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2. PKM2 promotes neutrophil activation and cerebral thromboinflammation: therapeutic implications for ischemic stroke

Author

Dhanesha, Nirav, Patel, Rakesh B., Doddapattar, Prakash, Ghatge, Madankumar, Flora, Gagan D., Jain, Manish, Thedens, Daniel, Olalde, Heena, Kumskova, Mariia, Leira, Enrique C., and Chauhan, Anil K.

Abstract

There is a critical need for cerebro-protective interventions to improve the suboptimal outcomes of patients with ischemic stroke who have been treated with reperfusion strategies. We found that nuclear pyruvate kinase muscle 2 (PKM2), a modulator of systemic inflammation, was upregulated in neutrophils after the onset of ischemic stroke in both humans and mice. Therefore, we determined the role of PKM2 in stroke pathogenesis by using murine models with preexisting comorbidities. We generated novel myeloid cell–specific PKM2−/− mice on wild-type (PKM2fl/flLysMCre+) and hyperlipidemic background (PKM2fl/flLysMCre+Apoe−/−). Controls were littermate PKM2fl/flLysMCre– or PKM2fl/flLysMCre–Apoe−/− mice. Genetic deletion of PKM2 in myeloid cells limited inflammatory response in peripheral neutrophils and reduced neutrophil extracellular traps after cerebral ischemia and reperfusion, suggesting that PKM2 promotes neutrophil hyperactivation in the setting of stroke. In the filament and autologous clot and recombinant tissue plasminogen activator stroke models, irrespective of sex, deletion of PKM2 in myeloid cells in either wild-type or hyperlipidemic mice reduced infarcts and enhanced long-term sensorimotor recovery. Laser speckle imaging revealed improved regional cerebral blood flow in myeloid cell–specific PKM2-deficient mice that was concomitant with reduced post-ischemic cerebral thrombo-inflammation (intracerebral fibrinogen, platelet [CD41+] deposition, neutrophil infiltration, and inflammatory cytokines). Mechanistically, PKM2 regulates post-ischemic inflammation in peripheral neutrophils by promoting STAT3 phosphorylation. To enhance the translational significance, we inhibited PKM2 nuclear translocation using a small molecule and found significantly reduced neutrophil hyperactivation and improved short-term and long-term functional outcomes after stroke. Collectively, these findings identify PKM2 as a novel therapeutic target to improve brain salvage and recovery after reperfusion.

Published
2022
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4. Cellular fibronectin promotes deep vein thrombosis in diet‐induced obese mice

Author

Dhanesha, Nirav, Jain, Manish, Doddapattar, Prakash, Undas, Anetta, and Chauhan, Anil K

Abstract

Overweight and obesity are significant risk factors for deep vein thrombosis (DVT). Cellular fibronectin containing extra domain A (Fn‐EDA), an endogenous ligand for toll‐like‐receptor 4 (TLR4), contributes to thrombo‐inflammation. The role of Fn‐EDA in the modulation of DVT is not elucidated yet.

Published
2021
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6. Targeting myeloid-cell specific integrin α9β1 inhibits arterial thrombosis in mice

Author

Dhanesha, Nirav, Nayak, Manasa K., Doddapattar, Prakash, Jain, Manish, Flora, Gagan D., Kon, Shigeyuki, and Chauhan, Anil K.

Abstract

Evidence suggests that neutrophils contribute to thrombosis via several mechanisms, including neutrophil extracellular traps (NETs) formation. Integrin α9β1 is highly expressed on neutrophils when compared with monocytes. It undergoes affinity upregulation on neutrophil activation, and stabilizes adhesion to the activated endothelium. The role of integrin α9 in arterial thrombosis remains unexplored. We generated novel myeloid cell-specific integrin α9−/−mice (α9fl/flLysMCre+) to study the role of integrin α9 in arterial thrombosis. α9fl/fllittermates were used as controls. We report that α9fl/flLysMCre+mice were less susceptible to arterial thrombosis in ferric chloride (FeCl3) and laser injury-induced thrombosis models with unaltered hemostasis. Neutrophil elastase-positive cells were significantly reduced in α9fl/flLysMCre+mice concomitant with reduction in neutrophil count, myeloperoxidase levels, and red blood cells in the FeCl3injury-induced carotid thrombus. The percentage of cells releasing NETs was significantly reduced in α9fl/flLysMCre+mouse neutrophils stimulated with thrombin-activated platelets. Furthermore, we found a significant decrease in neutrophil-mediated platelet aggregation and cathepsin-G secretion in α9fl/flLysMCre+mice. Transfusion of α9fl/flneutrophils in α9fl/flLysMCre+mice restored thrombosis similar to α9fl/flmice. Treatment of wild-type mice with anti-integrin α9 antibody inhibited arterial thrombosis. This study identifies the potential role of integrin α9 in modulating arterial thrombosis.

Published
2020
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8. Dichloroacetate, an inhibitor of pyruvate dehydrogenase kinases, inhibits platelet aggregation and arterial thrombosis

Author

Nayak, Manasa K., Dhanesha, Nirav, Doddapattar, Prakash, Rodriguez, Omar, Sonkar, Vijay K., Dayal, Sanjana, and Chauhan, Anil K.

Abstract

Resting platelets rely on oxidative phosphorylation (OXPHOS) and aerobic glycolysis (conversion of glucose to lactate in the presence of oxygen) to generate adenosine triphosphate, whereas activated platelets exhibit a high level of aerobic glycolysis, suggesting the existence of metabolic flexibility in platelets. Mitochondrial pyruvate dehydrogenase kinases (PDK 1-4) play a pivotal role in metabolic flexibility by inhibiting pyruvate dehydrogenase complex. We determined whether metabolic reprogramming, diverting metabolism from aerobic glycolysis back to OXPHOS, would inhibit platelet function. PDKs activity in human and mouse platelets was inhibited with dichloroacetic acid (DCA), a potent inhibitor of all 4 forms of PDK. Human and mouse platelets pretreated with DCA exhibited decreased platelet aggregation to suboptimal doses of collagen, convulxin, thrombin, and adenosine diphosphate concomitant with decreased glucose uptake. Bioenergetics profile revealed that platelets pretreated with DCA exhibited decreased aerobic glycolysis in response to convulxin only. Furthermore, DCA inhibited ATP secretion, thromboxane A2 generation, and tyrosine phosphorylation of Syk and PLC?2 in response to collagen or convulxin in human and mouse platelets (P < .05 vs vehicle treated). In the flow chamber assay, human and mouse blood pretreated with DCA formed smaller thrombi when perfused over collagen for 10 minutes at an arterial shear rate of 1500 s-1 (P < .05 vs control). Wild-type mice pretreated with DCA were less susceptible to thrombosis in the FeCl3-induced carotid and laser injury–induced mesenteric artery thrombosis models (P < .05 vs vehicle control), without altering hemostasis. Targeting metabolic plasticity with DCA may be explored as a novel strategy to inhibit platelet function.

