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2. Stable expression of HIF-1[alpha] in tubular epithelial cells promotes interstitial fibrosis

Author

Kimura, Kuniko, Iwano, Masayuki, Higgins, Debra F., Yamaguchi, Yukinari, Nakatani, Kimihiko, Harada, Koji, Kubo, Atsushi, Akai, Yasuhiro, Rankin, Erinn B., Neilson, Eric G., Haase, Volker H., and Saito, Yoshihiko

Subjects
Epithelial cells -- Properties, Fibrosis -- Development and progression, Hypoxia -- Development and progression, Physiological research, Biological sciences
Abstract

Chronic hypoxia accelerates renal fibrosis. The chief mediator of the hypoxic response is hypoxia-inducible factor 1 (HIF-1) and its oxygen-sensitive component HIF-1[alpha]. HIF-1 regulates a wide variety of genes, some of which are closely associated with tissue fibrosis. To determine the specific role of HIF-1 in renal fibrosis, we generated a knockout mouse in which tubular epithelial expression of von Hippel-Lindau tumor suppressor (VHL), which acts as a ubiquitin ligase to promote proteolysis of HIF-1[alpha], was targeted. We investigated the effect of VHL deletion (i.e., stable expression of HIF-1[alpha]) histologically and used the anti-HIF-1[alpha] agent [3-(5'-hydroxymethyl-2'-furyl)-1-benzyl indazole] (YC-1) to test whether inhibition of HIF-1[alpha] could represent a novel approach to treating renal fibrosis. The area of renal fibrosis was significantly increased in a 5/6 renal ablation model of [VHL.sup.-/-] mice and in all VH[L.sup.-/-] mice at least 60 wk of age. Injection of YC-1 inhibited the progression of renal fibrosis in unilateral ureteral obstruction model mice. In conclusion, HIF-1[alpha] appears to be a critical contributor to the progression of renal fibrosis and could be a useful target for its treatment. hypoxia; HIF-1; VHL; fibrosis; fibroblast-specific protein 1

Published
2008

3. Hypoxia promotes fibrogenesis in vivo via HIF-1 stimulation of epithelial-to-mesenchymal transition

Author

Higgins, Debra F., Kimura, Kuniko, Bernhardt, Wanja M., Shrimanker, Nikita, Akai, Yasuhiro, Hohenstein, Bernd, Saito, Yoshihiko, Johnson, Randall S., Kretzler, Matthias, Cohen, Clemens D., Eckardt, Kai-Uwe, Iwano, Masayuki, and Haase, Volker H.

Subjects
Fibrosis -- Risk factors, Fibrosis -- Genetic aspects, Fibrosis -- Research, Hypoxia (Aquatic ecology) -- Health aspects, Hypoxia (Aquatic ecology) -- Research
Abstract

Hypoxia has been proposed as an important microenvironmental factor in the development of tissue fibrosis; however, the underlying mechanisms are not well defined. To examine the role of hypoxia-inducible factor-1 (HIF-1), a key mediator of cellular adaptation to hypoxia, in the development of fibrosis in mice, we inactivated Hif-1[alpha] in primary renal epithelial cells and in proximal tubules of kidneys subjected to unilateral ureteral obstruction (UUO) using Cre-loxP-mediated gene targeting. We found that Hif-1[alpha] enhanced epithelial-tomesenchymal transition (EMT) in vitro and induced epithelial cell migration through upregulation of lysyl oxidase genes. Genetic ablation of epithelial Hif-1[alpha] inhibited the development of tubulointerstitial fibrosis in UUO kidneys, which was associated with decreased interstitial collagen deposition, decreased inflammatory cell infiltration, and a reduction in the number of fibroblast-specific protein-1-expressing (FSP-1-expressing) interstitial cells. Furthermore, we demonstrate that increased renal HIF-1[alpha] expression is associated with tubulointerstitial injury in patients with chronic kidney disease. Thus, we provide clinical and genetic evidence that activation of HIF-1 signaling in renal epithelial cells is associated with the development of chronic renal disease and may promote fibrogenesis by increasing expression of extracellular matrix-modifying factors and lysyl oxidase genes and by facilitating EMT., Introduction Peritubular capillary loss and reduced blood flow limit oxygen supply to the renal interstitium, leading to chronic interstitial and tubular cell hypoxia, which can initiate and sustain interstitial scarring [...]

