IL‐1β and TNF‐α induce neurotoxicity through glutamate production: a potential role for neuronal glutaminase

Glutaminase 1 is the main enzyme responsible for glutamate production in mammalian cells. The roles of macrophage and microglia glutaminases in brain injury, infection, and inflammation are well documented. However, little is known about the regulation of neuronal glutaminase, despite neurons being a predominant cell type of glutaminase expression. Using primary rat and human neuronal cultures, we confirmed that interleukin‐1β (IL‐1β) and tumor necrosis factor‐α (TNF‐α), two pro‐inflammatory cytokines that are typically elevated in neurodegenerative disease states, induced neuronal death and apoptosis in vitro. Furthermore, both intracellular and extracellular glutamate levels were significantly elevated following IL‐1β and/or TNF‐α treatment. Pre‐treatment with N‐Methyl‐d ‐aspartate (NMDA) receptor antagonist MK‐801 blocked cytokine‐induced glutamate production and alleviated the neurotoxicity, indicating that IL‐1β and/or TNF‐α induce neurotoxicity through glutamate. To determine the potential source of excess glutamate production in the culture during inflammation, we investigated the neuronal glutaminase and found that treatment with IL‐1β or TNF‐α significantly upregulated the kidney‐type glutaminase (KGA), a glutaminase 1 isoform, in primary human neurons. The up‐regulation of neuronal glutaminase was also demonstrated in situ in a murine model of HIV‐1 encephalitis. In addition, IL‐1β or TNF‐α treatment increased the levels of KGA in cytosol and TNF‐α specifically increased KGA levels in the extracellular fluid, away from its main residence in mitochondria. Together, these findings support neuronal glutaminase as a potential component of neurotoxicity during inflammation and that modulation of glutaminase may provide therapeutic avenues for neurodegenerative diseases.     

Macrophage-adipocyte interaction: marked interleukin-6 production by lipopolysaccharide

Objective: Recent studies suggested macrophages were integrated in adipose tissues, interacting with adipocytes, thereby exacerbating inflammatory responses. Persistent low‐grade infection by gram‐negative bacteria appears to promote atherogenesis. We hypothesized a ligand for toll‐like receptor 4 (TLR4), bacterial lipopolysaccharide (LPS), would further exaggerate macrophage‐adipocyte interaction. Research Methods and Procedures: RAW264.7 macrophage cell line and differentiated 3T3‐L1 preadipocytes were co‐cultured using transwell system. As a control, each cell was cultured independently. After incubation of the cells with or without Escherichia coli LPS, tumor necrosis factor (TNF)‐α and interleukin (IL)‐6 production was evaluated. Results: Co‐culture of macrophages and adipocytes with low concentration of Escherichia coli LPS (1 ng/mL) markedly up‐regulated IL‐6 production (nearly 100‐fold higher than that of adipocyte culture alone, p < 0.01), whereas TNF‐α production was not significantly influenced. This increase was partially inhibited by anti‐TNF‐α neutralizing antibody. Recombinant TNF‐α and LPS synergistically up‐regulated IL‐6 production in adipocytes. However, this increase did not reach the level of production observed in co‐cultures stimulated with LPS. Discussion: A ligand for TLR‐4 stimulates macrophages to produce TNF‐α. TNF‐α, thus produced, cooperatively up‐regulates IL‐6 production with other soluble factors secreted either from adipocytes or macrophages in these cells. Markedly up‐regulated IL‐6 would greatly influence the pathophysiology of diabetes and its vascular complications.     

