Molecular cloning and expression of a C‐type lectin‐like protein from orange‐spotted grouper Epinephelus coioides

A C‐type lectin‐like protein (Ec‐CTLP) was cloned from the grouper Epinephelus coioides. The full‐length cDNA of Ec‐CTLP was composed of 905 bp with a 522 bp open reading frame that encodes a 174‐residue protein. The putative amino acid sequence of Ec‐CTLP contains a signal peptide of 19 residues at the N‐terminus and a CLECT domain from Cys43 to Arg169 and a conserved imperfect WND (Trp‐Asn‐Asp) motif. The homologous identity of deduced amino acid sequences is from 32 to 42% with other fishes. The expression of Ec‐CTLP was differently upregulated in E. coioides spleen (germline stem) cells after being challenged at 16 and 4° C. Intracellular localization revealed that Ec‐CTLP was distributed only in the cytoplasm. Recombinant Ec‐CTLP (rEc‐CTLP) was expressed in Escherichia coli BL21 (DE3) and purified for mouse Mus musculus anti‐Ec‐CTLP serum preparation. The rEc‐CTLP fusion protein does not possess haemagglutinating activity, but improves survival from frozen bacteria. The survival of bacteria (including gram‐negative E. coli and gram‐positive Staphylococcus aureus) was positively correlated with the concentration of the rEc‐CTLP. These findings can provide clues to help understand the probable C‐type lectin in marine fish innate immunity.     

Regulation of interleukin‐1β by interferon‐γ is species specific,limited by suppressor of cytokine signalling 1 and influences interleukin‐17 production

Reports describing the effect of interferon‐γ (IFNγ) on interleukin‐1β (IL‐1β) production are conflicting. We resolve this controversy by showing that IFNγ potentiates IL‐1β release from human cells, but transiently inhibits the production of IL‐1β from mouse cells. Release from this inhibition is dependent on suppressor of cytokine signalling 1. IL‐1β and Th17 cells are pathogenic in mouse models for autoimmune disease, which use Mycobacterium tuberculosis (MTB), in which IFNγ and IFNβ are anti‐inflammatory. We observed that these cytokines suppress IL‐1β production in response to MTB, resulting in a reduced number of IL‐17‐producing cells. In human cells, IFNγ increased IL‐1β production, and this might explain why IFNγ is detrimental for multiple sclerosis. In mice, IFNγ decreased IL‐1β and subsequently IL‐17, indicating that the adaptive immune response can provide a systemic, but transient, signal to limit inflammation.     

Production and characterization of active recombinant interleukin‐12/eGFP fusion protein in stably‐transfected DF1 chicken cells

The adjuvant activity of chicken interleukin‐12 (chIL‐12) protein has been described as similar to that of mammalian IL‐12. Recombinant chIL‐12 can be produced using several methods, but chIL‐12 production in eukaryotic cells is lower than that in prokaryotic cells. Stimulating compounds, such as dimethyl sulfoxide (DMSO), can be added to animal cell cultures to overcome this drawback. In this study, we constructed a cell line, DF1/chIL‐12 which stably expressed a fusion protein, chIL‐12 and enhanced green fluorescent protein (eGFP) connected by a (G₄S)₃ linker sequence. Fusion protein production was increased when cells were cultured in the presence of DMSO. When 1 × 10⁶ DF1/chIL‐12 cells were inoculated in a T‐175 flask containing 30 mL of media, incubated for 15 h, and further cultivated in the presence of 4% DMSO for 48 h, the production of total fusion protein was mostly enhanced compared with the production of total fusion protein by using cell lysates induced with DMSO at other concentrations. The concentrations of the unpurified and purified total fusion proteins in cell lysates were 2,781 ± 2.72 ng mL^?1 and 2,207 ± 3.28 ng mL^?1, respectively. The recovery rate was 79%. The fusion protein stimulated chicken splenocytes to produce IFN‐γ, which was measured using an enzyme‐linked immunosorbent assay, in the culture supernatant, indicating that treating DF1/chIL‐12 cells with DMSO or producing chIL‐12 in a fusion protein form does not have adverse effects on the bioactivity of chIL‐12. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 31:641–649, 2015     

Inhibition of connective tissue growth factor/CCN2 expression in human dermal fibroblasts by interleukin‐1α and β