Published
2007

4. Hypoxic induction of Ctgf is directly mediated by Hif-1

Author

Higgins, Debra F., Biju, Mangatt P., Akai, Yasuhiro, Wutz, Anton, Johnson, Randall S., and Haase, Volker H.

Subjects
Transforming growth factors -- Research, Kidneys -- Research, Fibrosis -- Research, Biological sciences
Abstract

CTGF plays a significant role in the development of renal fibrosis by mediating the fibrotic effects of transforming growth factor (TGF)-[[beta].sub.1] and has been shown to be hypoxia inducible in human breast cancer cells. It has been suggested that hypoxia is an important underlying cause for the development of renal fibrosis through the modulation of profibrotic genes. One of the key mediators of the cell's response to lowered oxygen environments is hypoxia-inducible-factor-1 (HIF-1), a basic helix-loop-helix transcription factor, which enables cells to adapt to hypoxia by regulating the expression of genes involved in increasing oxygen availability (VEGF, erythropoietin) and enhancing glucose uptake and metabolism (Glut-1, PGK). In this paper, we have used primary tubular epithelial cell cultures from a tetracycline-inducible-Hif-1[alpha] knockout routine model to further elucidate the role of Hif-1 in the hypoxic-induction of Ctgf expression. We show that hypoxia response elements present upstream of Ctgf enable direct interaction of Hif-1 transcription factor with the Ctgf promoter, resulting in increased transcription of Ctyf mRNA. Cells deficient in Hif-1[alpha] were incapable of inducing Ctgf mRNA in response to hypoxia, suggesting an absolute requirement of Hif-1. Furthermore, the observed Hif-1-mediated hypoxic stimulation of Ctgf expression was found to occur independently of TGF-[[beta].sub.1] signaling. Our findings have important implications for a number of fibrotic disorders in which hypoxia, CTGF, and TGF-[[beta].sub.1] are involved, including renal, dermal, hepatic, and pulmonary fibrosis. renal fibrosis; transforming growth factor-[beta]; hypoxia; hypoxia response elements

Published
2004

7. BMP7-induced-Pten inhibits Akt and prevents renal fibrosis.

Author

Higgins, Debra F., Ewart, Leah M., Masterson, Enda, Tennant, Sadhbh, Grebnev, Gleb, Prunotto, Marco, Pomposiello, Sylvia, Conde-Knape, Karin, Martin, Finian M., and Godson, Catherine

Subjects
*BONE morphogenetic proteins, *CHRONIC kidney failure, *TREATMENT of chronic kidney failure, *URETERIC obstruction, *PHOSPHORYLATION, *PREVENTION, *THERAPEUTICS
Abstract

Bone morphogenetic protein-7 (BMP-7) counteracts pro-fibrotic effects of TGFβ 1 in cultured renal cells and protects from fibrosis in acute and chronic renal injury models. Using the unilateral ureteral obstruction (UUO) model of chronic renal fibrosis, we investigated the effect of exogenous-rhBMP-7 on pro-fibrotic signaling pathways mediated by TGFβ 1 and hypoxia. Mice undergoing UUO were treated with vehicle or rhBMP-7 (300 μg/kg i.p.) every other day for eight days and kidneys analysed for markers of fibrosis and SMAD, MAPK, and PI3K signaling. In the kidney, collecting duct and tubular epithelial cells respond to BMP-7 via activation of SMAD1/5/8. Phosphorylation of SMAD1/5/8 was reduced in UUO kidneys from vehicle-treated animals yet maintained in UUO kidneys from BMP-7-treated animals, confirming renal bioactivity of exogenous rhBMP-7. BMP-7 inhibited Collagen Iα1 and Collagen IIIα1 gene expression and Collagen I protein accumulation, while increasing expression of Collagen IVα1 in UUO kidneys. Activation of SMAD2, SMAD3, ERK, p38 and PI3K/Akt signaling occurred during fibrogenesis and BMP-7 significantly attenuated SMAD3 and Akt signaling in vivo. Analysis of renal collecting duct (mIMCD) and tubular epithelial (HK-2) cells stimulated with TGFβ 1 or hypoxia (1% oxygen) to activate Akt provided further evidence that BMP-7 specifically inhibited PI3K/Akt signaling. PTEN is a negative regulator of PI3K and BMP-7 increased PTEN expression in vivo and in vitro. These data demonstrate an important mechanism by which BMP-7 orchestrates renal protection through Akt inhibition and highlights Akt inhibitors as anti-fibrotic therapeutics. [ABSTRACT FROM AUTHOR]