Activation of human bronchial epithelial cells by inflammatory cytokines IL‐27 and TNF‐α: Implications for immunopathophysiology of airway inflammation

Interleukin (IL)‐27 is a member of IL‐6/IL‐12 family cytokines produced by antigen‐presenting cells in immune responses. IL‐27 can drive the commitment of naive T cells to a T helper type 1 (Th1) phenotype and inhibit inflammation in later phases of infection. Human bronchial epithelial cells have been shown to express IL‐27 receptor complex. In this study, we investigated the in vitro effects of IL‐27, alone or in combination with inflammatory cytokine tumor necrosis factor (TNF)‐α on the pro‐inflammatory activation of human primary bronchial epithelial cells and the underlying intracellular signaling mechanisms. IL‐27 was found to enhance intercellular adhesion molecule 1 (ICAM‐1) expression on the surface of human bronchial epithelial cells, and a synergistic effect was observed in the combined treatment of IL‐27 and TNF‐α on the expression of ICAM‐1. Although IL‐27 did not alter the basal IL‐6 secretion from bronchial epithelial cells, it could significantly augment TNF‐α‐induced IL‐6 release. These synergistic effects on the up‐regulation of ICAM‐1 and IL‐6 were partially due to the elevated expression of TNF‐α receptor (p55TNFR) induced by IL‐27. Further investigations showed that the elevation of ICAM‐1 and IL‐6 in human bronchial epithelial cells stimulated by IL‐27 and TNF‐α was differentially regulated by phosphatidylinositol 3‐OH kinase (PI3K)‐Akt, p38 mitogen‐activated protein kinase, and nuclear factor‐κB pathways. Our results therefore provide a new insight into the molecular mechanisms involved in airway inflammation. J. Cell. Physiol. 223:788–797, 2010. © 2010 Wiley‐Liss, Inc.     

Variants of the IL‐10 gene associate with muscle strength in elderly from rural Africa: a candidate gene study

Recently, it has been shown that the capacity of the innate immune system to produce cytokines relates to skeletal muscle mass and strength in older persons. The interleukin‐10 (IL‐10) gene regulates the production capacities of IL‐10 and tumour necrosis factor‐α (TNF‐α). In rural Ghana, IL‐10 gene variants associated with different production capacities of IL‐10 and TNF‐α are enriched compared with Caucasian populations. In this setting, we explored the association between these gene variants and muscle strength. Among 554 Ghanaians aged 50 years and older, we determined 20 single nucleotide polymorphisms in the IL‐10 gene, production capacities of IL‐10 and TNF‐α in whole blood upon stimulation with lipopolysaccharide (LPS) and handgrip strength as a proxy for skeletal muscle strength. We distinguished pro‐inflammatory haplotypes associated with low IL‐10 production capacity and anti‐inflammatory haplotypes with high IL‐10 production capacity. We found that distinct haplotypes of the IL‐10 gene associated with handgrip strength. A pro‐inflammatory haplotype with a population frequency of 43.2% was associated with higher handgrip strength (P = 0.015). An anti‐inflammatory haplotype with a population frequency of 7.9% was associated with lower handgrip strength (P = 0.006). In conclusion, variants of the IL‐10 gene contributing to a pro‐inflammatory cytokine response associate with higher muscle strength, whereas those with anti‐inflammatory response associate with lower muscle strength. Future research needs to elucidate whether these effects of variation in the IL‐10 gene are exerted directly through its role in the repair of muscle tissue or indirectly through its role in the defence against infectious diseases.     

Antimicrobial and anti‐inflammatory activity of five Taxandria fragrans oils in vitro

The antimicrobial activity of five samples of Taxandria fragrans essential oil was evaluated against a range of Gram‐positive (n= 26) and Gram‐negative bacteria (n= 39) and yeasts (n= 10). The majority of organisms were inhibited and/or killed at concentrations ranging from 0.06–4.0% v/v. Geometric means of MIC were lowest for oil Z (0.77% v/v), followed by oils X (0.86%), C (1.12%), A (1.23%) and B (1.24%). Despite differences in susceptibility data between oils, oils A and X did not differ when tested at 2% v/v in a time kill assay against Staphylococcus aureus. Cytotoxicity assays using peripheral blood mononuclear cells demonstrated that T. fragrans oil was cytotoxic at 0.004% v/v but not at 0.002%. Exposure to one or more of the oils at concentrations of ≤0.002% v/v resulted in a dose responsive reduction in the production of proinflammatory cytokines IL‐6 and TNF‐α, regulatory cytokine IL‐10, Th1 cytokine IFN‐γ and Th2 cytokines IL‐5 and IL‐13 by PHA stimulated mononuclear cells. Oil B inhibited the production of all cytokines except IL‐10, oil X inhibited TNF‐α, IL‐6 and IL‐10, oil A inhibited TNF‐α and IL‐6, oil C inhibited IL‐5 and IL‐6 and oil Z inhibited IL‐13 only. IL‐6 production was significantly inhibited by the most oils (A, B, C and X), followed by TNF‐α (oils A, B and X). In conclusion, T. fragrans oil showed both antimicrobial and anti‐inflammatory activity in vitro, however, the clinical relevance of this remains to be determined.     

