The long-chain fatty acid receptor FFAR1 is highly expressed in pancreatic β-cells. Synthetic FFAR1 agonists can be used as antidiabetic drugs to promote glucose-stimulated insulin secretion (GSIS). ...However, the physiological role of FFAR1 in β-cells remains poorly understood. Here we show that 20-HETE activates FFAR1 and promotes GSIS via FFAR1 with higher potency and efficacy than dietary fatty acids such as palmitic, linoleic, and α-linolenic acid. Murine and human β-cells produce 20-HETE, and the ω-hydroxylase-mediated formation and release of 20-HETE is strongly stimulated by glucose. Pharmacological inhibition of 20-HETE formation and blockade of FFAR1 in islets inhibits GSIS. In islets from type-2 diabetic humans and mice, glucose-stimulated 20-HETE formation and 20-HETE-dependent stimulation of GSIS are strongly reduced. We show that 20-HETE is an FFAR1 agonist, which functions as an autocrine positive feed-forward regulator of GSIS, and that a reduced glucose-induced 20-HETE formation contributes to inefficient GSIS in type-2 diabetes.
The putative cannabinoid receptor GPR55 has been shown to play a tumor‐promoting role in various cancers, and is involved in many physiological and pathological processes of the gastrointestinal (GI) ...tract. While the cannabinoid receptor 1 (CB1) has been reported to suppress intestinal tumor growth, the role of GPR55 in the development of GI cancers is unclear. We, therefore, aimed at elucidating the role of GPR55 in colorectal cancer (CRC), the third most common cancer worldwide. Using azoxymethane (AOM)‐ and dextran sulfate sodium (DSS)‐driven CRC mouse models, we found that GPR55 plays a tumor‐promoting role that involves alterations of leukocyte populations, i.e. myeloid‐derived suppressor cells and T lymphocytes, within the tumor tissues. Concomitantly, expression levels of COX‐2 and STAT3 were reduced in tumor tissue of GPR55 knockout mice, indicating reduced presence of tumor‐promoting factors. By employing the experimental CRC models to CB1 knockout and CB1/GPR55 double knockout mice, we can further show that GPR55 plays an opposing role to CB1. We report that GPR55 and CB1 mRNA expression are differentially regulated in the experimental models and in a cohort of 86 CRC patients. Epigenetic methylation of CNR1 and GPR55 was also differentially regulated in human CRC tissue compared to control samples. Collectively, our data suggest that GPR55 and CB1 play differential roles in colon carcinogenesis where the former seems to act as oncogene and the latter as tumor suppressor.
What's new?
The cannabinoid receptor GPR55 may boost colon tumor growth, new results show. Earlier work has established the receptor's role in various cancers, but this study is the first to investigate its relationship to colorectal cancer. These authors observed that mice lacking GPR55 had a much lighter tumor burden than wild type mice, as well as lower levels of COX‐2 and STAT3, both of which help drive tumor growth. Knocking out GPR55 also bumped the infiltration of CD4+ and CD8+ T cells in the tumor microenvironment, suggesting that GPR55 aids cancer by arranging a friendlier leukocyte population around the tumor.
The nucleoside analog cytarabine (Ara-C) is an essential component of primary and salvage chemotherapy regimens for acute myeloid leukemia (AML). After cellular uptake, Ara-C is converted into its ...therapeutically active triphosphate metabolite, Ara-CTP, which exerts antileukemic effects, primarily by inhibiting DNA synthesis in proliferating cells. Currently, a substantial fraction of patients with AML fail to respond effectively to Ara-C therapy, and reliable biomarkers for predicting the therapeutic response to Ara-C are lacking. SAMHD1 is a deoxynucleoside triphosphate (dNTP) triphosphohydrolase that cleaves physiological dNTPs into deoxyribonucleosides and inorganic triphosphate. Although it has been postulated that SAMHD1 sensitizes cancer cells to nucleoside-analog derivatives through the depletion of competing dNTPs, we show here that SAMHD1 reduces Ara-C cytotoxicity in AML cells. Mechanistically, dGTP-activated SAMHD1 hydrolyzes Ara-CTP, which results in a drastic reduction of Ara-CTP in leukemic cells. Loss of SAMHD1 activity-through genetic depletion, mutational inactivation of its triphosphohydrolase activity or proteasomal degradation using specialized, virus-like particles-potentiates the cytotoxicity of Ara-C in AML cells. In mouse models of retroviral AML transplantation, as well as in retrospective analyses of adult patients with AML, the response to Ara-C-containing therapy was inversely correlated with SAMHD1 expression. These results identify SAMHD1 as a potential biomarker for the stratification of patients with AML who might best respond to Ara-C-based therapy and as a target for treating Ara-C-refractory AML.
