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ABSTRACT: We previously demonstrated that macrophage low-density lipoprotein receptor (LDLR)-related protein 1 (LRP1) deficiency increases atherosclerosis despite antiatherogenic changes including decreased uptake of remnants and increased secretion of apolipoprotein E (apoE). Thus, our objective was to determine whether the atheroprotective effects of LRP1 require interaction with apoE, one of its ligands with multiple beneficial effects.
We examined atherosclerosis development in mice with specific deletion of macrophage LRP1 (apoE(-/-) MΦLRP1(-/-)) and in LDLR(-/-) mice reconstituted with apoE(-/-) MΦLRP1(-/-) bone marrow. The combined absence of apoE and LRP1 promoted atherogenesis more than did macrophage apoE deletion alone in both apoE-producing LDLR(-/-) mice (+88%) and apoE(-/-) mice (+163%). The lesions of both mouse models with apoE(-/-) LRP1(-/-) macrophages had increased macrophage content. In vitro, apoE and LRP1 additively inhibit macrophage apoptosis. Furthermore, there was excessive accumulation of apoptotic cells in lesions of both LDLR(-/-) mice (+110%) and apoE(-/-) MΦLRP1(-/-) mice (+252%). The apoptotic cell accumulation was partially due to decreased efferocytosis as the ratio of free to cell-associated apoptotic nuclei was 3.5-fold higher in lesions of apoE(-/-) MΦLRP1(-/-) versus apoE(-/-) mice. Lesion necrosis was also increased (6 fold) in apoE(-/-) MΦLRP1(-/-) versus apoE(-/-) mice. Compared with apoE(-/-) mice, the spleens of apoE(-/-) MΦLRP1(-/-) mice contained 1.6- and 2.4-fold more total and Ly6-C(high) monocytes. Finally, there were 3.6- and 2.4-fold increases in Ly6-C(high) and CC-chemokine receptor 2-positive cells in lesions of apoE(-/-) MΦLRP1(-/-) versus apoE(-/-) mice, suggesting that accumulation of apoptotic cells enhances lesion development and macrophage content by promoting the recruitment of inflammatory monocytes.
Low-density lipoprotein receptor protein 1 exerts antiatherogenic effects via pathways independent of apoE involving macrophage apoptosis and monocyte recruitment.
Circulation 07/2011; 124(4):454-64. · 14.74 Impact Factor
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Vladimir R Babaev,
Robert P Runner,
Daping Fan, Lei Ding,
Youmin Zhang,
Huan Tao,
Ebru Erbay,
Cem Z Görgün,
Sergio Fazio,
Gökhan S Hotamisligil,
MacRae F Linton
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ABSTRACT: The adipocyte/macrophage fatty acid-binding proteins aP2 (FABP4) and Mal1 (FABP5) are intracellular lipid chaperones that modulate systemic glucose metabolism, insulin sensitivity, and atherosclerosis. Combined deficiency of aP2 and Mal1 has been shown to reduce the development of atherosclerosis, but the independent role of macrophage Mal1 expression in atherogenesis remains unclear.
We transplanted wild-type (WT), Mal1(-/-), or aP2(-/-) bone marrow into low-density lipoprotein receptor-null (LDLR(-/-)) mice and fed them a Western diet for 8 weeks. Mal1(-/-)→LDLR(-/-) mice had significantly reduced (36%) atherosclerosis in the proximal aorta compared with control WT→LDLR(-/-) mice. Interestingly, peritoneal macrophages isolated from Mal1-deficient mice displayed increased peroxisome proliferator-activated receptor-γ (PPARγ) activity and upregulation of a PPARγ-related cholesterol trafficking gene, CD36. Mal1(-/-) macrophages showed suppression of inflammatory genes, such as COX2 and interleukin 6. Mal1(-/-)→LDLR(-/-) mice had significantly decreased macrophage numbers in the aortic atherosclerotic lesions compared with WT→LDLR(-/-) mice, suggesting that monocyte recruitment may be impaired. Indeed, blood monocytes isolated from Mal1(-/-)→LDLR(-/-) mice on a high-fat diet had decreased CC chemokine receptor 2 gene and protein expression levels compared with WT monocytes.
Taken together, our results demonstrate that Mal1 plays a proatherogenic role by suppressing PPARγ activity, which increases expression of CC chemokine receptor 2 by monocytes, promoting their recruitment to atherosclerotic lesions.