Published
2018
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12. C16 ceramide is crucial for triacylglycerol-induced apoptosis in macrophages

Author

Aflaki, E, Doddapattar, P, Radović, B, Povoden, S, Kolb, D, Vujić, N, Wegscheider, M, Koefeler, H, Hornemann, T, Graier, W F, Malli, R, Madeo, F, Kratky, D, Aflaki, E, Doddapattar, P, Radović, B, Povoden, S, Kolb, D, Vujić, N, Wegscheider, M, Koefeler, H, Hornemann, T, Graier, W F, Malli, R, Madeo, F, and Kratky, D

Abstract

Triacylglycerol (TG) accumulation caused by adipose triglyceride lipase (ATGL) deficiency or very low-density lipoprotein (VLDL) loading of wild-type (Wt) macrophages results in mitochondrial-mediated apoptosis. This phenotype is correlated to depletion of Ca(2+) from the endoplasmic reticulum (ER), an event known to induce the unfolded protein response (UPR). Here, we show that ER stress in TG-rich macrophages activates the UPR, resulting in increased abundance of the chaperone GRP78/BiP, the induction of pancreatic ER kinase-like ER kinase, phosphorylation and activation of eukaryotic translation initiation factor 2A, the translocation of activating transcription factor (ATF)4 and ATF6 to the nucleus and the induction of the cell death executor CCAAT/enhancer-binding protein homologous protein. C16:0 ceramide concentrations were increased in Atgl-/- and VLDL-loaded Wt macrophages. Overexpression of ceramide synthases was sufficient to induce mitochondrial apoptosis in Wt macrophages. In accordance, inhibition of ceramide synthases in Atgl-/- macrophages by fumonisin B1 (FB1) resulted in specific inhibition of C16:0 ceramide, whereas intracellular TG concentrations remained high. Although the UPR was still activated in Atgl-/- macrophages, FB1 treatment rescued Atgl-/- macrophages from mitochondrial dysfunction and programmed cell death. We conclude that C16:0 ceramide elicits apoptosis in Atgl-/- macrophages by activation of the mitochondrial apoptosis pathway.

Published
2012

17. Deletion of Methionine Sulfoxide Reductase A Does Not Affect Atherothrombosis but Promotes Neointimal Hyperplasia and Extracellular Signal-Regulated Kinase 1/2 Signaling

Author

Klutho, Paula J., Pennington, Steven M., Scott, Jason A., Wilson, Katina M., Gu, Sean X., Doddapattar, Prakash, Xie, Litao, Venema, Ashlee N., Zhu, Linda J., Chauhan, Anil K., Lentz, Steven R., and Grumbach, Isabella M.

Abstract

Supplemental Digital Content is available in the text.

Published
2015
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19. Abstract 13626: The Glycolytic Enzyme Pyruvate Kinase M2 Regulates Deep Vein Thrombosis

Author

Nayak, Manasa K, Flora, Gagan, Doddapattar, Prakash, and Chauhan, Anil K

Abstract

Introduction:Current treatment regimen for deep vein thrombosis (DVT) includes anticoagulants or surgical intervention. While effective, anticoagulants exhibit a bleeding risk that limits their use. Activated platelets release pro-thrombotic chemokines such as platelet factor 4 (PF4) from their α-granules and are known to potentiate DVT via promoting neutrophil extracellular traps (NETs). Recently, we have shown that dimeric pyruvate kinase M2 (PKM2) regulates platelet function and arterial thrombosis without affecting hemostasis. However, the role of platelet-specific PKM2 in modulating NETosis and DVT remains unexplored.Methods:Susceptibility to DVT was evaluated in the flow-restricted inferior vena cava (IVC) stenosis model in PKM2fl/flPF4Cre+/-mice. The littermate PKM2fl/flPF4Cre-/-(abbreviated as PKM2fl/fl) was used as control. Next, we evaluated whether wild-type mice infused with a specific inhibitor of dimeric-PKM2, ML265, reduced DVT susceptibility in the IVC stenosis model.Results:The platelet-specific PKM2-/-mice were less susceptible to DVT in the IVC stenosis model. The PF4 secretion from α-granules was significantly inhibited in agonist-stimulated platelets from PKM2fl/flPF4Cre+ mice compared to the platelets from PKM2fl/flmice. SNAP-23 phosphorylation regulates SNARE protein complex-mediated mediated secretion from α granules. Therefore, we determined the mechanistic role of PKM2 in modulating SNAP-23-mediated PF4 secretion in platelets. In agonist-stimulated PKM2-/- platelets, SNAP23 phosphorylation and PF4 secretion were reduced compared to agonist-stimulated WT platelets. In addition, neutrophils treated with stimulated platelet releasates from PKM2fl/flPF4Cre+ mice exhibited significantly reduced NET formation in contrast to PKM2fl/flmice. Finally, we demonstrate that ML265-treated mice showed reduced susceptibility to DVT in the IVC stenosis model.Conclusions:Our results suggest an essential role of PKM2 in regulating SNAP-23 mediated α-granule release, NETosis, and subsequent development of DVT.