Published
2017
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8. Wnt6 regulates epithelial cell differentiation and is dysregulated in renal fibrosis.

Author

Beaton, Hayley, Andrews, Darrell, Parsons, Martin, Murphy, Mary, Gaffney, Andrew, Kavanagh, David, McKay, Gareth J., Maxwell, Alexander P., Taylor, Cormac T., Cummins, Eoin P., Godson, Catherine, Higgins, Debra F., Murphy, Paula, and Crean, John

Subjects
RENAL fibrosis, EPITHELIAL cells
Abstract

Diabetic nephropathy is the most common microvascular complication of diabetes mellitus, manifesting as mesangial expansion, glomerular basement membrane thickening, glomerular sclerosis, and progressive tubulointerstitial fibrosis leading to end-stage renal disease. Here we describe the functional characterization of Wnt6, whose expression is progressively lost in diabetic nephropathy and animal models of acute tubular injury and renal fibrosis. We have shown prominent Wnt6 and frizzled 7 (FzD7) expression in the mesonephros of the developing mouse kidney, suggesting a role for Wnt6 in epithelialization. Importantly, TCF/Lef reporter activity is also prominent in the mesonephros. Analysis of Wnt family members in human renal biopsies identified differential expression of Wnt6, correlating with severity of the disease. In animal models of tubular injury and fibrosis, loss of Wnt6 was evident. Wnt6 signals through the canonical pathway in renal epithelial cells as evidenced by increased phosphorylation of GSK3β (Ser9), nuclear accumulation of β-catenin and increased TCF/Lef transcriptional activity. FzD7 was identified as a putative receptor of Wnt6. In vitro Wnt6 expression leads to de novo tubulogenesis in renal epithelial cells grown in three-dimensional culture. Importantly, Wnt6 rescued epithelial cell dedifferentiation in response to transforming growth factor-β (TGF-β); Wnt6 reversed TGF-β-mediated increases in vimentin and loss of epithelial phenotype. Wnt6 inhibited TGF-β-mediated p65-NF-κB nuclear translocation, highlighting cross talk between the two pathways. The critical role of NF-κB in the regulation of vimentin expression was confirmed in both p65−/− and IKKα/β−/− embryonic fibroblasts. We propose that Wnt6 is involved in epithelialization and loss of Wnt6 expression contributes to the pathogenesis of renal fibrosis. [ABSTRACT FROM AUTHOR]

Published
2016
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9. Hypoxia promotes production of neural crest cells in the embryonic head.

Author

Scully, Deirdre, Keane, Eleanor, Batt, Emily, Karunakaran, Priyadarssini, Higgins, Debra F., and Nobue Itasaki

Subjects
HYPOXEMIA, NEURAL crest, CHICKEN embryos, BLOOD circulation, EMBRYOLOGY
Abstract

Hypoxia is encountered in either pathological or physiological conditions, the latter of which is seen in amniote embryos prior to the commencement of a functional blood circulation. During the hypoxic stage, a large number of neural crest cells arise from the head neural tube by epithelial-to-mesenchymal transition (EMT). As EMTlike cancer dissemination can be promoted by hypoxia, we investigated whether hypoxia contributes to embryonic EMT. Using chick embryos, we show that the hypoxic cellular response, mediated by hypoxia-inducible factor (HIF)-1α, is required to produce a sufficient number of neural crest cells. Among the genes that are involved in neural crest cell development, some genes are more sensitive to hypoxia than others, demonstrating that the effect of hypoxia is gene specific. Once blood circulation becomes fully functional, the embryonic head no longer produces neural crest cells in vivo, despite the capability to do so in a hypoxia-mimicking condition in vitro, suggesting that the oxygen supply helps to stop emigration of neural crest cells in the head. These results highlight the importance of hypoxia in normal embryonic development. [ABSTRACT FROM AUTHOR]

Published
2016
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10. Lipoxin A4 attenuates adipose inflammation.