Connective tissue growth factor (CTGF/CCN2) is a matricellular protein induced by transforming growth factor (TGF)‐β and intimately involved with tissue repair and overexpressed in various fibrotic conditions. We previously showed that keratinocytes in vitro downregulate TGF‐β‐induced expression of CTGF in fibroblasts by an interleukin (IL)‐1 α‐dependent mechanism. Here, we investigated further the mechanisms of this downregulation by both IL‐1α and β. Human dermal fibroblasts and NIH 3T3 cells were treated with IL‐1α or β in presence or absence of TGF‐β1. IL‐1 suppressed basal and TGF‐β‐induced CTGF mRNA and protein expression. IL‐1α and β inhibited TGF‐β‐stimulated CTGF promoter activity, and the activity of a synthetic minimal promoter containing Smad 3‐binding CAGA elements. Furthermore, IL‐1α and β inhibited TGF‐β‐stimulated Smad 3 phosphorylation, possibly linked to an observed increase in Smad 7 mRNA expression. In addition, RNA interference suggested that TGF‐β activated kinase1 (TAK1) is necessary for IL‐1 inhibition of TGF‐β‐stimulated CTGF expression. These results add to the understanding of how the expression of CTGF in human dermal fibroblasts is regulated, which in turn may have implications for the pathogenesis of fibrotic conditions involving the skin. J. Cell. Biochem. 110: 1226–1233, 2010. Published 2010 Wiley‐Liss, Inc.     

Estrogen‐related receptor alpha triggers the proliferation and migration of human non‐small cell lung cancer via interleukin‐6

Human non‐small cell lung cancer (NSCLC) is one of the leading causes of cancer deaths worldwide. Estrogenic signals have been suggested to be important for the growth and metastasis of NSCLC cells. Our present data showed that estrogen‐related receptor alpha (ERRα), while not ERRβ or ERRγ, was significantly elevated in NSCLC cell lines as compared with that in normal bronchial epithelial cell line BEAS‐2B. The expression of ERRα in clinical NSCLC tissues was significantly greater than that in their matched normal adjacent tissues. Over expression of ERRα can trigger the proliferation, migration, and invasion of NSCLC cells, while si‐ERRα or ERRα inhibitor showed opposite effects. ERRα can increase the mRNA and protein expression of IL‐6, while not IL‐8, IL‐10, IL‐22, VEGF, TGF‐β, or TNF‐α, in NSCLC cells. Silence of IL‐6 attenuated ERRα induced proliferation and cell invasion. Furthermore, our data revealed the inhibition of NF‐κB, while not ERK1/2 or PI3K/Akt, abolished ERRα induced production of IL‐6. This might be due to that overexpression of ERRα can increase the expression and nuclear translocation of p65 in NSCLC cells. Collectively, our data showed that activation of NF‐κB/IL‐6 is involved in ERRα induced migration and invasion of NSCLC cells. It suggested that ERRα might be a potential target for NSCLC treatment.     

Mutations of key hydrophobic surface residues of 11β‐hydroxysteroid dehydrogenase type 1 increase solubility and monodispersity in a bacterial expression system

11β‐Hydroxysteroid dehydrogenase type 1 (11β‐HSD1) is a key enzyme in the conversion of cortisone to the functional glucocorticoid hormone cortisol. This activation has been implicated in several human disorders, notably the metabolic syndrome where 11β‐HSD1 has been identified as a novel target for potential therapeutic drugs. Recent crystal structures have revealed the presence of a pronounced hydrophobic surface patch lying on two helices at the C‐terminus. The physiological significance of this region has been attributed to facilitating substrate access by allowing interactions with the endoplasmic reticulum membrane. Here, we report that single mutations that alter the hydrophobicity of this patch (I275E, L266E, F278E, and L279E in the human enzyme and I275E, Y266E, F278E, and L279E in the guinea pig enzyme) result in greatly increased yields of soluble protein on expression in E. coli. Kinetic analyses of both reductase and dehydrogenase reactions indicate that the F278E mutant has unaltered K_m values for steroids and an unaltered or increased k_cat. Analytical ultracentrifugation shows that this mutation also decreases aggregation of both the human and guinea pig enzymes, resulting in greater monodispersity. One of the mutants (guinea pig F278E) has proven easy to crystallize and has been shown to have a virtually identical structure to that previously reported for the wild‐type enzyme. The human F278E enzyme is shown to be a suitable background for analyzing the effects of naturally occurring mutations (R137C, K187N) on enzyme activity and stability. Hence, the F278E mutants should be useful for many future biochemical and biophysical studies of the enzyme.     

