Functional expression of single-chain antibody to leukotriene C4

Leukotriene C₄ (LTC₄) is synthesized by binding of glutathione to LTA₄, an epoxide derived from arachidonic acid, and further metabolized to LTD₄ and LTE₄. We previously prepared a monoclonal antibody with a high affinity and specificity to LTC₄. To explore the structure of the antigen-binding site of a monoclonal antibody against LTC₄ (mAbLTC), we isolated full-length cDNAs for heavy and light chains of mAbLTC. The heavy and light chains consisted of 461 and 238 amino acids including a signal peptide with molecular weights of 51,089 and 26,340, respectively. An expression plasmid encoding a single-chain antibody comprising variable regions of mAbLTC heavy and light chains (scFvLTC) was constructed and expressed in COS-7 cells. The recombinant scFvLTC showed a high affinity with LTC₄ comparable to mAbLTC. The scFvLTC also bound to LTD₄ and LTE₄ with 48% and 17% reactivities, respectively, as compared with LTC₄ binding, whereas the antibody showed almost no affinity for LTB₄.     

Regulation of the eicosanoid pathway by tumour necrosis factor alpha and leukotriene D4 in intestinal epithelial cells

In this study the mRNA and protein levels of the key enzymes involved in eicosanoid biosynthesis and the cysteinyl leukotriene receptors (CysLT₁R and CysLT₂R) have been analysed in non-transformed intestinal epithelial and colon cancer cell lines. Our results revealed that tumour necrosis factor alpha (TNF-α), and leukotriene D₄ (LTD₄), which are inflammatory mediators implicated in carcinogenesis, stimulated an increase of cyclooxygenase-2 (COX-2), in non-transformed epithelial cells, and 5-lipoxygenase (5-LO) in both non-transformed and cancer cell lines. Furthermore, these mediators also stimulated an up-regulation of LTC₄ synthase in cancer cells as well as non-transformed cells. We also observed an endogenous production of CysLTs in these cells. TNF-α and LTD₄, to a lesser extent, up-regulate the CysLT₁R levels. Interestingly, TNF-α also reduced CysLT₂R expression in cancer cells. Our results demonstrate that inflammatory mediators can cause intestinal epithelial cells to up-regulate the expression of enzymes needed for the biosynthesis of eicosanoids, including the cysteinyl leukotrienes, as well as the signal transducing proteins, the CysLT receptors, thus providing important mechanisms for both maintaining inflammation and for tumour progression.     

Effect of leukotriene C4 exposure on ciliated cells of the nasal mucosa

To clarify the effects of leukotriene C4 (LTC4) on human ciliated epithelium, ciliary activity of the ethmoid sinus mucosa was measured photoelectrically in tissue culture. At concentrations ranging from 10⁻⁶M to 10⁻⁹M, LTC4 showed minimal effects on the ciliated epithelium during the initial 30 minutes of exposure; thereafter, ciliary inhibition was observed in a concentration- and time-dependent manner. Irrigation of the mucosa with culture medium 15 minutes after exposure prevented the LTC4-induced ciliary inhibition. However, irrigation 60 minutes after exposure failed to inhibit 10⁻⁸M LTC4-induced ciliary dysfunction and mucosal damage. The LTC4-induced ciliary inhibition was blocked in the presence of FPL-55712 and/or Ly-171883, both leukotriene receptor antagonists. L-serine and sodium tetraborate complex (SBC), a γ-glutamyl transpeptidase (γ-GTP) inhibitor, also inhibited the LTC4-induced ciliary inhibition. These findings indicate that LTC4 is converted to LTD4 by γ-GTP during 60 minutes of exposure, and LTC4 itself has minimal direct effects on the ciliated cells.     