Role of PPARγ in the salutary effects of 17β‐estradiol on kupffer cell cytokine production following trauma‐hemorrhage

Studies have shown that administration of 17β‐estradiol prevents trauma‐hemorrhage‐induced increase in proinflammatory cytokine production by Kupffer cells and associated multiple organ injury. Since activation of peroxisome proliferator‐activated receptor γ (PPARγ) following ischemic conditions has been shown to be protective, we examined if PPARγ plays any role in the salutary effects of 17β‐estradiol on Kupffer cell cytokine production following trauma‐hemorrhage. Male mice underwent trauma‐hemorrhage (mean blood pressure 40 mmHg for 90 min, then resuscitation). 17β‐estradiol (50 µg/kg) or vehicle with or without PPARγ antagonist GW9662 was injected subcutaneously at the middle of resuscitation. At 2 h after trauma‐hemorrhage, plasma interleukin (IL)‐6 and tumor necrosis factor (TNF)‐α levels, Kupffer cell IL‐6 and TNF‐α production and mRNA expression, and PPARγ, nuclear factor (NF)‐κB and activator protein (AP)‐1 DNA binding activity were determined. Kupffer cell IL‐6 and TNF‐α production, as well as plasma IL‐6 and TNF‐α levels, increased following trauma‐hemorrhage. Moreover, NF‐κB and AP‐1 DNA binding activity and IL‐6 and TNF‐α mRNA expression were also enhanced under such conditions. However, 17β‐estradiol administration normalized all these parameters. Although PPARγ activity decreased after trauma‐hemorrhage, administration of 17β‐estradiol following trauma‐hemorrhage elevated PPARγ activity above the normal level. Inhibition of PPARγ by co‐administration of GW9662, however, abolished the salutary effects of 17β‐estradiol on plasma cytokine and Kupffer cells. Thus, activation of PPARγ appears to play an important role in mediating the salutary effects of 17β‐estradiol on plasma cytokine levels and Kupffer cell cytokine production after trauma‐hemorrhage, which are likely mediated via NF‐κB and AP‐1. J. Cell. Physiol. 226: 205–211, 2010. © 2010 Wiley‐Liss, Inc.     

Analysis of amphotericin B-induced cell signaling with chemical inhibitors of signaling molecules

Although amphotericin B (AmB) is a major polyene antibiotic against invasive fungal infection, administration to patients sometimes causes inflammatory side effects, which limits the usage of the antibiotic. We studied the intracellular signaling that was induced by AmB. p65 (RelA) of nuclear factor‐κB (NF‐κB), a well‐known signaling molecule as an inducer of proinflammatory cytokines, was phosphorylated by AmB in RAW264.7 cells, a monocyte‐like cell line. Among chemical inhibitors of signaling molecules, U‐73122 (phospholipase C (PLC) inhibitor), Gö6976 (protein kinase C (PKC) inhibitor), BAPTA‐AM (calcium chelator), LFM‐A13 (Bruton's tyrosine kinase (Btk)‐specific inhibitor), and PP2 (c‐Src kinase inhibitor) suppressed AmB‐induced phosphorylation of p65 and translocation of p65 into the nucleus. U‐73122 and Gö6976 reduced AmB‐mediated induction of proinflammatory cytokines (tumor necrosis factor (TNF)‐α and interleukin (IL)‐6) in RAW264.7 cells. Furthermore, AmB‐induced activation of NF‐ κ B was observed in toll‐like receptor (TLR) 2‐expressed cells, and the activation of NF‐κB was inhibited by U‐73122, whereas peptidoglycan‐induced NF‐κB activation, which was also dependent on TLR2, was not inhibited by U‐73122. Finally, U‐73122 partially suppressed in vivo production of TNF‐α and IL‐6 induced by AmB administration in BALB/c mice. These results suggested that the signaling from AmB stimulation to proinflammatory cytokine production is mediated by TLR2, Btk, PLC, PKC, c‐Src and NF‐κB. These signaling molecules may become a target for chemotherapy suppressing AmB‐induced proinflammatory cytokine production.     