Prostaglandin I2 upregulates the expression of anterior pharynx‐defective‐1α and anterior pharynx‐defective‐1β in amyloid precursor protein/presenilin 1 transgenic mice

Cyclooxygenase‐2 (COX‐2) has been recently identified to be involved in the pathogenesis of Alzheimer's disease (AD). Yet, the role of an important COX‐2 metabolic product, prostaglandin (PG) I₂, in the pathogenesis of AD remains unknown. Using human‐ and mouse‐derived neuronal cells as well as amyloid precursor protein/presenilin 1 (APP/PS1) transgenic mice as model systems, we elucidated the mechanism of anterior pharynx‐defective (APH)‐1α and pharynx‐defective‐1β induction. In particular, we found that PGI₂ production increased during the course of AD development. Then, PGI₂ accumulation in neuronal cells activates PKA/CREB and JNK/c‐Jun signaling pathways by phosphorylation, which results in APH‐1α/1β expression. As PGI₂ is an important metabolic by‐product of COX‐2, its suppression by NS398 treatment decreases the expression of APH‐1α/1β in neuronal cells and APP/PS1 mice. More importantly, β‐amyloid protein (Aβ) oligomers in the cerebrospinal fluid (CSF) of APP/PS1 mice are critical for stimulating the expression of APH‐1α/1β, which was blocked by NS398 incubation. Finally, the induction of APH‐1α/1β was confirmed in the brains of patients with AD. Thus, these findings not only provide novel insights into the mechanism of PGI₂‐induced AD progression but also are instrumental for improving clinical therapies to combat AD.     

Pulsatilla decoction and its active ingredients inhibit secretion of NO,ET‐1, TNF‐α, and IL‐1α in LPS‐induced rat intestinal microvascular endothelial cells

To investigate the pharmacological mechanism of the traditional Chinese medicine, Pulsatilla decoction (PD), the levels of nitric oxide (NO), endothelin‐1 (ET‐1), tumor necrosis factor‐α (TNF‐α), and interleukin‐1α (IL‐1α) secreted by cultured rat intestinal microvascular endothelial cells (RIMECs) were determined after treatment with PD and its seven active ingredients, namely anemoside B₄, anemonin, berberine, jatrorrhizine, palmatine, aesculin, and esculetin. RIMECs were challenged with lipopolysaccharide (LPS) at 1 µg ml^?1 for 3 h and then treated with PD at 1, 5, and 10 mg ml^?1 and its seven ingredients at 1, 5, and 10 µg ml^?1 for 21 h, respectively. The results revealed that PD, anemonin, berberine, and esculetin inhibited the production of NO; PD, anemonin, and esculetin inhibited the secretion of ET‐1; PD, anemoside B₄, berberine, jatrorrhizine, and aesculin downregulated TNF‐α expression; PD, anemoside B₄, berberine, and palmatine decreased the content of IL‐1α. It showed that PD and its active ingredients could significantly inhibit the secretion of NO, ET‐1, TNF‐α, and IL‐1α in LPS‐induced RIMECs and suggested they would reduce inflammatory response via these cytokines. Copyright © 2009 John Wiley & Sons, Ltd.     

Enhanced susceptibility to seizures modulated by high interleukin‐1β levels during early life malnutrition

Early malnutrition in life has permanent consequences on brain development and has been suggested to influence seizure susceptibility. Despite malnutrition is not a direct cause of seizures, we hypothesize that malnutrition may modulate inflammatory response and result in cerebral vulnerability to seizures. In this study, we provide evidence that malnutrition may increase susceptibility to seizures in the postnatal period by interleukin‐1β (IL‐1β) in the hippocampus. Malnourished rats were maintained on a nutritional deprivation regimen from postnatal day 1 (P1) to P10. From P7 to P10, the threshold to seizures induced by flurothyl was used as an index of seizure susceptibility. ELISA and western blot was performed to evaluate levels of IL‐1β, IL‐1R1, PSD‐95 and synapsin. The role of inflammation in the changes of seizure threshold was studied with inhibitors of IL‐1β and IL‐1R1. A significant decrease in body weight and seizure threshold was observed in postnatal malnourished rats. Early malnutrition modulates inflammation by high levels of IL‐1β in hippocampus and in serum. Furthermore, our malnutrition paradigm induced an increase in corticosterone levels. Injection of IL‐1β and IL‐1R1 inhibitors before seizure induction augments seizure threshold in malnourished rats similar to nourished group. Malnutrition did not change PSD‐95 and synapsin expression in the hippocampus. We suggest that malnutrition‐induced inflammation might contribute to seizure susceptibility in the postnatal period. © 2016 Wiley Periodicals, Inc. Develop Neurobiol 76: 1150–1159, 2016     