Production of early and late pulmonary responses with inhaled leukotriene D4 in allergic sheep

Some allergic sheep respond to inhalation of antigen with both immediate and late increases in airflow resistance (late response). The mechanism of the late response is unknown but recent evidence suggests that the initial generation of slow-reacting substance of anaphylaxis (SRS-A) immediately after antigen challenge is a necessary pre-requisite for the physiologic expression of this late response. Based on this evidence we hypothesized that airway challenge with leukotriene D₄ (LTD₄), an active component of SRS-A would produce acute and late airway responses in allergenic sheep similar to those observed with antigen. In five allergic sheep with documented early and late pulmonary responses to antigen, inhalation of leukotriene D₄ aerosol (delivered dose {mean ±SE} 0.55±0.08 ug) resulted in significant early and late increases in specific lung resistance (SR_L). In three allergic sheep which only demonstrated acute responses to antigen, LTD₄ aerosol (delivered dose 0.59±0.09ug) only produced an acute increase in SR_L. In the late responders pretreatment with aerosol cromolyn sodium (1 mg/kg) did not affect the acute response but blunted the late increase in SR_L. Pretreatment with aerosol FPL-57231 (1% w/v solution) completely blocked both the acute and late responses. These data support the hypothesis that initial release of LTD₄ in the airways of sensitive animals is important for the physiologic expression of the late response.     

Fatty acids induce leukotriene C4 synthesis in macrophages in a fatty acid binding protein-dependent manner

Obesity results in increased macrophage recruitment to adipose tissue that promotes a chronic low-grade inflammatory state linked to increased fatty acid efflux from adipocytes. Activated macrophages produce a variety of pro-inflammatory lipids such as leukotriene C₄ (LTC₄) and 5-, 12-, and 15-hydroxyeicosatetraenoic acid (HETE) suggesting the hypothesis that fatty acids may stimulate eicosanoid synthesis. To assess if eicosanoid production increases with obesity, adipose tissue of leptin deficient ob/ob mice was analyzed. In ob/ob mice, LTC₄ and 12-HETE levels increased in the visceral (but not subcutaneous) adipose depot while the 5-HETE levels decreased and 15-HETE abundance was unchanged. Since macrophages produce the majority of inflammatory molecules in adipose tissue, treatment of RAW264.7 or primary peritoneal macrophages with free fatty acids led to increased secretion of LTC₄ and 5-HETE, but not 12- or 15-HETE. Fatty acid binding proteins (FABPs) facilitate the intracellular trafficking of fatty acids and other hydrophobic ligands and in vitro stabilize the LTC₄ precursor leukotriene A₄ (LTA₄) from non-enzymatic hydrolysis. Consistent with a role for FABPs in LTC₄ synthesis, treatment of macrophages with HTS01037, a specific FABP inhibitor, resulted in a marked decrease in both basal and fatty acid-stimulated LTC₄ secretion but no change in 5-HETE production or 5-lipoxygenase expression. These results indicate that the products of adipocyte lipolysis may stimulate the 5-lipoxygenase pathway leading to FABP-dependent production of LTC₄ and contribute to the insulin resistant state.     

Differential sensitivity of C3 and C4 turfgrass species to increasing atmospheric vapor pressure deficit

Temperature and vapor pressure deficit (VPD) effects on turfgrass growth are almost always confounded in experiments because VPD commonly is substantially increased in elevated-temperature treatments. The objective of this study as to examine specifically the influence of VPD on transpiration response of four ‘warm-season’ (C₄) and four ‘cool-season’ (C₃) turfgrasses to increasing VPD at a stable temperature (29.3 ± 1.5 °C). Although transpiration rates were noticeably lower in C₄ grasses, transpiration rates increased linearly in response to increasing VPD across the range of 0.8–3.0 kPa. In contrast, transpiration rates of C₃ increased sharply with increasing VPD across the range of low VPDs, but became constrained at higher VPDs (>1.35 kPa). Restricted transpiration rate at elevated VPD was most evident in Agrostis palustris and Lolium perenne. Assuming restricted transpiration rates reflect a limitation on leaf CO₂ uptake, these results indicate that the commonly observed decline in growth of C₃ (and success of C₄) grasses at elevated temperature may include a sensitivity to elevated VPD.     