Published
2022
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20. Abstract 224: Myeloid Cell PKM2 Deletion Enhances Efferocytosis And Reduces Atherosclerosis

Author

Doddapattar, Prakash, Dev, Rishabh, Ghatge, Madankumar, Patel, Rakeshkumar, Jain, Manish, Dhanesha, Nirav, Lentz, Steven R, and Chauhan, Anil K

Abstract

Rationale:The glycolytic enzyme pyruvate kinase muscle 2 (PKM2) is upregulated in monocytes/macrophages of patients with atherosclerotic coronary artery disease. However, the role of cell type-specific PKM2 in the setting of atherosclerosis remains to be defined.Objective:We determined whether myeloid cell-specific PKM2 regulates efferocytosis and atherosclerosis.Methods and Results:We generated novel myeloid cell-specific PKM2-/-mice on Ldlr-deficient background (PKM2mye-KOLdlr-/-). Controls were littermate PKM2WTLdlr-/-mice. To rule out sex-based differences, male and female mice were placed on a high-fat "Western" diet for 14 weeks, starting at eight weeks. PKM2 was upregulated in macrophages of Ldlr-/-mice fed the Western diet compared with a control chow diet. Myeloid cell-specific deletion of PKM2 led to a significant reduction in lesions in the whole aorta and aortic sinus despite high cholesterol and triglyceride levels. Furthermore, we found decreased macrophage content in the lesions of myeloid cell-specific PKM2-/-mice associated with decreased MCP-1 levels in plasma, reduced transmigration of macrophages in response to MCP-1, and impaired glycolytic rate. Macrophages isolated from myeloid-specific PKM2-/-mice fed the Western diet exhibited reduced expression of pro-inflammatory genes, including MCP-1, IL-1β, and IL-12. Myeloid cell-specific PKM2-/-mice exhibited reduced apoptosis concomitant with enhanced macrophage efferocytosis and upregulation of LRP1 in macrophages in vitroand atherosclerotic lesions in vivo. Silencing LRP1 in PKM2-deficient macrophages restored inflammatory gene expression and reduced efferocytosis. As a therapeutic intervention, inhibiting PKM2 nuclear translocation using a small molecule reduced glycolytic rate, enhanced efferocytosis, and reduced atherosclerosis in Ldlr-/-mice.Conclusion:Genetic deletion or limiting PKM2 nuclear translocation in myeloid cells reduces atherosclerosis by suppressing inflammation and enhancing efferocytosis.

Published
2022
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21. Cellular Fibronectin Promotes Deep Vein Thrombosis in Obese Mice

Author

Dhanesha, Nirav, Jain, Manish, Doddapattar, Prakash, Undas, Anetta, and Chauhan, Anil K

Abstract

Objective:Obesity is a significant risk factor for deep vein thrombosis (DVT). The mechanisms of increased DVT in preexisting comorbid condition of obesity remain poorly understood. Cellular fibronectin containing extra domain A (Fn-EDA), an endogenous ligand for toll-like-receptor 4 (TLR4), is known to contribute to thrombo-inflammation in the experimental models. However, the role of Fn-EDA in modulation of venous thrombosis in context of obesity is not elucidated yet.

Published
2020
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22. PKM2 promotes neutrophil activation and cerebral thrombo-inflammation: Therapeutic implications for ischemic stroke

Author

Dhanesha, Nirav, Patel, Rakesh B., Doddapattar, Prakash, Ghatge, Madankumar, Flora, Gagan D., Jain, Manish, Thedens, Daniel, Olalde, Heena, Kumskova, Mariia, Leira, Enrique C., and Chauhan, Anil K.

Abstract

There is a critical need for cerebroprotective interventions to improve the suboptimal outcomes of patients with ischemic stroke treated with reperfusion strategies. We found that nuclear pyruvate kinase muscle 2 (PKM2), a modulator of systemic inflammation, was upregulated in neutrophils after the onset of ischemic stroke both in humans and in mice. Therefore, we determined the role of PKM2 in stroke pathogenesis utilizing murine models with preexisting comorbidities. We generated novel myeloid cell-specific PKM2-/-mice on wild-type (PKM2fl/flLysMCre+) and hyperlipidemic background (PKM2fl/flLysMCre+Apoe-/-). Controls were littermate PKM2fl/flLysMCre-or PKM2fl/flLysMCre-Apoe-/-mice. Genetic deletion of PKM2 in myeloid cells limited inflammatory response in peripheral neutrophils and reduced neutrophil extracellular traps following cerebral ischemia/reperfusion, suggesting PKM2 promotes neutrophil hyperactivation in the setting of stroke. In the filament and autologous clot/rtPA stroke models, irrespective of sex, deletion of PKM2 in myeloid cells either in wild-type or hyperlipidemic mice reduced infarcts and enhanced long-term sensorimotor recovery. Laser speckle imaging revealed improved regional cerebral blood flow in myeloid cell-specific PKM2-deficient mice that was concomitant with reduced post-ischemic cerebral thrombo-inflammation (intracerebral fibrin(ogen), platelet (CD41-positive) deposition, neutrophil infiltration, and inflammatory cytokines). Mechanistically, PKM2 regulates post-ischemic inflammation in peripheral neutrophils by promoting STAT3 phosphorylation. To enhance the translational significance, we inhibited PKM2 nuclear translocation using a small molecule and found significantly reduced neutrophil hyperactivation and improved short-term and long-term functional outcomes following stroke. Collectively, these findings identify PKM2 as a novel therapeutic target to improve brain salvage and recovery following reperfusion.

Published
2021
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24. Targeting Myeloid-Cell Specific Integrin α9β1 Inhibits Arterial Thrombosis in Mice

Author

Dhanesha, Nirav, Nayak, Manasa K, Doddapattar, Prakash, and Chauhan, Anil K

Abstract

Background:Coordinated interactions between neutrophils, platelets and endothelial cells contribute towards the development of arterial thrombosis. Neutrophils along with platelets are the first immune cells that are recruited at the site of endothelial activation/injury or infection. Recent studies have suggested that neutrophils modulate thrombosis via several mechanisms, including NETosis (formation of neutrophil extracellular traps). The integrin α9 is highly expressed on neutrophils while platelets do not express it. The integrin α9 up-regulated upon neutrophil activation and is implicated in stable adhesion and transmigration. The mechanisms underlying the role of integrin α9 towards the progression of arterial thrombosis has not been explored yet.

Published
2019
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25. Targeting Neutrophil α9 Improves Functional Outcomes After Stroke in Mice With Obesity-Induced Hyperglycemia.

