSMI was related to delta walking ease and economy.

Conclusions

Compared with AA women, EA women are less muscular and lose more muscle during weight loss without resistance training. During diet‐induced weight loss, resistance training preserves skeletal muscle, especially among premenopausal EA women. Maintenance of muscle during weight loss associates with better ease and economy of walking.

     

On the mechanism of formation and spectral properties of radical anions generated by the reduction of -[Re(CO)3(5-nitro-1,10-phenanthroline)] and -[Re(CO)3(3,4,7,8-tetramethyl-1,10-phenanthroline)] pendants in poly-4-vinylpyridine polymers

The electrochemical reduction in aprotic media of -[Re^I(CO)₃L]⁺ pendants in poly-4-vinylpyridine polymers is compared to that of [Re^I(CO)₃L]⁺ complexes (L = 5-nitro-1,10-phenanthroline and 3,4,7,8-tetramethyl-1,10-phenanthroline). The UV-Vis absorption spectra of the reduced radical anions of 5-nitro-1,10-phenanthroline (NO₂-phen) and 3,4,7,8-tetramethyl-1,10-phenanthroline (tmphen) were obtained by spectro-electrochemistry of [Re^I(CO)₃(NO₂-phen)(CH₃CN)]⁺ and [Re^I(CO)₃(tmphen)(CH₃CN)]⁺, respectively. Similar spectra were obtained for the radical anions -phen and tmphen⁻ after pulse radiolysis experiments with -[Re^I(CO)₃L]⁺-containing polymers. The analysis of the time-resolved difference spectra was performed using “multivariate curve resolution” (MCR) techniques. Unlike , CH₂OH radicals were unable to reduce tmphen ligands. The reaction of and/or CH₂OH with -[Re^I(CO)₃(NO₂-phen)]⁺-containing polymers generates -[Re^I(CO)₃(-phen)] pendants which after disproportionation give rise to products with λ_max = 380 nm. The kinetic behavior of -[Re^I(CO)₃(-phen)] pendants under different experimental conditions is discussed.     

Growth Inhibitory Effect of Polyunsaturated Fatty Acids (PUFAs) on Colon Cancer Cells via Their Growth Inhibitory Metabolites and Fatty Acid Composition Changes

Background

Colorectal cancer is common. Polyunsaturated fatty acids (PUFAs) exert growth-inhibitory and pro-apoptotic effects on colon cancer cells. Metabolites of PUFAs such as prostaglandins (PGs), leukotrienes (LTs) and lipoxins (LXs) play a significant role in colon cancer.

Methods

Human colon cancer LoVo and RKO cells were cultured with different concentration of PUFAs and 5-fluorouracil (5-FU) in vitro. Cell morphological changes, fatty acid composition, formation of PGE2, LTB4 and LXA4 and expression of COX-2, ALOX5, PGD synthase (PGDS), microsomal prostaglandin E synthase (mPGES) were assessed in LoVo and RKO cells when supplemented with PUFAs and 5-FU.

Results

PUFAs and 5-FU inhibited growth of LoVo and RKO cells to the same extent at the doses used and produced significant alterations in their shape. As expected, higher concentrations of supplemented PUFAs were noted in the cells compared to control. LA, GLA, AA, ALA and EPA supplementation to LoVo cells suppressed production of PGE₂, LTB₄,and ALOX5, mPGES expression, but enhanced that of LXA₄; whereas DHA enhanced PGE₂ and LXA₄ synthesis but decreased LTB₄ formation and COX-2, ALOX5, mPGES expression. In contrast, 5-FU enhanced formation of PGE₂, LTB₄ and mPGES expression, but suppressed LXA₄ synthesis and COX-2 expression. PGE₂, LTB₄ synthesis and ALOX5 expression was suppressed by LA, GLA, ALA and DHA; whereas AA, EPA and 5-FU enhanced PGE₂ but paradoxically AA decreased and EPA and 5-FU enhanced LTB4 synthesis in RKO cells. All the PUFAs tested enhanced, while 5-FU decreased LXA₄ formation in RKO cells; whereas GLA, AA, and 5-FU augmented while LA, ALA, EPA and DHA enhanced COX-2 expression in RKO cells.

Conclusions

Tumoricidal action of PUFAs on colorectal LoVo and RKO cancer cells in vitro was associated with increased formation of LXA₄, decreased synthesis of PGE₂ and LTB₄ and suppressed expression of COX-2, ALOX5, mPGES, whereas 5-FU produced contrasting actions on these indices.     