Relationship between allocation of absorbed light energy in PSII and photosynthetic rates of C3 and C4 plants

Two C₃ dicotyledonous crops and five C₄ monocotyledons treated with three levels of nitrogen were used to evaluate quantitatively the relationship between the allocation of absorbed light energy in PSII and photosynthetic rates (P _N) in a warm condition (25–26°C) at four to five levels [200, 400, 800, 1,200 (both C₃ and C₄) and 2,000 (C₄ only) μmol m⁻² s⁻¹] of photosynthetic photon flux density (PPFD). For plants of the same type (C₃ or C₄), there was a linear positive correlation between the fraction of absorbed light energy that was utilized in PSII photochemistry (P) and P _N, regardless of the broad range of their photosynthetic rates due to species-specific effect and/or nitrogen application; meanwhile, the fraction of absorbed light energy that was dissipated through non-photochemical quenching (D) showed a negative linear regression with P _N for each level of PPFD. The intercept of regression lines between P and P _N of C₃ and C₄ plants decreased, and that between D and P _N increased with increasing PPFD. With P and D as the main components of energy dissipation and complementary to each other, the fraction of excess absorbed light energy (E) was unchanged by P _N under the same level of PPFD. At the same level of P _N, C₄ plants had lower P and higher D than C₃ plants, due to the fact that C₄ plants with little or no photorespiration is considered a limited energy sink for electrons. Nevertheless there was a significant negative linear correlation between D and P when data from both C₃ and C₄ plants at varied PPFD levels was merged. The slope of regression lines between P and D was 0.85, indicating that in plants of both types, most of the unnecessary absorbed energy (ca. 85%) could dissipate through non-photochemical quenching, when P was inhibited by low P _N due to species-specific effect and nitrogen limitation at all levels of illumination used in the experiment.     

干旱胁迫对2种光合类型C4荒漠植物叶片光合特征酶和抗氧化酶活性的影响

以荒漠C₄草本植物蔷薇猪毛菜(NADP苹果酸酶型,NADP-ME）和粗枝猪毛菜（NAD苹果酸酶型,NAD-ME）为研究对象,采用盆栽控水试验设置正常供水和轻度、中度、重度干旱处理（土壤含水量分别为田间持水量80%、60%、45%和35%）,通过测定不同程度干旱胁迫下叶片含水量、C₄光合特征酶和抗氧化酶活性等指标,探讨不同类型C₄荒漠植物光合特征酶和抗氧化系统对干旱逆境的适应机制。结果显示：（1）2种植物叶片含水量均随干旱胁迫的加剧不同程度降低。（2）叶片磷酸烯醇式丙酮酸羧化酶（PEPC）活性在中度干旱胁迫下显著增加而在重度干旱胁迫下急剧下降;蔷薇猪毛菜NAD-ME活性和粗枝猪毛菜NADP-ME活性都很低,且它们基本不受干旱胁迫的影响;随干旱胁迫的加剧,蔷薇猪毛菜NADP-ME活性呈下降趋势,而粗枝猪毛菜NAD-ME活性先显著增加而在重度干旱胁迫下显著降低。（3）随着干旱胁迫的加剧,叶片超氧化物歧化酶（SOD）活性呈下降趋势,过氧化物酶（POD）活性在不同程度干旱胁迫下均有不同程度增加;过氧化氢酶（CAT）活性在中度干旱胁迫下均有不同程度的增加,但在重度干旱胁迫下蔷薇猪毛菜CAT活性降低,而粗枝猪毛菜CAT活性显著增加;丙二醛（MDA）含量随干旱胁迫的加剧均有不同程度的增加。研究认为,一定程度干旱胁迫下,2种荒漠植物的PEPC活性均有增加;不同光合类型C₄植物叶片脱羧酶（NADP-ME和NAD-ME）对干旱胁迫的响应有明显的差异。POD和CAT是这两种C₄植物适应干旱胁迫的主要抗氧化酶,但蔷薇猪毛菜CAT在重度干旱胁迫下没有起到积极保护作用。     

The leukotriene B4 receptor, BLT1, is required for the induction of experimental autoimmune encephalomyelitis