Lysophosphatidic acid improves corneal endothelial density in tissue culture by stimulating stromal secretion of interleukin‐1β

The short supply of donor corneas is exacerbated by the unsuitability of donors with insufficient endothelial cell density. Few studies have investigated promoting corneal endothelial cell proliferation to increase the endothelial cell density. We hypothesize that pre‐transplantation treatment of proliferative tissue‐cultivated corneas may increase corneal endothelial cell density. We observed that the airlift cultures were superior to immersion cultures with respect to both transparency and thickness. In this tissue culture system, we observed that lysophosphatidic acid increased the rabbit corneal endothelial cell density, number of BrdU‐positive cells and improve wound healing. We also observed an indirect effect of lysophosphatidic acid on corneal endothelial cell proliferation mediated by the stimulation of interleukin‐1β secretion from stromal cells. Human corneal tissues treated with lysophosphatidic acid or interleukin‐1β contained significantly more Ki‐67‐positive cells than untreated group. The lysophosphatidic acid‐ or interleukin‐1β‐treated cultured tissue remained hexagon‐shaped, with ZO‐1 expression and no evidence of the endothelial‐mesenchymal transition. Our novel protocol of tissue culture may be applicable for eye banks to optimize corneal grafting.     

IFN‐γ inhibits basal and α‐MSH‐induced melanogenesis

Inflammatory cytokines are closely related to pigmentary changes. In this study, the effects of IFN‐γ on melanogenesis were investigated. IFN‐γ inhibits basal and α‐MSH‐induced melanogenesis in B16 melanoma cells and normal human melanocytes. MITF mRNA and protein expressions were significantly inhibited in response to IFN‐γ. IFN‐γ inhibited CREB binding to the MITF promoter but did not affect CREB phosphorylation. Instead, IFN‐γ inhibited the association of CBP and CREB through the increased association between CREB binding protein (CBP) and STAT1. These findings suggest that IFN‐γ inhibits both basal and α‐MSH‐induced melanogenesis by inhibiting MITF expression. The inhibitory action of IFN‐γ in α‐MSH‐induced melanogenesis is likely to be associated with the sequestration of CBP via the association between CBP and STAT1. These data suggest that IFN‐γ plays a role in controlling inflammation‐ or UV‐induced pigmentary changes.     

Examination of the active secondary structure of the peptide 101.10, an allosteric modulator of the interleukin‐1 receptor,by positional scanning using β‐amino γ‐lactams

The relationship between the conformation and biological activity of the peptide allosteric modulator of the interleukin‐1 receptor 101.10 (D ‐Arg‐D ‐Tyr‐D ‐Thr‐D ‐Val‐D ‐Glu‐D ‐Leu‐D ‐Ala‐NH₂) has been studied using (R)‐ and (S)‐Bgl residues. Twelve Bgl peptides were synthesized using (R)‐ and (S)‐cyclic sulfamidate reagents derived from L ‐ and D ‐aspartic acid in an optimized Fmoc‐compatible protocol for efficient lactam installment onto the supported peptide resin. Examination of these (R)‐ and (S)‐Bgl 101.10 analogs for their potential to inhibit IL‐1β‐induced thymocyte cell proliferation using a novel fluorescence assay revealed that certain analogs exhibited retained and improved potency relative to the parent peptide 101.10. In light of previous reports that Bgl residues may stabilize type II′β‐turn‐like conformations in peptides, CD spectroscopy was performed on selected compounds to identify secondary structure necessary for peptide biological activity. Results indicate that the presence of a fold about the central residues of the parent peptide may be important for activity. Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.