Notch-1 decreased expression contributes to leptin receptor downregulation in nasal epithelium from allergic turbinates

BackgroundAllergic rhinitis is characterized by a remodeling of nasal epithelium. Since the Notch and TGF-β signaling pathways are known to be involved in cell differentiation and remodeling processes and leptin adipokine has already been identified as a marker for homeostasis in human bronchial and nasal epithelial cells of asthmatics, roles played by these pathways have been investigated for chronic allergic rhinitis.MethodsThe leptin/leptin receptor expression has been investigated in a study with 40 biopsies from allergic (AR, n = 18) and non-allergic (C, n = 22) inferior turbinates, using immunohistochemistry, immunofluorescence staining and RT-PCR. In addition, extracts from in vitro samples prepared from primary cells of inferior turbinates as well as in vitro cultured human nasal epithelial RPMI 2650 cells (ATCC-CCL-30) were also tested for leptin expression and activation of the Notch-1 pathway.ResultsWith regards to AR, in vivo expression levels of both leptin and its receptor significantly decreased in comparison to C. Furthermore, leptin receptor mRNA was significantly reduced in AR as compared to C. Immunofluorescence showed an apparent co-expression of leptin receptor with Notch-1, which was not seen with TGF-β. In vitro, in primary turbinate epithelial cells, the expression of leptin receptor and Notch-1 significantly decreased in AR as compared to C. Moreover, in RPMI 2650 cells, leptin receptor expression was shown to be induced by Notch-1 ligand signaling.ConclusionThus, both the leptin and Notch-1 pathways appear to represent markers for epithelial homeostasis in allergic rhinitis.     

RETRACTED ARTICLE: Anti-Inflammatory Effects of Chronic Aspirin on Brain Arachidonic Acid Metabolites

Pro-inflammatory and anti-inflammatory mediators derived from arachidonic acid (AA) modulate peripheral inflammation and its resolution. Aspirin (ASA) is a unique non-steroidal anti-inflammatory drug, which switches AA metabolism from prostaglandin E₂ (PGE₂) and thromboxane B₂ (TXB₂) to lipoxin A₄ (LXA₄) and 15-epi-LXA₄. However, it is unknown whether chronic therapeutic doses of ASA are anti-inflammatory in the brain. We hypothesized that ASA would dampen increases in brain concentrations of AA metabolites in a rat model of neuroinflammation, produced by a 6-day intracerebroventricular infusion of bacterial lipopolysaccharide (LPS). In rats infused with LPS (0.5 ng/h) and given ASA-free water to drink, concentrations in high-energy microwaved brain of PGE₂, TXB₂ and leukotriene B₄ (LTB₄) were elevated. In rats infused with artificial cerebrospinal fluid, 6 weeks of treatment with a low (10 mg/kg/day) or high (100 mg/kg/day) ASA dose in drinking water decreased brain PGE₂, but increased LTB₄, LXA₄ and 15-epi-LXA₄ concentrations. Both doses attenuated the LPS effects on PGE₂, and TXB₂. The increments in LXA₄ and 15-epi-LXA₄ caused by high-dose ASA were significantly greater in LPS-infused rats. The ability of ASA to increase anti-inflammatory LXA₄ and 15-epi-LXA₄ and reduce pro-inflammatory PGE₂ and TXB₂ suggests considering aspirin further for treating clinical neuroinflammation.     

Dual 12/15- and 5-Lipoxygenase Deficiency in Macrophages Alters Arachidonic Acid Metabolism and Attenuates Peritonitis and Atherosclerosis in ApoE Knock-out Mice