Author

Börgeson, Emma, McGillicuddy, Fiona C., Harford, Karen A., Corrigan, Niamh, Higgins, Debra F., Maderna, Paola, Roche, Helen M., and Godson, Catherine

Subjects
EICOSANOIDS, OBESITY, INSULIN resistance, AGING, TYPE 2 diabetes
Abstract

Aging and adiposity are associated with chronic low-grade inflammation, which underlies the development of obesity-associated complications, including type 2 diabetes mellitus (T2DM). The mechanisms underlying adipose inflammation may include macrophage infiltration and activation, which, in turn, affect insulin sensitivity of adipocytes. There is a growing appreciation that specific lipid mediators (including lipoxins, resolvins, and protectins) can promote the resolution of inflammation. Here, we investigated the effect of lipoxin A4 (LXA4), the predominant endogenously generated lipoxin, on adipose tissue inflammation. Using adipose tissue explants from perigonadal depots of aging female C57BL/6J mice (Animalia, Chordata, Mus musculus) as a model of age-associated adipose inflammation, we report that LXA4 (1 nM) attenuates adipose inflammation, decreasing ILr6 and increasing IL-10 expression (P<0.05). The altered cytokine milieu correlated with increased GLUT-4 and IRS-1 expression, suggesting improved insulin sensitivity. Further investigations revealed the ability of LXA4 to rescue macrophage-induced desensitization to insulin-stimulated signaling and glucose uptake in cultured adipocytes, using vehicle-stimulated cells as controls. This was associated with preservation of Akt activation and reduced secretion of proinflammatory cytokines, including TNF-α. We therefore propose that LXA4 may represent a potentially useful and novel therapeutic strategy to subvert adipose inflammation and insulin resistance, key components of T2DM. [ABSTRACT FROM AUTHOR]

Published
2012
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11. Lipoxin A4 and benzo-lipoxin A4 attenuate experimental renal fibrosis.

Author

Börgeson, Emma, Docherty, Neil G., Murphy, Madeline, Rodgers, Karen, Ryan, Aidan, O'Sullivan, Tim P., Guiry, Patrick J., Goldschmeding, Roel, Higgins, Debra F., and Godson, Catherine

Subjects
LIPOXINS, KIDNEYS, FIBROSIS, EICOSANOIDS, URETERIC obstruction
Abstract

Unresolved inflammation underlies the development of fibrosis and organ failure. Here, we investigate the potential of the proresolving eicosanoid lipoxinA4 (LXA4) and its synthetic analog benzo-LXA4 to prophylactically modulate fibrotic and inflammatory responses in a model of early renal fibrosis, unilateral ureteric obstruction (UUO). Male Wistar rats (Animalia, Chordata, Rattus norvegicus) were injected intravenously with vehicle (0.1% ethanol), LXA4 (45 µg/250-g rat), or benzo-LXA4 (15 µg/250-g rat) 15 min prior to surgery and sacrificed 3 d postligation. Renal gene and protein expression, collagen deposition, macrophage infiltration, and apoptosis were analyzed using manipulated kidneys from sham operations as control. Lipoxins (LXs) attenuated collagen deposition and renal apoptosis (P<0.05) and shifted the inflammatory milieu toward resolution, inhibiting TNF-α and IFN-γ expression, while stimulating proresolving IL-10. LXs attenuated UUO-induced activation of MAP kinases, Akt, and Smads (P<0.05) in injured kidneys. We explored whether the underlying mechanism reflected LX-induced modulation of fibroblast activation. Using cultured rat renal NRK-49F fibroblasts, we report that LXA4 (1 nM) inhibits TGF-β1 (10 ng/ml)-induced activation of Smad2 and MAP-kinases (P<0.05), and furthermore, LXA4 reduced TGF-β1-stimulated PAI-1 luciferase activation (P<0.05) relative to vehicle-stimulated cells. We propose that LXs may represent a potentially useful and novel therapeutic strategy for consideration in the context of renal fibrosis. [ABSTRACT FROM AUTHOR]

Published
2011
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13. Inactivation of the Arylhydrocarbon Receptor Nuclear Translocator (Arnt) Suppresses von Hippel-Lindau Disease-Associated Vascular Tumors in Mice.