Author

Patel RB, Dhanesha N, Sutariya B, Ghatge M, Doddapattar P, Barbhuyan T, Kumskova M, Leira EC, and Chauhan AK

Subjects
Male, Female, Mice, Animals, Neutrophils pathology, Fibronectins, Mice, Obese, Mice, Knockout, Inflammation pathology, NF-kappa B, Infarction, Obesity complications, Obesity metabolism, Mice, Inbred C57BL, Stroke pathology, Thrombosis pathology
Abstract

Background: Obesity-induced hyperglycemia is a significant risk factor for stroke. Integrin α9β1 is expressed on neutrophils and stabilizes adhesion to the endothelium via ligands, including Fn-EDA (fibronectin containing extra domain A) and tenascin C. Although myeloid deletion of α9 reduces susceptibility to ischemic stroke, it is unclear whether this is mediated by neutrophil-derived α9. We determined the role of neutrophil-specific α9 in stroke outcomes in a mice model with obesity-induced hyperglycemia., Methods: α9 Neu-KO (α9 fl/fl MRP8Cre + ) and littermate control α9 WT (α9 fl/fl MRP8Cre - ) mice were fed on a 60% high-fat diet for 20 weeks to induce obesity-induced hyperglycemia. Functional outcomes were evaluated up to 28 days after stroke onset in mice of both sexes using a transient (30 minutes) middle cerebral artery ischemia. Infarct volume (magnetic resonance imaging) and postreperfusion thrombo-inflammation (thrombi, fibrin, neutrophil, phospho-nuclear factor kappa B [p-NFκB], TNF [tumor necrosis factor]-α, and IL [interleukin]-1β levels, markers of neutrophil extracellular traps) were measured post 6 or 48 hours of reperfusion. In addition, functional outcomes (modified Neurological Severity Score, rota-rod, corner, and wire-hanging test) were measured for up to 4 weeks., Results: Stroke upregulated neutrophil α9 expression more in obese mice ( P <0.05 versus lean mice). Irrespective of sex, deletion of neutrophil α9 improved functional outcomes up to 4 weeks, concomitant with reduced infarct, improved cerebral blood flow, decreased postreperfusion thrombo-inflammation, and neutrophil extracellular traps formation (NETosis) ( P <0.05 versus α9 WT obese mice). Obese α9 Neu-KO mice were less susceptible to thrombosis in FeCl 3 injury-induced carotid thrombosis model. Mechanistically, we found that α9/cellular fibronectin axis contributes to NETosis via ERK (extracellular signal-regulated kinase) and PAD4 (peptidyl arginine deiminase 4), and neutrophil α9 worsens stroke outcomes via cellular fibronectin-EDA but not tenascin C. Obese wild-type mice infused with anti-integrin α9 exhibited improved functional outcomes up to 4 weeks ( P <0.05 versus vehicle)., Conclusions: Genetic ablation of neutrophil-specific α9 or pharmacological inhibition improves long-term functional outcomes after stroke in mice with obesity-induced hyperglycemia, most likely by limiting thrombo-inflammation., Competing Interests: Disclosures None.

Published
2023
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26. Myeloid Cell PKM2 Deletion Enhances Efferocytosis and Reduces Atherosclerosis.

Author

Doddapattar P, Dev R, Ghatge M, Patel RB, Jain M, Dhanesha N, Lentz SR, and Chauhan AK

Subjects
Animals, Aorta metabolism, Female, Macrophages metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Myeloid Cells metabolism, Phagocytosis, Atherosclerosis genetics, Atherosclerosis metabolism, Atherosclerosis prevention & control, Pyruvate Kinase metabolism, Receptors, LDL metabolism
Abstract

Background: The glycolytic enzyme PKM2 (pyruvate kinase muscle 2) is upregulated in monocytes/macrophages of patients with atherosclerotic coronary artery disease. However, the role of cell type-specific PKM2 in the setting of atherosclerosis remains to be defined. We determined whether myeloid cell-specific PKM2 regulates efferocytosis and atherosclerosis., Methods: We generated myeloid cell-specific PKM2 -/- mice on Ldlr (low-density lipoprotein receptor)-deficient background (PKM2 mye-KO Ldlr -/- ). Controls were littermate PKM2 WT Ldlr -/- mice. Susceptibility to atherosclerosis was evaluated in whole aortae and cross sections of the aortic sinus in male and female mice fed a high-fat Western diet for 14 weeks, starting at 8 weeks., Results: PKM2 was upregulated in macrophages of Ldlr -/- mice fed a high-fat Western diet compared with chow diet. Myeloid cell-specific deletion of PKM2 led to a significant reduction in lesions in the whole aorta and aortic sinus despite high cholesterol and triglyceride levels. Furthermore, we found decreased macrophage content in the lesions of myeloid cell-specific PKM2 -/- mice associated with decreased MCP-1 (monocyte chemoattractant protein 1) levels in plasma, reduced transmigration of macrophages in response to MCP-1, and impaired glycolytic rate. Macrophages isolated from myeloid-specific PKM2 -/- mice fed the Western diet exhibited reduced expression of proinflammatory genes, including MCP-1, IL (interleukin)-1β, and IL-12. Myeloid cell-specific PKM2 -/- mice exhibited reduced apoptosis concomitant with enhanced macrophage efferocytosis and upregulation of LRP (LDLR-related protein)-1 in macrophages in vitro and atherosclerotic lesions in vivo. Silencing LRP-1 in PKM2-deficient macrophages restored inflammatory gene expression and reduced efferocytosis. As a therapeutic intervention, inhibiting PKM2 nuclear translocation using a small molecule reduced glycolytic rate, enhanced efferocytosis, and reduced atherosclerosis in Ldlr -/- mice., Conclusions: Genetic deletion of PKM2 in myeloid cells or limiting its nuclear translocation reduces atherosclerosis by suppressing inflammation and enhancing efferocytosis.

Published
2022
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27. Integrin α9 regulates smooth muscle cell phenotype switching and vascular remodeling.