Leukotriene B₄ (LTB₄) is a potent chemoattractant and activator of neutrophils, macrophages and T cells. These cells are a key component of inflammation and all express BLT1, a high affinity G-protein-coupled receptor for LTB₄. However, little is known about the neuroimmune functions of BLT1. In this study, we describe a distinct role for BLT1 in the pathology of experimental autoimmune encephalomyelitis (EAE) and T_H1/T_H17 immune responses. BLT1 mRNA was highly upregulated in the spinal cord of EAE mice, especially during the induction phase. BLT1^−/− mice had delayed onset and less severe symptoms of EAE than BLT1^+/+ mice. Additionally, inflammatory cells were recruited to the spinal cord of asymptomatic BLT1^+/+, but not BLT1^−/− mice before the onset of disease. Ex vivo studies showed that both the proliferation and the production of IFN-γ, TNF-α, IL-17 and IL-6 were impaired in BLT1^−/− cells, as compared with BLT1^+/+ cells. Thus, we suggest that BLT1 exacerbates EAE by regulating the migration of inflammatory cells and T_H1/T_H17 immune responses. Our findings provide a novel therapeutic option for the treatment of multiple sclerosis and other T_H17-mediated diseases.     

贵州喀斯特区C4植物物种组成与水分生态型划分

该研究通过查阅文献、核对贵州大学林学院标本库及现场群落调查与标本采集,并运用碳同位素比值法研究典型C_4植物水分利用特性,探索C_4植物在喀斯特植被恢复中的地位,进而揭示贵州喀斯特地区C_4植物资源的基本特征。结果表明:贵州喀斯特区共有C_4植物141种,隶属于74属15科,分别占全国科属种的62.50%、46.25%、24.48%,以禾本科(Gramineae)和莎草科(Cyperaceae)为主;区内C_4植物种均为一年生或多年生草本,多年生植物种略多于一年生植物种;水分生态型整体偏旱生,旱生和中生植物分别占总数的24.82%和31.21%;喀斯特区C_4植物具有高水分利用效率,但不同水分生态型间差异不显著;贵州喀斯特区C_4植物资源具有资源丰富、利用途径广泛、能长期利用、竞争力强、能大面积分布、偏旱生且水分利用幅度广的基本特征,适合喀斯特区生境,自然状态下多为恢复早期物种,有利于喀斯特区生态恢复。在贵州喀斯特恶劣生态环境下C_4植物有较好的生态适应性,并表现出较高的药用、食用、饲用、景观应用等价值,对其开发利用对贵州经济、社会发展及生态恢复有重要意义。     

Role of Janus kinase-2 in IgE receptor-mediated leukotriene C4 production by mast cells

We have previously shown that Janus kinase 3, a member of the family of non-receptor protein tyrosine kinases, plays a critical role in the regulation of FcεRI-mediated mast cell responses. In the current study, we investigated the role of another JAK family member, JAK2, in these responses. Our results show that the treatment of IgE-sensitized mouse mast cells with an inhibitor of JAK2 (AG490) blocked the release of leukotriene C₄ in a dose-dependent fashion after antigen challenge. However, prostaglandin PG D₂ production and degranulation were not affected under identical experimental conditions. Transfection of RBL-2H3 mast cells with JAK-2 specific small interfering RNA resulted in a 50% reduction of LTC₄ release in response to FcεRI crosslinking, but did not inhibit mast cell degranulation or calcium ionophore-induced LTC₄ release, indicating involvement of JAK2 in IgE receptor-mediated leukotriene release. Taken together, these data suggest that JAK2 is a critical regulator of IgE/antigen-induced production of LTC₄ in mast cells.     