Hypomethylating agents decitabine and azacytidine are regarded as interchangeable in the treatment of acute myeloid leukemia (AML). However, their mechanisms of action remain incompletely understood, ...and predictive biomarkers for HMA efficacy are lacking. Here, we show that the bioactive metabolite decitabine triphosphate, but not azacytidine triphosphate, functions as activator and substrate of the triphosphohydrolase SAMHD1 and is subject to SAMHD1-mediated inactivation. Retrospective immunohistochemical analysis of bone marrow specimens from AML patients at diagnosis revealed that SAMHD1 expression in leukemic cells inversely correlates with clinical response to decitabine, but not to azacytidine. SAMHD1 ablation increases the antileukemic activity of decitabine in AML cell lines, primary leukemic blasts, and xenograft models. AML cells acquire resistance to decitabine partly by SAMHD1 up-regulation. Together, our data suggest that SAMHD1 is a biomarker for the stratified use of hypomethylating agents in AML patients and a potential target for the treatment of decitabine-resistant leukemia.
Eicosanoids play a crucial role in inflammatory pain. However, there is very little knowledge about the contribution of oxidized linoleic acid metabolites in inflammatory pain and peripheral ...sensitization. Here, we identify 12,13-dihydroxy-9Z-octadecenoic acid (12,13-DiHOME), a cytochrome P450-derived linoleic acid metabolite, as crucial mediator of thermal hyperalgesia during inflammatory pain. We found 12,13-DiHOME in increased concentrations in peripheral nervous tissue during acute zymosan- and complete Freund's Adjuvant-induced inflammatory pain. 12,13-DiHOME causes calcium transients in sensory neurons and sensitizes the transient receptor potential vanilloid 1 (TRPV1)-mediated intracellular calcium increases via protein kinase C, subsequently leading to enhanced TRPV1-dependent CGRP-release from sensory neurons. Peripheral injection of 12,13-DiHOME in vivo causes TRPV1-dependent thermal pain hypersensitivity. Finally, application of the soluble epoxide hydrolase (sEH)-inhibitor TPPU reduces 12,13-DiHOME concentrations in nervous tissue and reduces zymosan- and CFA-induced thermal hyperalgesia in vivo. In conclusion, we identify a novel role for the lipid mediator 12,13-DiHOME in mediating thermal hyperalgesia during inflammatory pain and propose a novel mechanism that may explain the antihyperalgesic effects of sEH inhibitors in vivo.
•The concentrations of the oxidized lipid 12,13-DiHOME increase during inflammatory pain.•12,13-DiHOME induces thermal pain hypersensitivity via TRPV1.•The sEH-inhibitor TPPU reduces DiHOME concentrations in nervous tissue in vivo.•TPPU reduces both CFA- and zymosan-induced thermal hyperalgesia in vivo.•A novel mechanism of how sEH-inhibition reduces thermal hyperalgesia is proposed.