Author

Jain M, Dev R, Doddapattar P, Kon S, Dhanesha N, and Chauhan AK

Subjects
Animals, Female, Male, Mice, Mice, Transgenic, Phenotype, Integrin alpha Chains metabolism, Myocytes, Smooth Muscle cytology, Myocytes, Smooth Muscle metabolism, Myocytes, Smooth Muscle physiology, Vascular Remodeling physiology
Abstract

Excessive proliferation of vascular smooth muscle cells (SMCs) remains a significant cause of in-stent restenosis. Integrins, which are heterodimeric transmembrane receptors, play a crucial role in SMC biology by binding to the extracellular matrix protein with the actin cytoskeleton within the SMC. Integrin α9 plays an important role in cell motility and autoimmune diseases; however, its role in SMC biology and remodeling remains unclear. Herein, we demonstrate that stimulated human coronary SMCs upregulate α9 expression. Targeting α9 in stimulated human coronary SMCs, using anti-integrin α9 antibody, suppresses synthetic phenotype and inhibits SMC proliferation and migration. To provide definitive evidence, we generated an SMC-specific α9-deficient mouse strain. Genetic ablation of α9 in SMCs suppressed synthetic phenotype and reduced proliferation and migration in vitro. Mechanistically, suppressed synthetic phenotype and reduced proliferation were associated with decreased focal adhesion kinase/steroid receptor coactivator signaling and downstream targets, including phosphorylated ERK, p38 MAPK, glycogen synthase kinase 3β, and nuclear β-catenin, with reduced transcriptional activation of β-catenin target genes. Following vascular injury, SMC-specific α9-deficient mice or wild-type mice treated with murine anti-integrin α9 antibody exhibited reduced injury-induced neointimal hyperplasia at day 28 by limiting SMC migration and proliferation. Our findings suggest that integrin α9 regulates SMC biology, suggesting its potential therapeutic application in vascular remodeling.

Published
2021
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28. Targeting Myeloid-Specific Integrin α9β1 Improves Short- and Long-Term Stroke Outcomes in Murine Models With Preexisting Comorbidities by Limiting Thrombosis and Inflammation.

Author

Dhanesha N, Jain M, Tripathi AK, Doddapattar P, Chorawala M, Bathla G, Nayak MK, Ghatge M, Lentz SR, Kon S, and Chauhan AK

Subjects
Aging pathology, Animals, Extracellular Traps metabolism, Fibrin metabolism, Fibronectins metabolism, Gene Deletion, Hyperlipidemias complications, Infarction, Middle Cerebral Artery complications, Infarction, Middle Cerebral Artery pathology, Inflammation, Integrins genetics, Interleukin-1beta metabolism, Mice, NF-kappa B metabolism, Neutrophils metabolism, Thrombosis complications, Thrombosis pathology, Tumor Necrosis Factor-alpha metabolism, Infarction, Middle Cerebral Artery metabolism, Integrins metabolism, Myeloid Cells metabolism, Thrombosis metabolism
Abstract

Rationale: Currently, there is no effective intervention available that can reduce brain damage following reperfusion. Clinical studies suggest a positive correlation between the increased influx of neutrophils and severity of brain injury following reperfusion. Integrin α9β1 is highly expressed on activated neutrophils and contributes to stable adhesion, but its role in stroke outcome has not been demonstrated to date., Objective: We sought to determine the mechanistic role of myeloid-specific α9β1 in the progression of ischemic stroke in murine models with preexisting comorbidities., Methods and Results: We generated novel myeloid-specific α9-deficient ( α9 -/- ) wild type ( α9 fl/fl LysMCre +/- ), hyperlipidemic ( α9 fl/fl LysMCre +/- Apoe -/- ), and aged (bone marrow chimeric) mice to evaluate stroke outcome. Susceptibility to ischemia/reperfusion injury was evaluated at 1, 7, and 28 days following reperfusion in 2 models of experimental stroke: filament and embolic. We found that peripheral neutrophils displayed elevated α9 expression following stroke. Irrespective of sex, genetic deletion of α9 in myeloid cells improved short- and long-term stroke outcomes in the wild type, hyperlipidemic, and aged mice. Improved stroke outcome and enhanced survival in myeloid-specific α9 -/- mice was because of marked decrease in cerebral thromboinflammatory response as evidenced by reduced fibrin, platelet thrombi, neutrophil, NETosis, and decreased phospho-NF-κB (nuclear factor-κB), TNF (tumor necrosis factor)-α, and IL (interleukin)-1β levels. α9 -/- mice were less susceptible to FeCl 3 injury-induced carotid artery thrombosis that was concomitant with improved regional cerebral blood flow following stroke as revealed by laser speckle imaging. Mechanistically, fibronectin containing extra domain A, a ligand for integrin α9, partially contributed to α9-mediated stroke exacerbation. Infusion of a specific anti-integrin α9 inhibitor into hyperlipidemic mice following reperfusion significantly reduced infarct volume and improved short- and long-term functional outcomes up to 28 days., Conclusions: We provide genetic and pharmacological evidence for the first time that targeting myeloid-specific integrin α9β1 improves short- and long-term functional outcomes in stroke models with preexisting comorbidities by limiting cerebral thrombosis and inflammation.

Published
2020
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29. Smooth muscle cell-specific fibronectin-EDA mediates phenotypic switching and neointimal hyperplasia.

Author

Jain M, Dhanesha N, Doddapattar P, Chorawala MR, Nayak MK, Cornelissen A, Guo L, Finn AV, Lentz SR, and Chauhan AK

Subjects
Animals, Coronary Stenosis genetics, Coronary Stenosis pathology, Fibronectins genetics, Focal Adhesion Kinase 1 genetics, Focal Adhesion Kinase 1 metabolism, Humans, Hyperplasia, Mice, Mice, Knockout, ApoE, Myocytes, Smooth Muscle pathology, Neointima genetics, Neointima pathology, Proto-Oncogene Proteins c-akt genetics, Proto-Oncogene Proteins c-akt metabolism, TOR Serine-Threonine Kinases metabolism, Toll-Like Receptor 4 genetics, Toll-Like Receptor 4 metabolism, Coronary Stenosis metabolism, Fibronectins metabolism, Myocytes, Smooth Muscle metabolism, Neointima metabolism, Signal Transduction
Abstract