Chronic exercise decreases cytokine production in healthy rat skeletal muscle

Skeletal muscle is the source of pro‐ and anti‐inflammatory cytokines, and recently, it has been recognized as an important source of interleukin‐6 (IL‐6). Acute physical exercise is known to induce a pro‐inflammatory cytokine profile in the plasma. However, the effect of chronic physical exercise in the production of pro‐ and anti‐inflammatory cytokines by the skeletal muscle has never been examined. We assessed IL‐6, TNF‐α, IL‐1β and IL‐10 levels in the skeletal muscle of rats submitted to endurance training. Animals were randomly assigned to either a sedentary group (S, n = 7) or an endurance exercise trained group (T, n = 8). Trained rats ran on a treadmill for 5 days week^?1 for 8 weeks (60% VO_2max). Detection of IL‐6, TNF‐α, IL‐1β and IL‐10 protein expression was carried out by ELISA. We found decreased expression of IL‐1β, IL‐6, TNF‐α and IL‐10 (28%, 27%, 32% and 37%, respectively, p < 0.05) in the extensor digital longus (EDL) from T, when compared with S. In the soleus, IL‐1β, TNF‐α and IL‐10 protein levels were similarly decreased (34%, 42% and 50%, respectively, p < 0.05) in T in relation to S, while IL‐6 expression was not affected by the training protocol. In conclusion, exercise training induced decreased cytokine protein expression in the skeletal muscle. These data show that in healthy rats, 8‐week moderate‐intensity aerobic training down regulates skeletal muscle production of cytokines involved in the onset, maintenance and regulation of inflammation, and that the response is heterogeneous according to fibre composition. Copyright © 2009 John Wiley & Sons, Ltd.     

FAK activation is required for TNF‐α‐induced IL‐6 production in myoblasts

Tumor necrosis factor‐α (TNF‐α) is a pleiotropic cytokine produced by activated macrophages. IL‐6 is a multifunctional cytokine that plays a central role in both innate and acquired immune responses. We investigated the signaling pathway involved in IL‐6 production stimulated by TNF‐α in cultured myoblasts. TNF‐α caused concentration‐dependent increases in IL‐6 production. TNF‐α‐mediated IL‐6 production was attenuated by focal adhesion kinase (FAK) mutant and siRNA. Pretreatment with phosphatidylinositol 3‐kinase inhibitor (PI3K; Ly294002 and wortmannin), Akt inhibitor, NF‐κB inhibitor (pyrrolidine dithiocarbamate, PDTC), and IκB protease inhibitor (L ‐1‐tosylamido‐2‐phenyl phenylethyl chloromethyl ketone, TPCK) also inhibited the potentiating action of TNF‐α. TNF‐α increased the FAK, PI3K, and Akt phosphorylation. Stimulation of myoblasts with TNF‐α activated IκB kinase α/β (IKKα/β), IκBα phosphorylation, p65 phosphorylation, and κB‐luciferase activity. TNF‐α mediated an increase of κB‐luciferase activity which was inhibited by Ly294002, wortmannin, Akt inhibitor, PDTC and TPCK or FAK, PI3K, and Akt mutant. Our results suggest that TNF‐α increased IL‐6 production in myoblasts via the FAK/PI3K/Akt and NF‐κB signaling pathway. J. Cell. Physiol. 223: 389–396, 2010. © 2010 Wiley‐Liss, Inc.     