Kidney fibrosis is a hallmark of chronic kidney disease and leads to extracellular matrix accumulation, organ scarring, and loss of kidney function. In this study, we investigated the role of ...sphingosine kinase-2 (SPHK2) on the progression of tubular fibrosis by using a mouse unilateral ureteral obstruction (UUO) model. We found that SPHK2 protein and activity are up-regulated in fibrotic renal tissue. Functionally, Sphk2-deficient (Sphk2−/−) mice showed an attenuated fibrotic response to UUO compared with wild-type mice, as demonstrated by reduced collagen abundance and decreased expression of fibronectin-1, collagen I, α-smooth muscle actin, connective tissue growth factor (CTGF), and plasminogen activator inhibitor (PAI-1). More important, these changes were associated with increased expression of the antifibrotic protein Smad7 and higher levels of sphingosine in Sphk2−/− UUO kidneys. Mechanistically, sphingosine ameliorates transforming growth factor-β–induced collagen accumulation, CTGF, and PAI-1 expression, but enhances Smad7 protein expression in primary kidney fibroblasts. In a complementary approach, in human Sphk2-overexpressing mice, UUO resulted in exacerbated signs of fibrosis with increased collagen accumulation, higher expression levels of fibronectin-1, collagen I, α-smooth muscle actin, CTGF, and PAI-1, but decreased Smad7 expression. SPHK2 plays an important role in kidney fibrogenesis by modulating transforming growth factor-β signaling. Thus, SPHK2 might be an attractive new target for the treatment of fibrosis in chronic kidney disease.
Baghouse dust collectors are widely used to remove wood particles from dust-laden air before it is expelled from or recycled into workplaces. Despite the growing use of filter media with ...supplementary surface treatment, conventional open-faced filter media or other common media are still widely used in the woodworking industry. More efficient filter media may help to reduce downstream particle emission. This article describes the emission performances of two polyester fiber filter media: one with a smooth anti-adhesive thermo-bonded surface, and the second covered with a microporous polymeric membrane. For the two media, 250 filtration cycles were performed on a 24-bag pulse-jet cleaned pilot dust collector loaded with coarse wood dust from a joinery workshop. Emitted particle concentrations and downstream particle size distributions were measured for various operating conditions. The data presented focus on particle puffs emitted during pulse-jet cleaning as this is known to be the most problematic stage.
For both media, our results confirm the prevailing opinion that higher pulse-jet cleaning intensities increase particle emission, however this also reduces regeneration frequency. Increasing the maximum pressure drop across the filter bags before regeneration leads to higher average downstream mass concentrations during pulse-jet cleaning. The wood particles emitted during puffs are predominantly sub-micronic.
For all operating conditions, the medium with a polymeric membrane was associated with lower particle emissions than the more commonly used thermo-bonded medium. However, during pulse-jet cleaning, neither of the media tested provided a mass concentration below 0.2mg·m−3, the recommended concentration value for air recycling in France.
Display omitted
•Experiments were done on a 24 bags pilot dust collector loaded with wood dust.•Mass concentrations during pulse-jet cleanings were always higher than 0.2mg·m−3.•Polymeric membrane surface treatment causes lower emissions than thermo-bonding.•Higher pulse-jet intensities cause increased emissions but lower cleaning frequency.•Emitted wood particles during puffs are predominantly sub-micronic.