Lipoxygenase (LO) enzymes catalyze the conversion of arachidonic acid (AA) into biologically active lipid mediators. Two members, 12/15-LO and 5-LO, regulate inflammatory responses and have been studied for their roles in atherogenesis. Both 12/15-LO and 5-LO inhibitors have been suggested as potential therapy to limit the development of atherosclerotic lesions. Here we used a genetic strategy to disrupt both 12/15-LO and 5-LO on an apolipoprotein E (apoE) atherosclerosis-susceptible background to study the impact of dual LO blockade in atherosclerosis and inflammation. Resident peritoneal macrophages are the major cell type that expresses both LO enzymes, and we verified their absence in dual LO-deficient mice. Examination of AA conversion by phorbol myristate acetate-primed and A23187-challenged macrophages from dual LO-deficient mice revealed extensive accumulation of AA with virtually no diversion into the most common cyclooxygenase (COX) products measured (prostaglandin E₂ and thromboxane B₂). Instead the COX-1 by-products 11-hydroxy-eicosatetraenoic acid (HETE) and 15-HETE were elevated. The interrelationship between the two LO pathways in combination with COX-1 inhibition (SC-560) also revealed striking patterns of unique substrate utilization. 5-LO- and dual LO-deficient mice exhibited an attenuated response to zymosan-induced peritoneal inflammation, emphasizing roles for 5-LO in regulating vascular permeability. We observed gender-specific attenuation of atheroma formation at 6 months of age at both the aortic root and throughout the entire aorta in chow-fed female dual LO-deficient mice. We propose that some of the inconsistent data obtained with single LO-deficient mice could be attributable to macrophage-specific patterns of altered AA metabolism.Lipoxygenase (LO)² enzymes are an important source of lipid mediators throughout the plant and animal kingdoms (1, 2). In mammals, these mediators are predominantly formed from arachidonic acid (AA) and act in various physiological and pathological contexts (1–3). Accordingly 5-LO and 12/15-LO are two members of the LO family involved in cardiovascular and inflammatory diseases expressed to variable degrees in several cell types of the myeloid lineage, and their expression is strictly regulated and incompletely understood (2, 4, 5). Despite considerable structural homology between 5-LO and 12/15-LO, both enzymes generate distinct products. The 5-LO metabolite leukotriene (LT) A₄ is precursor to the proinflammatory LTB₄ and cysteinyl LTs, which regulate leukocyte subset-specific chemotaxis (LTB₄) and vascular permeability (cysteinyl LTs), both crucial events during acute peritonitis (1, 6, 7). 12- and 15-HETE, end products synthesized by 12/15-LO, play potential roles in cellular chemotaxis, cancer growth, and inflammation (2, 8). Transcellular interaction products derived from both 12/15-LO and 5-LO, such as lipoxins and maresins, indicate that these enzymes can possess anti-inflammatory activities in innate immunity and the resolution of inflammation (9, 10).In mice, only one cell type is known to express substantial quantities of both 5-LO and 12/15-LO, the peritoneal macrophage (PMΦ) (2, 11, 12). However, differences in subcellular localization, trafficking, and activation (8, 12–16) of these two LOs indicate that they are independently regulated and not functionally coupled. Tissue-resident MΦ (such as PMΦ) represent the first line of defense against invading pathogens and activate the immunological and inflammatory response (17). These phagocytes are capable of elaborating a wide spectrum of bioactive lipid mediators from the LO and cyclooxygenase (COX) pathways. Little is known about the regulation and putative interdependence of these pathways. Some insight was gained using mice lacking 12/15-LO where substrate shunting from the 12/15-LO into the 5-LO pathway was observed (12).The generation of knock-out mice for 12/15-LO (12) and 5-LO (18) has enabled the study of these lipid mediator pathways in models of health and disease. Because 12/15-LO and 5-LO are primarily expressed in distinct hematopoietic cells, their implication in various inflammatory disorders and models of host defense mechanisms have been investigated (2, 3). Atherosclerosis, an inflammatory disease prevalent in societies with high dietary fat intake, is initiated by low density lipoprotein (LDL) retention in the vascular wall (19) and subsequent oxidative modification. This process greatly enhances the LDL atherogenic potential, and intriguingly 12/15-LO can contribute to lipoprotein oxidation (11, 20). Initial studies using 12/15-LO- and 5-LO-deficient mice indicated proatherogenic roles for these enzymes (20, 21). Additionally mice lacking the LTB₄ receptor BLT-1 exhibit protection in early atherogenesis (22), but subsequent data from our laboratory using 5-LO-deficient mouse models have not supported an involvement of 5-LO in atherogenesis (3, 23, 24). Here we studied the consequences of simultaneous 12/15-LO and 5-LO knock-out on peritoneal inflammation and atherosclerosis in apoE-deficient mice and surmised whether some of the capricious results in atherosclerotic lesion studies could be attributable to variable eicosanoid profiles.     

One-step synthesis and reduction of triphenylphosphine carbonyl palladium clusters of variable nuclearities

Heteroleptic triphenylphosphine carbonyl palladium clusters of different nuclearities were prepared under mild conditions by only varying the amount of ligand (PPh₃) used in the synthesis: three different clusters were successfully isolated after CO bubbling in a solution of [Pd₂(dba)₃] (dba = dibenzylideneacetone) with 3, 1 or 0.5 equiv of PPh₃, which led, respectively, to [Pd₄(CO)₅(PPh₃)₄] (1), [Pd₁₀(CO)₁₂(PPh₃)₆] (2) and [Pd_n(CO)_x(PPh₃)_y] (3) (n ≈ 24). The molecular structures of compounds 1 and 2 were determined by X-ray crystallography. The metal cores in these compounds were shown to consist in a butterfly for 1 and a bridged octahedron for 2. Compound 3 was shown to be at the boundary between molecular clusters and colloidal particles with tentative formulation arising from characterization data. These three clusters and the known [Pd₁₀(CO)₁₂(PBu₃)₆] and [Pd₁₂(CO)₁₅(PBu₃)₇] were submitted to NaBH₄ reduction. The Pd₄ cluster 1 did not react. The colloidal Pd_n species led to no isolable product. By contrast, the two Pd₁₀ and the Pd₁₂ clusters led to reduction products, isolated as salts. In the case of the reduced Pd₁₂ cluster, its structure was resolved by X-ray crystallography: the metal core consists of a face-capped octahedron. The reduced species reacted readily with Au(PPh₃)⁺, confirming their anionic nature.     