Arteriosclerosis Thrombosis and Vascular Biology 06/2011; 31(6):1283-90. · 6.37 Impact Factor
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ABSTRACT: OBJECTIVE: The balance between apoptosis susceptibility and efferocytosis of macrophages is central to plaque remodeling and inflammation. LRP-1 and its ligand, apolipoprotein E, have been implicated in efferocytosis and apoptosis in some cell types. We investigated the involvement of the macrophage LRP-1/apolipoprotein E axis in controlling plaque apoptosis and efferocytosis. Method and Results- LRP-1(-/-) macrophages displayed nearly 2-fold more TUNEL positivity compared to wild-type cells in the presence of DMEM alone or with either lipopolysaccharide or oxidized low-density lipoprotein. The survival kinase, phosphorylated Akt, was barely detectable in LRP-1(-/-) cells, causing decreased phosphorylated Bad and increased cleaved caspase-3. Regardless of the apoptotic stimulation and degree of cell death, LRP-1(-/-) macrophages displayed enhanced inflammation with increased IL-1 beta, IL-6, and tumor necrosis factor-alpha expression. Efferocytosis of apoptotic macrophages was reduced by 60% in LRP-1(-/-) vs wild-type macrophages despite increased apolipoprotein E expression by both LRP-1(-/-) phagocytes and wild-type apoptotic cells. Compared to wild-type macrophage lesions, LRP-1(-/-) lesions had 5.7-fold more necrotic core with more dead cells not associated with macrophages. CONCLUSIONS: Macrophage LRP-1 deficiency increases cell death and inflammation by impairing phosphorylated Akt activation and efferocytosis. Increased apolipoprotein E expression in LRP-1(-/-) macrophages suggests that the LRP-1/apolipoprotein E axis regulates the balance between apoptosis and efferocytosis, thereby preventing necrotic core formation.
Arteriosclerosis Thrombosis and Vascular Biology 02/2010; 30(4):787-95. · 6.37 Impact Factor
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ABSTRACT: Prostaglandin (PG) E(2), a major product of activated macrophages, has been implicated in atherosclerosis and plaque rupture. The PGE(2) receptors, EP2 and EP4, are expressed in atherosclerotic lesions and are known to inhibit apoptosis in cancer cells. To examine the roles of macrophage EP4 and EP2 in apoptosis and early atherosclerosis, fetal liver cell transplantation was used to generate LDLR(-/-) mice chimeric for EP2(-/-) or EP4(-/-) hematopoietic cells. After 8 weeks on a Western diet, EP4(-/-) --> LDLR(-/-) mice, but not EP2(-/-) --> LDLR(-/-) mice, had significantly reduced aortic atherosclerosis with increased apoptotic cells in the lesions. EP4(-/-) peritoneal macrophages had increased sensitivity to proapoptotic stimuli, including palmitic acid and free cholesterol loading, which was accompanied by suppression of activity of p-Akt, p-Bad, and NF-kappaB-regulated genes. Thus, EP4 deficiency inhibits the PI3K/Akt and NF-kappaB pathways compromising macrophage survival and suppressing early atherosclerosis, identifying macrophage EP4-signaling pathways as molecular targets for modulating the development of atherosclerosis.
Cell metabolism 01/2009; 8(6):492-501. · 17.35 Impact Factor
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ABSTRACT: Genetic studies have demonstrated an important role for proprotein convertase subtilisin/kexin type 9 (PCSK9) as a determinant of plasma cholesterol levels. However, the underlying molecular mechanism is not completely understood. To this end, we have generated a mammalian cell expression system for human PCSK9 and its mutants and produced transgenic mice expressing human PCSK9. HEK293T cells transfected with the human PCSK9 DNA construct expressed and secreted PCSK9 and displayed decreased LDLR levels; functional PCSK9 protein was purified from the conditioned medium. In vitro studies showed that PCSK9 self-associated in a concentration-, temperature-, and pH-dependent manner. A mixture of PCSK9 monomers, dimers, and trimers displayed an enhanced LDLR degrading activity compared to monomeric PCSK9. A gain-of-function mutant, D374Y, displayed greatly increased self-association compared to wild-type PCSK9. Moreover, we demonstrated that the catalytic domain of PCSK9 is responsible for the self-association. Self-association of PCSK9 was enhanced by incubation with mouse apoE-/- VLDL and inhibited by incubation with both human and mouse HDL. When PCSK9 protein was incubated with total serum, it partially associated with LDL and HDL but not with VLDL. In transgenic mice, PCSK9 also associated with LDL and HDL but not with VLDL. We conclude that self-association is an intrinsic property of PCSK9, correlated to its LDLR-degrading activity and affected by plasma lipoproteins. These results provide a basis for developing strategies to manipulate PCSK9 activity in the circulation for the treatment of hypercholesterolemia.