Author

Rankin, Erinn B., Higgins, Debra F., Walisser, Jacqueline A., Johnson, Randall S., Bradfield, Christopher A., and Haase, Volker H.

Subjects
*TUMOR suppressor genes, *CELL receptors, *BIOMOLECULES, *MOLECULAR biology, *BIOCHEMISTRY
Abstract

Patients with germ line mutations in the VHL tumor suppressor gene are predisposed to the development of highly vascularized tumors within multiple tissues. Loss of pVHL results in constitutive activation of the transcription factors HIF-1 and HIF-2, whose relative contributions to the pathogenesis of the VHL phenotype have yet to be defined. In order to examine the role of HIF in yon Hippel-Lindau (VHL)-associated vascular tumorigenesis, we utilized Cre-ioxP-mediated recombination to inactivate hypoxia-inducible factor-1α (Hif-1α) and arylhydrocarbon receptor nuclear translocator (Arnt) genes in a VHL mouse model of cavernous liver hemangiomas and polycythemia. Deletion of Hif-1α did not affect the development of vascular tumors and polycythemia, nor did it suppress the increased expression of vascular endothelial growth factor (Vegf) and erythropoietin (Epo). In contrast, phosphoglycerokinase (Pgk) expression was substantially decreased, providing evidence for target gene-dependent functional redundancy between different Hif transcription factors. Inactivation of Arnt completely suppressed the development of hemangiomas, polycythemia, and Hif-induced gene expression. Here, we demonstrate genetically that the development of VHL-associated vascular tumors in the liver depends on functional ARNT. Furthermore, we provide evidence that individual HIF transcription factors may play distinct roles in the development of specific VHL disease manifestations. [ABSTRACT FROM AUTHOR]

Published
2005
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14. IHG-1 must be localised to mitochondria to decrease Smad7 expression and amplify TGF-β1-induced fibrotic responses.

Author

Corcoran, James B., McCarthy, Sarah, Griffin, Brenda, Gaffney, Andrew, Bhreathnach, Una, Börgeson, Emma, Hickey, Fionnuala B., Docherty, Neil G., Higgins, Debra F., Furlong, Fiona, Martin, Finian, Godson, Catherine, and Murphy, Madeline

Subjects
*GENE expression, *MITOCHONDRIAL proteins, *TRANSFORMING growth factors, *CYTOKINES, *GENETIC transcription, *EPITHELIAL cells, *CELLULAR signal transduction
Abstract

Abstract: TGF-β1 is a prototypic profibrotic cytokine and major driver of fibrosis in the kidney and other organs. Induced in high glucose-1 (IHG-1) is a mitochondrial protein which we have recently reported to be associated with renal disease. IHG-1 amplifies responses to TGF-β1 and regulates mitochondrial biogenesis by stabilising the transcriptional co-activator peroxisome proliferator-activated receptor gamma coactivator-1-alpha. Here we report that the mitochondrial localisation of IHG-1 is pivotal in the amplification of TGF-β1 signalling. We demonstrate that IHG-1 expression is associated with repression of the endogenous TGF-β1 inhibitor Smad7. Intriguingly, expression of a non-mitochondrial deletion mutant of IHG-1 (Δmts-IHG-1) repressed TGF-β1 fibrotic signalling in renal epithelial cells. In cells expressing Δmts-IHG-1 fibrotic responses including CCN2/connective tissue growth factor, fibronectin and jagged-1 expression were reduced following stimulation with TGF-β1. Δmts-IHG-1 modulation of TGF-β1 signalling was associated with increased Smad7 protein expression. Δmts-IHG-1 modulated TGF-β1 activity by increasing Smad7 protein expression as it failed to inhibit TGF-β1 transcriptional responses when endogenous Smad7 expression was knocked down. These data indicate that mitochondria modulate TGF-β1 signal transduction and that IHG-1 is a key player in this modulation. [Copyright &y& Elsevier]

Published
2013
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15. Epigenetic unsilencing reverses renal fibrosis.