Background: Maladapted endothelial cells (ECs) secrete ENPP2 (ectonucleotide pyrophosphatase/phosphodiesterase 2; autotaxin)—a lysophospholipase D that generates lysophosphatidic acids (LPAs). ENPP2 ...derived from the arterial wall promotes atherogenic monocyte adhesion induced by generating LPAs, such as arachidonoyl-LPA (LPA20:4), from oxidized lipoproteins. Here, we aimed to determine the role of endothelial ENPP2 in the production of LPAs and atherosclerosis. Methods: We quantified atherosclerosis in mice harboring loxP-flanked Enpp2 alleles crossed with Apoe –/– mice expressing tamoxifen-inducible Cre recombinase under the control of the EC-specific bone marrow X kinase promoter after 12 weeks of high-fat diet feeding. Results: A tamoxifen-induced EC-specific Enpp2 knockout decreased atherosclerosis, accumulation of lesional macrophages, monocyte adhesion, and expression of endothelial CXCL (C-X-C motif chemokine ligand) 1 in male and female Apoe –/– mice. In vitro, ENPP2 mediated the mildly oxidized LDL (low-density lipoprotein)-induced expression of CXCL1 in aortic ECs by generating LPA20:4, palmitoyl-LPA (LPA16:0), and oleoyl-LPA (LPA18:1). ENPP2 and its activity were detected on the endothelial surface by confocal imaging. The expression of endothelial Enpp2 established a strong correlation between the plasma levels of LPA16:0, stearoyl-LPA (LPA18:0), and LPA18:1 and plaque size and a strong negative correlation between the LPA levels and ENPP2 activity in the plasma. Moreover, endothelial Enpp2 knockout increased the weight of high-fat diet–fed male Apoe –/– mice. Conclusions: We demonstrated that the expression of ENPP2 in ECs promotes atherosclerosis and endothelial inflammation in a sex-independent manner. This might be due to the generation of LPA20:4, LPA16:0, and LPA18:1 from mildly oxidized lipoproteins on the endothelial surface.
To better understand the role of sphingolipids in the multifactorial process of inflammatory bowel disease (IBD), we elucidated the role of CerS4 in colitis and colitis-associated cancer (CAC). For ...this, we utilized the azoxymethane/dextran sodium sulphate (AOM/DSS)-induced colitis model in global CerS4 knockout (CerS4 KO), intestinal epithelial (CerS4 Vil/Cre), or T-cell restricted knockout (CerS4 LCK/Cre) mice. CerS4 KO mice were highly sensitive to the toxic effect of AOM/DSS, leading to a high mortality rate. CerS4 Vil/Cre mice had smaller tumors than WT mice. In contrast, CerS4 LCK/Cre mice frequently suffered from pancolitis and developed more colon tumors. In vitro, CerS4-depleted CD8+ T-cells isolated from the thymi of CerS4 LCK/Cre mice showed impaired proliferation and prolonged cytokine production after stimulation in comparison with T-cells from WT mice. Depletion of CerS4 in human Jurkat T-cells led to a constitutively activated T-cell receptor and NF-κB signaling pathway. In conclusion, the deficiency of CerS4 in T-cells led to an enduring active status of these cells and prevents the resolution of inflammation, leading to a higher tumor burden in the CAC mouse model. In contrast, CerS4 deficiency in epithelial cells resulted in smaller colon tumors and seemed to be beneficial. The higher tumor incidence in CerS4 LCK/Cre mice and the toxic effect of AOM/DSS in CerS4 KO mice exhibited the importance of CerS4 in other tissues and revealed the complexity of general targeting CerS4.
Despite the introduction of epidermal growth factor receptor (EGFR) tyrosine kinase inhibitors (TKIs) to treat advanced lung cancer harboring EGFR-activating mutations, the prognosis remains ...unfavorable because of intrinsic and/or acquired resistance. We generated a new state-of-the-art mouse strain harboring the human EGFRT790M/L858R oncogene and MET overexpression (EGFR/MET strain) that mimics the MET amplification occurring in one out of five patients with EGFR-mutated lung cancer that relapsed after treatment with osimertinib, a third-generation anti-EGFR TKI. We found that survival was reduced in EGFR/MET mice compared with mice harboring only EGFRT790M/L858R (EGFR strain). Moreover, EGFR/MET-driven lung tumors were resistant to osimertinib, recapitulating the phenotype observed in patients. Conversely, as also observed in patients, the crizotinib (anti-MET TKI) and osimertinib combination improved survival and reduced tumor burden in EGFR/MET mice, further validating the model’s value for preclinical studies. We also found that in EGFR/MET mice, MET overexpression negatively regulated EGFR activity through MIG6 induction, a compensatory mechanism that allows the coexistence of the two onco-genic events. Our data suggest that single EGFR or MET inhibition might not be a good therapeutic option for EGFR-mutated lung cancer with MET amplification, and that inhibition of both pathways should be the best clinical choice in these patients.
PDF