Asparagine362 is essential for zinc binding and catalysis in the peptidase reaction of Saccharomyces cerevisiae leukotriene A4 hydrolase

Zinc metallopeptidases are ubiquitous enzymes with diverse cellular functions that can be found in most organisms. Leukotriene A₄ hydrolase (LTA4H; E.C. 3.3.2.6) is an unusual zinc metallopeptidase of the M1 family that also possesses an epoxide hydrolase activity; however, the role of its peptidase activity remains unknown. To further characterize the peptidase activity of LTA4H and other closely related metallopeptidases, a multiple sequence alignment and predicted structure were used to target three amino acid residues of yeast LTA4H for mutagenesis: Asn362, Trp365, and Asp399. Although mutating Trp365 and Asp399 had little effect on catalysis, altering Asn362 had varying effects on catalysis, depending on the replacement residue. Mutation of Asn362 to glutamine (N362Q) caused minor catalytic defects, while mutation to leucine (N362L) or glutamate (N362E) caused large reductions in activity. Both N362L and N362E also exhibited an altered pH dependence of catalysis, reduced chloride activation, and reduced zinc affinity and content, indicating that Asn362 may interact with the nearby zinc coordinating residue His344, and possibly with Glu363 as well, to polarize and/or orient these residues.     

Enhancement of leukotriene D4-induced contraction of guinea-pig isolated trachea by platelet activating factor

The effect of platelet activating factor (PAF), a potent lipid mediator of inflammation, was examined in the induction of airway hyperreactivity to known mediators of anaphylaxis. Concentration-dependent contractions of the isolated guinea-pig trachea to PAF (10⁻⁷ − 10⁻⁵M) were produced and an EC₅₀ value was found to be 7.5 × 10⁻⁷M. Pretreatment for 30 min with a known PAF inhibitor, CV-3988 (10⁻⁵ or 10⁻⁴M), produced significant inhibition of PAF contractions; however, at 10⁻⁶M, CV-3988 had no effect. In the presence of meclofenamic acid (10⁻⁶M), the concentration-response curve to PAF was shifted significantly upward and to the left. This potentiation could be reversed by pretreating the tissues with the peptidoleukotriene antagonists, FPL 55712 or SK&F 102922 (10⁻⁵M). Pretreatment with PAF concentrations having essentially no intrinsic activity (10⁻⁸, 10⁻⁷) significantly enhanced the contraction of guinea-pig trachea to various concentrations of LTD₄ and to certain concentrations of a thromboxane mimic (U-46619). Pretreatment with lyso-PAF failed to potentiate the LTD₄ response, while pretreatment with CV-3988 reverse the potentiation by PAF of the lower concentrations of LTD₄. However, PAF failed to enhance contractions (with or without the presence of meclofenamic acid) to acetylcholine, histamine, PGD₂ or LTC₄ (in the presence of serine borate). These results indicate a possible role for PAF as a mediator of airway hyperreactivity.     

Direct and selective small-molecule inhibition of photosynthetic PEP carboxylase: New approach to combat C4 weeds in arable crops

Phosphoenolpyruvate carboxylase (PEPC) is a key enzyme of C₄ photosynthesis. Besides, non-photosynthetic isoforms of PEPC are found in bacteria and all types of plants, although not in animals or fungi. A single residue in the allosteric feedback inhibitor site of PEPC was shown to adjust the affinity of the photosynthetic and non-photosynthetic isoforms for feedback inhibition by metabolites of the C₄ pathway. Here, we applied computational screening and biochemical analyses to identify molecules that selectively inhibit C₄ PEPC, but have no effect on the activity of non-photosynthetic PEPCs. We found two types of selective inhibitors, catechins and quinoxalines. Binding constants in the lower μM range and a strong preference for C₄ PEPC qualify the quinoxaline compounds as potential selective herbicides to combat C₄ weeds.     

Infection of maize leaves with Ustilago maydis prevents establishment of C4 photosynthesis

The Basidiomycete fungus Ustilago maydis is the common agent of corn smut and is capable of inducing gall growth on infected tissue of the C₄ plant maize (Zea mays). While U. maydis is very well characterized on the genetic level, the physiological changes in the host plant in response to U. maydis infection have not been studied in detail, yet.Therefore, we examined the influence of U. maydis infection on photosynthetic performance and carbon metabolism in maize leaf galls.At all stages of development, U. maydis-induced leaf galls exhibited carbon dioxide response curves, CO₂ compensation points and enzymatic activities that are characteristic of C₃ photosynthesis, demonstrating that the establishment of C₄ metabolism is prevented in infected tissue. Hexose contents and hexose/sucrose ratio of leaf galls remained high at 6 days post infection, while a shift in free sugar metabolism was observed in the uninfected controls at that time point. Concomitantly, transitory starch production and sucrose accumulation during the light period remained low in leaf galls. Given that U. maydis is infectious on young developing tissue, the observed changes in carbohydrate metabolism suggest that the pathogen manipulates the developing leaf tissue to arrest sink-to-source transition in favor of maintaining sink metabolism in the host cells.Furthermore, evidence is presented that carbohydrate supply during the biotrophic phase of the pathogen is assured by a fungal invertase.     