Author

Higgins DF and Murphy M

Subjects
Animals, Dioxygenases, Bone Morphogenetic Protein 7 therapeutic use, DNA Methylation drug effects, DNA-Binding Proteins physiology, GTPase-Activating Proteins genetics, Gene Silencing, Nephrosclerosis etiology, Nephrosclerosis prevention & control, Proto-Oncogene Proteins physiology
Published
2014
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16. Lipoxins attenuate renal fibrosis by inducing let-7c and suppressing TGFβR1.

Author

Brennan EP, Nolan KA, Börgeson E, Gough OS, McEvoy CM, Docherty NG, Higgins DF, Murphy M, Sadlier DM, Ali-Shah ST, Guiry PJ, Savage DA, Maxwell AP, Martin F, and Godson C

Subjects
Cadherins drug effects, Cadherins metabolism, Cells, Cultured, Fibronectins drug effects, Fibronectins metabolism, Fibrosis, Humans, Kidney metabolism, Kidney Tubules, Proximal drug effects, Kidney Tubules, Proximal metabolism, Kidney Tubules, Proximal pathology, MicroRNAs drug effects, Receptor, Notch1 drug effects, Receptor, Notch1 metabolism, Signal Transduction, Thrombospondins drug effects, Thrombospondins metabolism, Transforming Growth Factor beta1 drug effects, Kidney drug effects, Kidney pathology, Lipoxins pharmacology, MicroRNAs metabolism, Transforming Growth Factor beta1 metabolism
Abstract

Lipoxins, which are endogenously produced lipid mediators, promote the resolution of inflammation, and may inhibit fibrosis, suggesting a possible role in modulating renal disease. Here, lipoxin A4 (LXA4) attenuated TGF-β1-induced expression of fibronectin, N-cadherin, thrombospondin, and the notch ligand jagged-1 in cultured human proximal tubular epithelial (HK-2) cells through a mechanism involving upregulation of the microRNA let-7c. Conversely, TGF-β1 suppressed expression of let-7c. In cells pretreated with LXA4, upregulation of let-7c persisted despite subsequent stimulation with TGF-β1. In the unilateral ureteral obstruction model of renal fibrosis, let-7c upregulation was induced by administering an LXA4 analog. Bioinformatic analysis suggested that targets of let-7c include several members of the TGF-β1 signaling pathway, including the TGF-β receptor type 1. Consistent with this, LXA4-induced upregulation of let-7c inhibited both the expression of TGF-β receptor type 1 and the response to TGF-β1. Overexpression of let-7c mimicked the antifibrotic effects of LXA4 in renal epithelia; conversely, anti-miR directed against let-7c attenuated the effects of LXA4. Finally, we observed that several let-7c target genes were upregulated in fibrotic human renal biopsies compared with controls. In conclusion, these results suggest that LXA4-mediated upregulation of let-7c suppresses TGF-β1-induced fibrosis and that expression of let-7c targets is dysregulated in human renal fibrosis.

Published
2013
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17. Lipoxin A4 attenuates adipose inflammation.

Author

Börgeson E, McGillicuddy FC, Harford KA, Corrigan N, Higgins DF, Maderna P, Roche HM, and Godson C

Subjects
Adipose Tissue metabolism, Animals, Female, Glucose Transporter Type 4 metabolism, Inflammation metabolism, Insulin Receptor Substrate Proteins metabolism, Insulin Resistance physiology, Interleukin-10 metabolism, Interleukin-6 metabolism, Mice, Mice, Inbred C57BL, Obesity drug therapy, Obesity metabolism, Tumor Necrosis Factor-alpha metabolism, Adipose Tissue drug effects, Adipose Tissue immunology, Inflammation drug therapy, Lipoxins therapeutic use
Abstract