Biochemistry 03/2008; 47(6):1631-9. · 3.42 Impact Factor
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ABSTRACT: The peroxisome proliferator-activated receptor-alpha (PPARalpha) plays important roles in lipid metabolism, inflammation, and atherosclerosis. PPARalpha ligands have been shown to reduce cardiovascular events in high-risk subjects. PPARalpha expression by arterial cells, including macrophages, may exert local antiatherogenic effects independent of plasma lipid changes.
To examine the contribution of PPARalpha expression by bone marrow-derived cells in atherosclerosis, male and female low-density lipoprotein receptor-deficient (LDLR(-/-)) mice were reconstituted with bone marrow from PPARalpha(-/-) or PPARalpha(+/+) mice and challenged with a high-fat diet. Although serum lipids and lipoprotein profiles did not differ between the groups, the size of atherosclerotic lesions in the distal aorta of male and female PPARalpha(-/-) --> LDLR(-/-) mice was significantly increased (44% and 46%, respectively) compared with controls. Male PPARalpha(-/-) --> LDLR(-/-) mice also had larger (44%) atherosclerotic lesions in the proximal aorta than male PPARalpha(+/+) --> LDLR(-/-) mice. Peritoneal macrophages from PPARalpha(-/-) mice had increased uptake of oxidized LDL and decreased cholesterol efflux. PPARalpha(-/-) macrophages had lower levels of scavenger receptor B type I and ABCA1 protein expression and an accelerated response of nuclear factor-kappaB-regulated inflammatory genes. A laser capture microdissection analysis verified suppressed scavenger receptor B type I and increased nuclear factor-kappaB gene expression levels in vivo in atherosclerotic lesions of PPARalpha(-/-) --> LDLR(-/-) mice compared with the lesions of control PPARalpha(+/+) --> LDLR(-/-) mice.
These data demonstrate that PPARalpha expression by macrophages has antiatherogenic effects via modulation of cell cholesterol trafficking and inflammatory activity.
Circulation 09/2007; 116(12):1404-12. · 14.74 Impact Factor
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ABSTRACT: Cyclooxygenase-1 (COX-1) has been implicated in the pathogenesis of atherothrombosis and is expressed by the major cell types of atherosclerotic lesions. COX-1-mediated platelet thromboxane (TX) production has been proposed to promote both early atherosclerosis and thrombosis. Here, we examined the impact of COX-1 deficiency in bone marrow-derived cells on early atherogenesis in the mouse.
LDL receptor (LDLR)(-/-) and apolipoprotein E (apoE)(-/-) recipient mice were lethally irradiated and transplanted with COX-1(-/-) bone marrow. Mice reconstituted with COX-1(-/-) marrow had nearly complete (99.7%) loss of platelet TXA2 and significantly suppressed levels of macrophage and urinary TXA2 metabolites. Serum lipid levels and lipoprotein distributions did not differ between recipients reconstituted with COX-1(+/+) and COX-1(-/-) marrow. Surprisingly, the extent of atherosclerotic lesions in both LDLR(-/-) and apoE(-/-) mice reconstituted with COX-1(-/-) marrow was increased significantly compared with control mice transplanted with COX-1(+/+) marrow. Peritoneal macrophages isolated from LDLR(-/-) mice reconstituted with COX-1(-/-) marrow had increased lipopolysaccharide-induced levels of COX-2 mRNA and protein expression. Fetal liver cell transplantation studies revealed a 30% increase in atherosclerosis in COX-1(-/-)-->LDLR(-/-)mice compared with COX-1(+/+)-->LDLR(-/-)mice, whereas the extent of atherosclerosis was unchanged in COX-1(-/-)/COX-2(-/-)-->LDLR(-/-)mice.
COX-1 deficiency in bone marrow-derived cells worsens early atherosclerosis in apoE(-/-) and LDLR(-/-) mice despite virtual elimination of platelet TX production. These data demonstrate that platelet TX production does not aggravate early atherosclerotic lesion formation and that upregulation of COX-2 expression in COX-1(-/-) macrophages is proatherogenic.
Circulation 01/2006; 113(1):108-17. · 14.74 Impact Factor