Fibronectin-splice variant containing extra domain A (Fn-EDA) is associated with smooth muscle cells (SMCs) following vascular injury. The role of SMC-derived Fn-EDA in SMC phenotypic switching or its implication in neointimal hyperplasia remains unclear. Herein, using human coronary artery sections with a bare metal stent, we demonstrate the expression of Fn-EDA in the vicinity of SMC-rich neointima and peri-strut areas. In mice, Fn-EDA colocalizes with SMCs in the neointima of injured carotid arteries and promotes neointima formation in the comorbid condition of hyperlipidemia by potentiating SMC proliferation and migration. No sex-based differences were observed. Mechanistic studies suggested that Fn-EDA mediates integrin- and TLR4-dependent proliferation and migration through activation of FAK/Src and Akt1/mTOR signaling, respectively. Specific deletion of Fn-EDA in SMCs, but not in endothelial cells, reduced intimal hyperplasia and suppressed the SMC synthetic phenotype concomitant with decreased Akt1/mTOR signaling. Targeting Fn-EDA in human aortic SMCs suppressed the synthetic phenotype and downregulated Akt1/mTOR signaling. These results reveal that SMC-derived Fn-EDA potentiates phenotypic switching in human and mouse aortic SMCs and neointimal hyperplasia in the mouse. We suggest that targeting Fn-EDA could be explored as a potential therapeutic strategy to reduce neointimal hyperplasia.

Published
2020
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30. Nutrition and Nutraceuticals in Neuroinflammatory and Brain Metabolic Stress: Implications for Neurodegenerative Disorders.

Author

Pandareesh MD, Kandikattu HK, Razack S, Amruta N, Choudhari R, Vikram A, and Doddapattar P

Subjects
Animals, Brain metabolism, Encephalitis therapy, Humans, Brain physiopathology, Dietary Supplements, Encephalitis pathology, Nutrients metabolism, Stress, Physiological physiology
Abstract

Background and Objective: A steep rise in the incidences of neurodegenerative disorders could be the combined effect of several non-genetic factors such as increased life expectancy, environmental pollutants, lifestyle, and dietary habits, as population-level genetic change require multiple generations. Emerging evidence suggests that chronic over-nutrition induces brain metabolic stress and neuroinflammation, and are individually known to promote neurodegenerative disorders including Alzheimer's disease (AD), Parkinson's disease (PD) and Huntington's disease (HD). Although the association of metabolic disorders such as diabetes, hypertension, dyslipidemia, and atherosclerosis with the dietary habits is well known, neuronal implications of diet and nutritional factors is still in its infancy. Transcriptomics and proteomics-based studies support the view that nutraceuticals target multiple neuroprotective pathways in a slow but effective manner without causing severe adverse effects, and may represent the future of tackling neurodegenerative disorders., Conclusion: In this article we i) review the diet/dietary supplement connection with brain metabolic stress and neuroinflammation and ii) summarize current knowledge of the effects of nutraceuticals on neurodegenerative disorders., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)

Published
2018
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31. Protein methionine oxidation augments reperfusion injury in acute ischemic stroke.

Author

Gu SX, Blokhin IO, Wilson KM, Dhanesha N, Doddapattar P, Grumbach IM, Chauhan AK, and Lentz SR

Abstract

Reperfusion injury can exacerbate tissue damage in ischemic stroke, but little is known about the mechanisms linking ROS to stroke severity. Here, we tested the hypothesis that protein methionine oxidation potentiates NF-κB activation and contributes to cerebral ischemia/reperfusion injury. We found that overexpression of methionine sulfoxide reductase A (MsrA), an antioxidant enzyme that reverses protein methionine oxidation, attenuated ROS-augmented NF-κB activation in endothelial cells, in part, by protecting against the oxidation of methionine residues in the regulatory domain of calcium/calmodulin-dependent protein kinase II (CaMKII). In a murine model, MsrA deficiency resulted in increased NF-κB activation and neutrophil infiltration, larger infarct volumes, and more severe neurological impairment after transient cerebral ischemia/reperfusion injury. This phenotype was prevented by inhibition of NF-κB or CaMKII. MsrA-deficient mice also exhibited enhanced leukocyte rolling and upregulation of E-selectin, an endothelial NF-κB-dependent adhesion molecule known to contribute to neurovascular inflammation in ischemic stroke. Finally, bone marrow transplantation experiments demonstrated that the neuroprotective effect was mediated by MsrA expressed in nonhematopoietic cells. These findings suggest that protein methionine oxidation in nonmyeloid cells is a key mechanism of postischemic oxidative injury mediated by NF-κB activation, leading to neutrophil recruitment and neurovascular inflammation in acute ischemic stroke.

Published
2016
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32. Monoglyceride lipase deficiency modulates endocannabinoid signaling and improves plaque stability in ApoE-knockout mice.

Author

Vujic N, Schlager S, Eichmann TO, Madreiter-Sokolowski CT, Goeritzer M, Rainer S, Schauer S, Rosenberger A, Woelfler A, Doddapattar P, Zimmermann R, Hoefler G, Lass A, Graier WF, Radovic B, and Kratky D

Subjects
Animals, Aorta, Thoracic metabolism, Aorta, Thoracic pathology, Arachidonic Acids metabolism, Disease Models, Animal, Female, Glycerides metabolism, Immunohistochemistry, Lipolysis, Mice, Mice, Knockout, Neurotransmitter Agents, Plaque, Atherosclerotic pathology, Signal Transduction, Apolipoproteins E genetics, Endocannabinoids metabolism, Monoacylglycerol Lipases deficiency, Plaque, Atherosclerotic metabolism
Abstract