Re(I)(tricarbonyl) complexes with the 2-(2-pyridyl)-N-methyl-benzimidazole, 2-(2-pyridyl)benzoxazole and 2-(2-pyridyl)benzothiazole ligands - syntheses, structures, electrochemical and spectroscopic studies

The reactions of Re(CO)₅Cl with the chelating ligands 2-(2-pyridyl)-N-methylbenzimidazole, 2-(2-pyridyl)benzoxazole and 2-(2-pyridyl)benzothiazole afforded neutral fac-Re(CO)₃(L)Cl and ionic complexes with structures confirmed by means of X-ray measurements. UV-vis absorption and emission properties have been studied at room and 77 K temperatures in order to determine the nature of the lowest electronically excited states. Electrochemical behaviour of the investigated fac-Re(CO)₃(L)Cl and complexes has been studied using cyclic and square-wave voltammetry. Preliminary results from the electrogenerated chemiluminescence studies of the ionic and the neutral fac-Re(CO)₃(MPBI)Cl complexes are briefly presented.     

Telomere Length Distribution and Southern Blot Analysis

Southern blot analysis of terminal restriction fragments (TRFs) is the standard method for quantitative examination of telomere length distributions. Since TRFs contain a subtelomeric component, central parameters of the TRF distributionn(L) such as the arithmetic mean (M) or the median (Me) cannot be derived directly from Southern blot data, i.e. from the optical density distributionOD(L). Several estimates have been applied instead; the seeming arithmetic meanA, the “center of mass”C, and the positions of maximal (P) and half-maximal optical density (P). We show thatC>A>Mfor any non-truncated distributionsn(L), andP>M>P1/2 for any symmetrical unimodaln(L).Symmetric appearance on a Southern blot, however, suggests positive skewness ofn(L). Thus, alognormalform ofn(L) may be considered. Then,C>A>M>P=Me>P. Alternatively, aWeibulldistribution may be assumed. The latter is compatible with negative feedback-regulation of the telomere lengths. Using the maximum likelihood method we compare these distributions with FISH-data on telomere lengths in different cell types. The fit of the lognormal distribution is clearly superior. Lognormal genesis may relate to telomere breakage and recombination.Truncation of the upper end of the TRF distribution is possible due to Southern blot artifacts. Thereby, the order of the estimates may change toP>C>A. Having minimal sensitivity to truncation,Pseems to be the optimal choice. however, the variability ofPis high since peakedness ofOD(L) and DNA length resolution are inversely related.     

Fe-Rh and Fe-Ir clusters substituted by diphenylacetylene: Synthesis, solid state structure and electrochemical behaviour of [Fe2Ir2(CO)10(μ4:η-PhCCPh)], [FeIr2(CO)9(μ3:η-PhCCPh)], and [Fe2Rh(CO)8(μ3:η-PhCCPh)]

The reaction between [Fe₂Ir₂(CO)₁₂]²⁻ and diphenylacetylene in refluxing CH₃CN yields the substituted cluster [Fe₂Ir₂(CO)₁₀(PhC₂Ph)]²⁻ (1). In the crystals, the four metal atoms define a butterfly arrangement whose Ir-Ir hinge is parallel to the acetylenic C₂ unit. The neutral triangular cluster [FeIr₂(CO)₉(PhC₂Ph)] (2) is obtained by the treatment of 1 with acids at room temperature; in this 48 valence electrons species, the C-C and the Ir-Ir bonds are also parallel, in the coordination mode.The cluster [Fe₂Rh(CO)₁₀]⁻ reacts with diphenylacetylene in refluxing THF yielding [Fe₂Rh(CO)₈(PhC₂Ph)]⁻ (3). In this 46 C.V.E.’s cluster, the C₂ unit is perpendicular to the Fe-Fe edge, exemplifying the bonding mode. According to ¹³C NMR spectra, the structure of the three clusters is maintained in solution. Electrochemical investigations show that the one-electron oxidation of [Fe₂Ir₂(CO)₁₀(L)]²⁻ (L = 2CO, PhC₂Ph) as well as the one-electron reduction of [Fe₂Rh(CO)₈(PhC₂Ph)]⁻ only generates the respective short lived products.