Excretory and Secretory Proteins of Naegleria fowleri Induce Inflammatory Responses in BV‐2 Microglial Cells

Naegleria fowleri, a free‐living amoeba that is found in diverse environmental habitats, can cause a type of fulminating hemorrhagic meningoencephalitis, primary amoebic meningoencephalitis (PAM), in humans. The pathogenesis of PAM is not fully understood, but it is likely to be primarily caused by disruption of the host's nervous system via a direct phagocytic mechanism by the amoeba. Naegleria fowleri trophozoites are known to secrete diverse proteins that may indirectly contribute to the pathogenic function of the amoeba, but this factor is not clearly understood. In this study, we analyzed the inflammatory responses in BV‐2 microglial cells induced by excretory and secretory proteins of N. fowleri (NfESP). Treatment of BV‐2 cells with NfESP induced the expression of various cytokines and chemokines, including the proinflammatory cytokines IL‐1α and TNF‐α. NfESP‐induced IL‐1α and TNF‐α expression in BV‐2 cells were regulated by p38, JNK, and ERK MAPKs. NfESP‐induced IL‐1α and TNF‐α production in BV‐2 cells were effectively downregulated by inhibition of NF‐kB and AP‐1. These results collectively suggest that NfESP stimulates BV‐2 cells to release IL‐1α and TNF‐α via NF‐kB‐ and AP‐1‐dependent MAPK signaling pathways. The released cytokines may contribute to inflammatory responses in microglia and other cell types in the brain during N. fowleri infection.     

Moxibustion activates host defense against herpes simplex virus type I through augmentation of cytokine production

Moxibustion is a technique used in traditional oriental medicine, the aim of which is to cure and/or prevent illness by activating a person's ability for self‐healing. In this study, we assessed how moxibustion would affect the immune system and whether it would augment protective immunity. Mice were treated with moxibustion at Zusanli (ST36) acupoints; we analyzed mortality and cytokine activity in sera after infection with herpes simplex virus type 1 (HSV‐1), and cytokine gene expression in the skin and the spleen without a virus challenge. Our study demonstrates that pretreatment of BALB/c mice with moxibustion resulted in a marked increase in the survival rate after infection with lethal doses of HSV‐1, and elevated serum levels of IL‐1β and IFN‐γ on days 1 and 6 post‐infection with HSV‐1. Semi‐quantitative RT‐PCR assay showed that moxibustion treatment augmented the expression of IL‐1α, IL‐1β, IL‐6, universal‐IFN‐α, MIP‐1α, and TNF‐α mRNA in the skin, and IL‐1α, IL‐1β, IL‐12p40, IL‐15, u‐IFN‐α, MIP‐1α, and TNF‐α mRNA in the spleen. Moreover, moxibustion induces augmentation of natural killer cell activity. Collectively, our study demonstrates that moxibustion activates protective responses against HSV‐1 infection through the activation of cytokine production including IFN, and of NK cells.     

Short‐Term Lenalidomide (Revlimid) Administration Ameliorates Cardiomyocyte Contractile Dysfunction in ob/ob Obese Mice

Lenalidomide is a potent immunomodulatory agent capable of downregulating proinflammatory cytokines such as tumor necrosis factor‐α (TNF‐α) and upregulating anti‐inflammatory cytokines. Lenalidomide has been shown to elicit cardiovascular effects, although its impact on cardiac function remains obscure. This study was designed to examine the effect of lenalidomide on cardiac contractile function in ob/ob obese mice. C57BL lean and ob/ob obese mice were given lenalidomide (50 mg/kg/day, p.o.) for 3 days. Body fat composition was assessed by dual‐energy X‐ray absorptiometry. Cardiomyocyte contractile and intracellular Ca²⁺ properties were evaluated. Expression of TNF‐α, interleukin‐6 (IL‐6), Fas, Fas ligand (FasL), the short‐chain fatty acid receptor GPR41, the NFκB regulator IκB, endoplasmic reticulum (ER) stress, the apoptotic protein markers Bax, Bcl‐2, caspase‐8, tBid, cytosolic cytochrome C, and caspase‐12; and the stress signaling molecules p38 and extracellular signal‐regulated kinase (ERK) were evaluated by western blot. ob/ob mice displayed elevated serum TNF‐α and IL‐6 levels, fat composition and glucose intolerance, the effects of which except glucose intolerance and fat composition were attenuated by lenalidomide. Cardiomyocytes from ob/ob mice exhibited depressed peak shortening (PS) and maximal velocity of shortening/relengthening, prolonged time‐to‐PS and time‐to‐90% relengthening as well as intracellular Ca²⁺ mishandling, which were ablated by lenalidomide. Western blot analysis revealed elevated levels of TNF‐α, IL‐6, Fas, Bip, Bax, caspase‐8, tBid, cleaved caspase‐3 caspase‐12, cytochrome C, phosphorylation of p38, and ERK in ob/ob mouse hearts, the effects of which with the exception of Bip, Bax, and caspase‐12 were alleviated by lenalidomide. Taken together, these data suggest that lenalidomide is protective against obesity‐induced cardiomyopathy possibly through antagonism of cytokine/Fas‐induced activation of stress signaling and apoptosis.     