Background and Aims: Monoglyceride lipase (MGL) catalyzes the final step of lipolysis by degrading monoglyceride (MG) to glycerol and fatty acid. MGL also hydrolyzes and thereby deactivates 2-arachidonoyl glycerol (2-AG), the most abundant endocannabinoid in the mammalian system. 2-AG acts as full agonist on cannabinoid receptor type 1 (CB1R) and CB2R, which are mainly expressed in brain and immune cells, respectively. Thus, we speculated that in the absence of MGL, increased 2-AG concentrations mediate CB2R signaling in immune cells to modulate inflammatory responses, thereby affecting the development of atherosclerosis., Methods and Results: We generated apolipoprotein E (ApoE)/MGL double-knockout (DKO) mice and challenged them with Western-type diet for 9 weeks. Despite systemically increased 2-AG concentrations in DKO mice, CB2R-mediated signaling remains fully functional, arguing against CB2R desensitization. We found increased plaque formation in both en face aortae (1.3-fold, p = 0.028) and aortic valve sections (1.5-fold, p = 0.0010) in DKO mice. Interestingly, DKO mice also presented reduced lipid (12%, p = 0.031) and macrophage content (18%, p = 0.061), elevated intraplaque smooth muscle staining (1.4-fold, p = 0.016) and thicker fibrous caps (1.8-fold, p = 0.0032), together with a higher ratio of collagen to necrotic core area (2.5-fold, p = 0.0003) and expanded collagen content (1.6-fold, p = 0.0007), which suggest formation of less vulnerable atherosclerotic plaques. Treatment with a CB2R inverse agonist prevents these effects in DKO mice, demonstrating that the observed plaque phenotype in DKO mice originates from CB2R activation., Conclusion: Loss of MGL modulates endocannabinoid signaling in CB2R-expressing cells, which concomitantly affects the pathogenesis of atherosclerosis. We conclude that despite larger lesion size loss of MGL improves atherosclerotic plaque stability. Thus, pharmacological MGL inhibition may be a novel intervention to reduce plaque rupture., (Copyright © 2015 The Authors. Published by Elsevier Ireland Ltd.. All rights reserved.)

Published
2016
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33. Active autophagy but not lipophagy in macrophages with defective lipolysis.

Author

Goeritzer M, Vujic N, Schlager S, Chandak PG, Korbelius M, Gottschalk B, Leopold C, Obrowsky S, Rainer S, Doddapattar P, Aflaki E, Wegscheider M, Sachdev V, Graier WF, Kolb D, Radovic B, and Kratky D

Subjects
Animals, Autophagy drug effects, Cathepsin B biosynthesis, Cathepsin B genetics, Enzyme Inhibitors pharmacology, Gene Expression Regulation, Enzymologic drug effects, Gene Expression Regulation, Enzymologic physiology, Lipase genetics, Lipase metabolism, Lipolysis drug effects, Lysosomes enzymology, Lysosomes genetics, Macrolides pharmacology, Macrophages, Peritoneal cytology, Mice, Mice, Mutant Strains, Sterol Esterase genetics, Sterol Esterase metabolism, Triglycerides genetics, Autophagy physiology, Lipolysis physiology, Macrophages, Peritoneal metabolism, Triglycerides metabolism
Abstract

During autophagy, autophagosomes fuse with lysosomes to degrade damaged organelles and misfolded proteins. Breakdown products are released into the cytosol and contribute to energy and metabolic building block supply, especially during starvation. Lipophagy has been defined as the autophagy-mediated degradation of lipid droplets (LDs) by lysosomal acid lipase. Adipose triglyceride lipase (ATGL) is the major enzyme catalyzing the initial step of lipolysis by hydrolyzing triglycerides (TGs) in cytosolic LDs. Consequently, most organs and cells, including macrophages, lacking ATGL accumulate TGs, resulting in reduced intracellular free fatty acid concentrations. Macrophages deficient in hormone-sensitive lipase (H0) lack TG accumulation albeit reduced in vitro TG hydrolase activity. We hypothesized that autophagy is activated in lipase-deficient macrophages to counteract their energy deficit. We therefore generated mice lacking both ATGL and HSL (A0H0). Macrophages from A0H0 mice showed 73% reduced neutral TG hydrolase activity, resulting in TG-rich LD accumulation. Increased expression of cathepsin B, accumulation of LC3-II, reduced expression of p62 and increased DQ-BSA dequenching suggest intact autophagy and functional lysosomes in A0H0 macrophages. Markedly decreased acid TG hydrolase activity and lipid flux independent of bafilomycin A1 treatment, however, argue against effective lysosomal degradation of LDs in A0H0 macrophages. We conclude that autophagy of proteins and cell organelles but not of LDs is active as a compensatory mechanism to circumvent and balance the reduced availability of energy substrates in A0H0 macrophages., (Copyright © 2015. Published by Elsevier B.V.)

Published
2015
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34. Xanthohumol ameliorates atherosclerotic plaque formation, hypercholesterolemia, and hepatic steatosis in ApoE-deficient mice.

Author

Doddapattar P, Radović B, Patankar JV, Obrowsky S, Jandl K, Nusshold C, Kolb D, Vujić N, Doshi L, Chandak PG, Goeritzer M, Ahammer H, Hoefler G, Sattler W, and Kratky D

Subjects
AMP-Activated Protein Kinases metabolism, Acetyl-CoA Carboxylase antagonists & inhibitors, Acetyl-CoA Carboxylase metabolism, Animals, Apolipoproteins E blood, Apolipoproteins E deficiency, Carnitine O-Palmitoyltransferase genetics, Carnitine O-Palmitoyltransferase metabolism, Chemokine CCL2 blood, Cholesterol blood, Female, Lipid Metabolism drug effects, Lipogenesis drug effects, Liver drug effects, Liver metabolism, Mice, Phosphorylation, RNA, Messenger genetics, RNA, Messenger metabolism, Sterol Regulatory Element Binding Protein 1 genetics, Sterol Regulatory Element Binding Protein 1 metabolism, Sterol Regulatory Element Binding Protein 2 genetics, Sterol Regulatory Element Binding Protein 2 metabolism, Triglycerides blood, Fatty Liver drug therapy, Flavonoids pharmacology, Hypercholesterolemia drug therapy, Plaque, Atherosclerotic drug therapy, Propiophenones pharmacology
Abstract

Scope: Xanthohumol (XN), a prenylated antioxidative and anti-inflammatory chalcone from hops, exhibits positive effects on lipid and glucose metabolism. Based on its favorable biological properties, we investigated whether XN attenuates atherosclerosis in western-type diet-fed apolipoprotein-E-deficient (ApoE⁻/⁻) mice., Methods and Results: XN supplementation markedly reduced plasma cholesterol concentrations, decreased atherosclerotic lesion area, and attenuated plasma concentrations of the proinflammatory cytokine monocyte chemoattractant protein 1. Decreased hepatic triglyceride and cholesterol content, activation of AMP-activated protein kinase, phosphorylation and inactivation of acetyl-CoA carboxylase, and reduced expression levels of mature sterol regulatory element-binding protein (SREBP)-2 and SREBP-1c mRNA indicate reduced lipogenesis in the liver of XN-fed ApoE⁻/⁻ mice. Concomitant induction of hepatic mRNA expression of carnitine palmitoyltransferase-1a in ApoE⁻/⁻ mice-administered XN suggests increased fatty acid beta-oxidation. Fecal cholesterol concentrations were also markedly increased in XN-fed ApoE⁻/⁻ mice compared with mice fed western-type diet alone., Conclusion: The atheroprotective effects of XN might be attributed to combined beneficial effects on plasma cholesterol and monocyte chemoattractant protein 1 concentrations and hepatic lipid metabolism via activation of AMP-activated protein kinase., (© 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2013
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35. Intestinal GATA4 deficiency protects from diet-induced hepatic steatosis.