Evolutionary genomics of C4 photosynthesis in grasses requires a large species sampling

Recent advances in genomics open promising opportunities to investigate adaptive trait evolution at the molecular level. However, the accuracy of comparative genomic studies strongly relies on the taxonomic coverage, which can be insufficient when based solely on a few completely sequenced genomes. In particular, when distantly-related genomes are compared, orthology of some genes can be misidentified and long branches of the phylogenetic reconstructions make inappropriate positive selection tests, as recently exemplified with investigations on the evolution of the C₄ photosynthetic pathway in grasses. Complementary studies addressing the diversification of multigene families in a broad taxonomic sample can help circumvent these issues.     

Permeabilization induced by lipid II-targeting lantibiotic nisin and its effect on the bioconversion of vitamin D3 to 25-hydroxyvitamin D3 by Rhodococcus erythropolis

Vitamin D₃ (VD₃) is a fat-soluble prohormone in mammals. VD₃ is inert and must be activated by hydroxylation at the C-25 and C-1α positions to exert its biological activity. We recently accomplished the bioconversion of VD₃ to 25(OH)VD₃ with a recombinant strain of Rhodococcus erythropolis and found that the permeability of VD₃ into the cytoplasm may be the rate-limiting step of 25(OH)VD₃ production (Sallam et al., 2010). When the cells were treated with the lipid II-targeting lantibiotic nisin, the permeability of green chemiluminescent cyclodextrin (GCCD), which is used as a model substrate instead of VD₃-partially methylated-β-cyclodextrin (PMCD) complex, was drastically induced. Nisin also induced VD₃ hydroxylation, and the rate was correlated with the expression levels of Vdh and its redox partner proteins. In the bioconversion reaction, the stability of the redox partner proteins and the additional NADH-regenerating system are crucial for VD₃ hydroxylation. The degradation rate of the [2Fe–2S] cluster of ferredoxin ThcC from R. erythropolis NI86/21 is faster than that of AciB from Acinetobacter sp. OC4. Therefore, the nisin-treated R. erythropolis cells coexpressing Vdh and AciBC (1176.5 μg) exhibited much greater 25(OH)VD₃ production than the cells coexpressing Vdh and ThcCD (431.7 μg) after four consecutive 16 h reactions. These results suggest that nisin forms nisin-lipid II pore complexes in the Rhodococcus membrane that increase the accessibility of VD₃–PMCD complexes to the inside of the cells. Furthermore, nisin-treated Rhodococcus cells can be utilized for the bioconversion of other fat-soluble chemicals.     

Dipeptide Tyr-Leu (YL) exhibits anxiolytic-like activity after oral administration via activating serotonin 5-HT1A, dopamine D1 and GABAA receptors in mice

We found that Tyr-Leu (YL) dose-dependently exhibits potent anxiolytic-like activity (0.1-1 mg/kg, i.p.) comparable to diazepam in the elevated plus-maze test in mice. YL was orally active (0.3-3 mg/kg). A retro-sequence peptide or a mixture of Tyr and Leu was inactive. The anxiolytic-like activity of YL was inhibited by antagonists for serotonin 5-HT_1A, dopamine D₁ and GABA_A receptors; however, YL had no affinity for them. We also determined the order of their activation is 5-HT_1A, D₁ and GABA_A receptors using selective agonists and antagonists. Taken together, YL may exhibit anxiolytic-like activity via activation of 5-HT_1A, D₁ and GABA_A receptors.