Intermediate chains of exopolysaccharides from Lactobacillus rhamnosus RW‐9595M increase IL‐10 production by macrophages

Aims: To evaluate the immunosuppressive properties of the exopolysaccharide (EPS) from high‐EPS producer Lactobacillus rhamnosus RW‐9595M on inflammatory cytokines produced by macrophages. Methods and Results: The conditioned media (CM) were produced by macrophages treated with parental Lact. rhamnosus ATCC 9595 and its isogenic variant, the high‐EPS producer Lact. rhamnosus RW‐9595M, and the levels of TNF‐α, IL‐6, IL‐10 and IL‐12 were evaluated. Results revealed that CM from parental Lact. rhamnosus induced higher levels of TNF‐α, IL‐6 and IL‐12 but inhibited IL‐10 production, whereas its mucous variant induced low or no TNF‐α and IL‐6. Addition of purified EPS to macrophages treated with parental Lact. rhamnosus decreased the inflammatory cytokines and inhibited the metabolic activity of lymphocytes. The intermediate polysaccharide chains (16–30 units) produced by time‐controlled hydrolysis of EPS increased the IL‐10 produced by macrophages. Conclusions: Polysaccharide chains of EPS induced immunosuppression by the production of macrophagic anti‐inflammatory IL‐10. Significance and impact of the Study: These results indicate that the EPS from Lact. rhamnosus RW‐9595M may be useful as a new immunosuppressive product in dairy food.     

Ibuprofen augments pro‐inflammatory cytokine release in a mouse model of Vibrio vulnificus infection

We evaluated the effects of ibuprofen on cytokine production and mortality in a mouse model of septic shock induced by Vibrio vulnificus, strain Chi Mei Vv05191. Ibuprofen (50 mg/kg) or saline (control) was given to female BALB/cByJ mice for three consecutive days before exposure to the pathogen. For cytokine production, serum and peritoneal fluid were assayed for IL‐1β, IL‐6, TNF‐α, and MIP‐2 by ELISA at 3, 6, and 9 hr after intraperitoneal infection of the organism. At 6 hr after infection, serum and peritoneal fluid levels of IL‐6, TNF‐α, and MIP‐2 were significantly higher in the ibuprofen group. For mortality determination, 73 mice (37 ibuprofen, 36 control) were injected intramuscularly with V. vulnificus. Kaplan–Meier survival curves were analyzed. Survival was significantly decreased by ibuprofen only for the lowest inoculum (25 CFU) of V. vulnificus. Administration of ibuprofen before infection may augment the pathogenesis of V. vulnificus by stimulating cytokine production.     