Aging and adiposity are associated with chronic low-grade inflammation, which underlies the development of obesity-associated complications, including type 2 diabetes mellitus (T2DM). The mechanisms underlying adipose inflammation may include macrophage infiltration and activation, which, in turn, affect insulin sensitivity of adipocytes. There is a growing appreciation that specific lipid mediators (including lipoxins, resolvins, and protectins) can promote the resolution of inflammation. Here, we investigated the effect of lipoxin A4 (LXA4), the predominant endogenously generated lipoxin, on adipose tissue inflammation. Using adipose tissue explants from perigonadal depots of aging female C57BL/6J mice (Animalia, Chordata, Mus musculus) as a model of age-associated adipose inflammation, we report that LXA4 (1 nM) attenuates adipose inflammation, decreasing IL-6 and increasing IL-10 expression (P<0.05). The altered cytokine milieu correlated with increased GLUT-4 and IRS-1 expression, suggesting improved insulin sensitivity. Further investigations revealed the ability of LXA4 to rescue macrophage-induced desensitization to insulin-stimulated signaling and glucose uptake in cultured adipocytes, using vehicle-stimulated cells as controls. This was associated with preservation of Akt activation and reduced secretion of proinflammatory cytokines, including TNF-α. We therefore propose that LXA4 may represent a potentially useful and novel therapeutic strategy to subvert adipose inflammation and insulin resistance, key components of T2DM.

Published
2012
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18. Lipoxin A₄ and benzo-lipoxin A₄ attenuate experimental renal fibrosis.

Author

Börgeson E, Docherty NG, Murphy M, Rodgers K, Ryan A, O'Sullivan TP, Guiry PJ, Goldschmeding R, Higgins DF, and Godson C

Subjects
Animals, Apoptosis drug effects, Collagen genetics, Collagen metabolism, Disease Models, Animal, Fibrosis drug therapy, Fibrosis prevention & control, Gene Expression Regulation, Kidney drug effects, Kidney Diseases pathology, Kidney Diseases prevention & control, Ligation, Lipoxins chemistry, Male, Rats, Rats, Wistar, Transforming Growth Factor beta1 genetics, Transforming Growth Factor beta1 metabolism, Anti-Inflammatory Agents, Non-Steroidal therapeutic use, Kidney pathology, Kidney Diseases drug therapy, Lipoxins therapeutic use
Abstract

Unresolved inflammation underlies the development of fibrosis and organ failure. Here, we investigate the potential of the proresolving eicosanoid lipoxinA₄ (LXA₄) and its synthetic analog benzo-LXA₄ to prophylactically modulate fibrotic and inflammatory responses in a model of early renal fibrosis, unilateral ureteric obstruction (UUO). Male Wistar rats (Animalia, Chordata, Rattus norvegicus) were injected intravenously with vehicle (0.1% ethanol), LXA₄ (45 μg/250-g rat), or benzo-LXA₄ (15 μg/250-g rat) 15 min prior to surgery and sacrificed 3 d postligation. Renal gene and protein expression, collagen deposition, macrophage infiltration, and apoptosis were analyzed using manipulated kidneys from sham operations as control. Lipoxins (LXs) attenuated collagen deposition and renal apoptosis (P<0.05) and shifted the inflammatory milieu toward resolution, inhibiting TNF-α and IFN-γ expression, while stimulating proresolving IL-10. LXs attenuated UUO-induced activation of MAP kinases, Akt, and Smads (P<0.05) in injured kidneys. We explored whether the underlying mechanism reflected LX-induced modulation of fibroblast activation. Using cultured rat renal NRK-49F fibroblasts, we report that LXA₄ (1 nM) inhibits TGF-β1 (10 ng/ml)-induced activation of Smad2 and MAP-kinases (P<0.05), and furthermore, LXA₄ reduced TGF-β1-stimulated PAI-1 luciferase activation (P<0.05) relative to vehicle-stimulated cells. We propose that LXs may represent a potentially useful and novel therapeutic strategy for consideration in the context of renal fibrosis.

Published
2011
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