Author

Patankar JV, Obrowsky S, Doddapattar P, Hoefler G, Battle M, Levak-Frank S, and Kratky D

Subjects
AMP-Activated Protein Kinase Kinases, Animals, Choline Deficiency, Disease Models, Animal, Fatty Acids, Nonesterified metabolism, Fatty Liver metabolism, GATA4 Transcription Factor genetics, GATA4 Transcription Factor metabolism, Glucagon-Like Peptide 1 metabolism, Lipid Metabolism physiology, Liver Cirrhosis metabolism, Male, Methionine deficiency, Mice, Mice, Knockout, Protein Kinases metabolism, Sterol Regulatory Element Binding Protein 1 metabolism, Thiobarbituric Acid Reactive Substances metabolism, Triglycerides metabolism, Diet adverse effects, Fatty Liver chemically induced, Fatty Liver prevention & control, GATA4 Transcription Factor deficiency, Jejunum metabolism, Liver Cirrhosis chemically induced, Liver Cirrhosis prevention & control
Abstract

Background & Aims: GATA4, a zinc finger domain transcription factor, is critical for jejunal identity. Mice with an intestine-specific GATA4 deficiency (GATA4iKO) are resistant to diet-induced obesity and insulin resistance. Although they have decreased intestinal lipid absorption, hepatic de novo lipogenesis is inhibited. Here, we investigated dietary lipid-dependent and independent effects on the development of steatosis and fibrosis in GATA4iKO mice., Methods: GATA4iKO and control mice were fed a Western-type diet (WTD) or a methionine and choline-deficient diet (MCDD) for 20 and 3 weeks, respectively. Functional effects of GATA4iKO on diet-induced liver steatosis were investigated., Results: WTD-but not MCDD-fed GATA4iKO mice showed lower hepatic concentrations of triglycerides, free fatty acids, and thiobarbituric acid reactive species and had reduced expression of lipogenic as well as fibrotic genes compared with controls. Reduced nuclear sterol regulatory element-binding protein-1c protein levels were accompanied by lower lipogenic gene expression. Oil red O and Sirius Red staining of liver sections confirmed the observed reduction in hepatic lipid accumulation and fibrosis. Immunohistochemical staining revealed an increased number of jejunal glucagon-like peptide 1 (GLP-1) positive cells in GATA4iKO mice. Consequently, we found enhanced phosphorylation of hepatic AMP-activated protein kinase and acetyl-CoA carboxylase alpha., Conclusions: Our results provide strong indications for a protective effect of intestinal GATA4 deficiency on the development of hepatic steatosis and fibrosis via GLP-1, thereby blocking hepatic de novo lipogenesis., (Copyright © 2012 European Association for the Study of the Liver. All rights reserved.)

Published
2012
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36. Lack of acyl-CoA:diacylglycerol acyltransferase 1 reduces intestinal cholesterol absorption and attenuates atherosclerosis in apolipoprotein E knockout mice.

Author

Chandak PG, Obrowsky S, Radovic B, Doddapattar P, Aflaki E, Kratzer A, Doshi LS, Povoden S, Ahammer H, Hoefler G, Levak-Frank S, and Kratky D

Subjects
Acyl Coenzyme A blood, Animals, Aorta pathology, Apolipoproteins E genetics, Cell Movement genetics, Cells, Cultured, Crosses, Genetic, Diacylglycerol O-Acyltransferase genetics, Disease Models, Animal, Female, Humans, Immunohistochemistry, Intestinal Absorption genetics, Intestinal Mucosa metabolism, Lipid Metabolism genetics, Macrophages cytology, Macrophages metabolism, Mice, Mice, Knockout, Plaque, Atherosclerotic pathology, Aorta metabolism, Apolipoproteins E deficiency, Atherosclerosis blood, Atherosclerosis enzymology, Atherosclerosis genetics, Cholesterol blood, Diacylglycerol O-Acyltransferase deficiency, Plaque, Atherosclerotic blood, Triglycerides blood
Abstract

Triacylglycerols (TG) are the major storage molecules of metabolic energy and fatty acids in several tissues. The final step in TG biosynthesis is catalyzed by acyl-CoA:diacylglycerol acyltransferase (DGAT) enzymes. Lack of whole body DGAT1 is associated with reduced lipid-induced inflammation. Since one major component of atherosclerosis is chronic inflammation we hypothesized that DGAT1 deficiency might ameliorate atherosclerotic lesion development. We therefore crossbred Apolipoprotein E-deficient (ApoE(-/-)) mice with Dgat1(-/-) mice. ApoE(-/-) and ApoE(-/-)Dgat1(-/-) mice were fed Western-type diet (WTD) for 9weeks and thereafter examined for plaque formation. The mean atherosclerotic lesion area was substantially reduced in ApoE(-/-)Dgat1(-/-) compared with ApoE(-/-) mice in en face and aortic valve section analyses. The reduced lesion size was associated with decreased cholesterol uptake and absorption by the intestine, reduced plasma TG and cholesterol concentrations and increased cholesterol efflux from macrophages. The expression of adhesion molecules was reduced in aortas of ApoE(-/-)Dgat1(-/-) mice, which might be the reason for less migration capacities of monocytes and macrophages and the observed decreased amount of macrophages within the plaques. From our results we conclude that the lack of DGAT1 is atheroprotective, implicating an additional application of DGAT1 inhibitors with regard to maintaining cholesterol homeostasis and attenuating atherosclerosis., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2011
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