Immunomodulatory,insulinotropic, and cytotoxic activities of phylloseptins and plasticin‐TR from the Trinidanian leaf frog Phyllomedusa trinitatis

The aim of the study was to determine the in vitro immunomodulatory, cytotoxic, and insulin‐releasing activities of seven phylloseptin‐TR peptides and plasticin‐TR, first isolated from the frog Phyllomedusa trinitatis. The most cationic peptides, phylloseptin‐1.1TR and phylloseptin‐3.1TR, showed greatest cytotoxic potency against A549, MDA‐MB231, and HT‐29 human tumor‐derived cells and against mouse erythrocytes. Phylloseptin‐4TR was the most hydrophobic and the most effective peptide at inhibiting production of the proinflammatory cytokines TNF‐α and IL‐1β by mouse peritoneal cells but was without effect on production of the antiinflammatory cytokine IL‐10. Phylloseptin‐2.1TR and phylloseptin‐3.3TR were the most effective at stimulating the production of IL‐10. The noncytotoxic peptide, plasticin‐TR, inhibited production of TNF‐α and IL‐1β but was without effect on IL‐10 production. The results of CD spectroscopy suggest that the different properties of plasticin‐TR compared with the immunostimulatory activities of the previously characterized plasticin‐L1 from Leptodactylus laticeps may arise from greater ability of plasticin‐TR to oligomerize and adopt a stable helical conformation in a membrane‐mimetic environment. All peptides stimulated release of insulin from BRIN‐BD11 rat clonal β cells with phylloseptin‐3.2TR being the most potent and effective and phylloseptin‐2.1TR the least effective suggesting that insulinotropic potency correlates inversely with helicity. The study has provided insight into structure‐activity relationships among the phylloseptins. The combination of immunomodulatory and insulinotropic activities together with low cytotoxicity suggests that phylloseptin‐3.3TR and plasticin‐TR may represent templates for the development of agents for use in antiinflammatory and type 2 diabetes therapies.     

Effect of an acute moderate‐exercise session on metabolic and inflammatory profile of PPAR‐α knockout mice

Peroxisome proliferator‐activated receptors (PPARs) play a major role in metabolism and inflammatory control. Exercise can modulate PPAR expression in skeletal muscle, adipose tissue, and macrophages. Little is known about the effects of PPAR‐α in metabolic profile and cytokine secretion after acute exercise in macrophages. In this context, the aim of this study was to understand the influence of PPAR‐α on exercise‐mediated immune metabolic parameters in peritoneal macrophages. Mice C57BL/6 (WT) and PPAR‐α knockout (KO) were examined in non‐exercising control (n = 4) or 24 hours after acute moderate exercise (n = 8). Metabolic parameters (glucose, non‐esterified fatty acids, total cholesterol [TC], and triacylglycerol [TG]) were assessed in serum. Cytokine concentrations (IL‐1β, IL‐6, IL‐10, TNF‐α, and MCP‐1) were measured from peritoneal macrophages cultured or not with LPS (2.5 μg/mL) and Rosiglitazone (1 μM). Exercised KO mice exhibited low glucose concentration and higher TC and TG in serum. At baseline, no difference in cytokine production between the genotypes was observed. However, IL‐1β was significantly higher in KO mice after LPS stimulus. IL‐6 and IL‐1β had increased concentrations in KO compared with WT, even after exercise. MCP‐1 was not restored in exercised KO LPS group. Rosiglitazone was not able to reduce proinflammatory cytokine production in KO mice at baseline level or associated with exercise. Acute exercise did not alter mRNA expression in WT mice. Conclusion: PPAR‐α seems to be needed for metabolic glucose homeostasis and anti‐inflammatory effect of acute exercise. Its absence may induce over‐expression of pro‐inflammatory cytokines in LPS stimulus. Moreover, moderate exercise or PPAR‐γ agonist did not reverse this response.     

Increased CD11b+ Gr‐1+ cell population in the placenta after infection with Toxoplasma gondii

Toxoplasma gondii is an obligate intracellular protozoan pathogen that can cross the placenta, resulting in congenital toxoplasmosis with severe fetal brain abnormalities. The molecular mechanisms of immune responses against T. gondii infection in the placenta have largely remained unclear. An analytical method for characterizing phenotypes of immune cells in the placenta by flow cytometry was established and it was found that numbers of CD11b⁺ Gr‐1⁺ cells in the placenta increased significantly after T. gondii infection. These results suggest that innate immune responses play an important role in immunity against T. gondii infection via the feto‐maternal interface.