Peroxisome Proliferator-Activated Receptor-γ Is Deficient in Alveolar Macrophages from Patients with Alveolar Proteinosis
Tracey L. BonfieldCarol FarverBarbara P. BarnaAnagha MalurSusamma AbrahamBaisakhi RaychaudhuriMani S. KavuruMary Jane Thomassen
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Abstract:
Peroxisome proliferator-activated receptor-gamma (PPAR-gamma) is a ligand-activated, nuclear transcription factor that regulates genes involved in lipid and glucose metabolism, inflammation, and other pathways. The hematopoietic growth factor, granulocyte macrophage colony-stimulating factor (GM-CSF), is essential for lung homeostasis and is thought to regulate surfactant clearance, but mechanisms involved are unknown. GM-CSF is reported to stimulate PPAR-gamma, but the activation status of PPAR-gamma in human alveolar macrophages has not been defined. In pulmonary alveolar proteinosis (PAP), a rare interstitial lung disease, surfactant accumulates in alveolar airspaces, resident macrophages become engorged with lipoproteinaceous material, and GM-CSF deficiency is strongly implicated in pathogenesis. Here we show that PPAR-gamma mRNA and protein are highly expressed in alveolar macrophages of healthy control subjects but severely deficient in PAP in a cell-specific manner. Further, we show that the PPAR-gamma-regulated lipid scavenger receptor, CD36, is also deficient in PAP. PPAR-gamma and CD36 deficiency are not intrinsic to PAP alveolar macrophages, but can be upregulated by GM-CSF therapy. Moreover, GM-CSF treatment of patients with PAP fully restores PPAR-gamma to healthy control levels. Based upon these novel findings, we hypothesize that GM-CSF regulates lung homeostasis via PPAR-gamma-dependent pathways.Keywords:
Pulmonary alveolar proteinosis
CD36
Alveolar macrophage
Scavenger Receptor
Alveolar Epithelium
CD36,belongs to class B scavenger receptor family,is a transmembrane glycoprotein expressed on various tissues.On macrophages,CD36 is a major scavenger receptor for oxidized low density lipoprotein(ox-LDL).In addition to its significant roles in atherosclerosis,CD36 also exerts multiple roles including promoting coagulation and monocytes accumulation,pro-inflammatory and antioxidant roles,etc.The expression of CD36 is highly regulated by many factors,and plays an important role in the development of atherosclerosis.
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Abstract —Fully oxidized LDL (OxLDL) is believed to contribute to atherogenesis in part by virtue of uptake into macrophages via specific scavenger receptors. This phenomenon results in the formation of cholesterol-loaded foam cells, a major component of atherosclerotic lesions. The present study is directed at examining the effects of OxLDL and minimally oxidized LDL (MM-LDL) on scavenger receptor expression and activity in mouse peritoneal resident macrophages. Macrophages were preincubated with MM-LDL or OxLDL at concentrations of 25 or 50 μg/mL for 24 to 48 hours, after which their ability to bind and take up 125 I-OxLDL or 125 I-acetylated LDL (AcLDL) was determined. MM-LDL pretreatment induced a clear increase of cell association and degradation of 125 I-OxLDL and 125 I-AcLDL. Pretreatment with OxLDL also enhanced scavenger receptor activity, but to a lesser degree. Neither native LDL nor AcLDL had any effect. Scatchard analysis showed that preincubation with 50 μg/mL MM-LDL for 48 hours increased the B max of 125 I-OxLDL and 125 I-AcLDL by 139% and 154%, respectively, without significantly changing their affinity. Lipids extracted from MM-LDL also significantly induced scavenger receptor activity, but to a lesser extent than did intact MM-LDL. MM-LDL pretreatment increased both mRNA levels and protein levels of scavenger receptor A, CD36, and macrosialin. On the other hand, OxLDL pretreatment increased expression of macrosialin only. These results, showing that MM-LDL can upregulate scavenger receptor expression in mouse resident peritoneal macrophages, suggest that clearance of OxLDL by macrophages in lesions is more effective, in part because the OxLDL precursor, MM-LDL, primes the macrophage for foam cell generation.
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A bstract : Recent work in the field of atherosclerosis has greatly expanded our knowledge of the pathogenesis of this disease. Scavenger receptors, including CD36, are thought to be most important early in the disease progression during macrophage uptake of modified LDL and foam cell formation. Genetically engineered murine models have been used to elucidate the contribution of the different scavenger receptors, to identify specific ligands related to LDL modifications, and to assess the possible therapeutic ramifications of targeting scavenger receptors. We have demonstrated a major role for CD36 in macrophage foam cell development and subsequent lesion development in vivo . Absence of CD36 in an atherogenic Apo E null background resulted in a 70% decrease in total lesion area in Western diet‐fed mice. We have also made significant progress in our understanding of the regulation of expression of CD36 and have demonstrated that OxLDL can stimulate its own uptake by induction of CD36 gene expression. The mechanism by which OxLDL upregulates CD36 involves activation of the transcription factor, PPAR‐γ.
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Macrophage internalization of modified lipoproteins is thought to play a critical role in the initiation of atherogenesis. Two scavenger receptors, scavenger receptor A (SR-A) and CD36, have been centrally implicated in this lipid uptake process. Previous studies showed that these receptors mediated the majority of cholesterol ester accumulation in macrophages exposed to oxidized LDL and that mice with deletions of either receptor exhibited marked reductions in atherosclerosis. This work has contributed to an atherosclerosis paradigm: scavenger receptor–mediated oxidized lipoprotein uptake is required for foam cell formation and atherogenesis. In this study, Apoe–/– mice lacking SR-A or CD36, backcrossed into the C57BL/6 strain for 7 generations, were fed an atherogenic diet for 8 weeks. Hyperlipidemic Cd36–/–Apoe–/– and Msr1–/–Apoe–/– mice showed significant reductions in peritoneal macrophage lipid accumulation in vivo; however, in contrast with previous reports, this was associated with increased aortic sinus lesion areas. Characterization of aortic sinus lesions by electron microscopy and immunohistochemistry showed abundant macrophage foam cells, indicating that lipid uptake by intimal macrophages occurs in the absence of CD36 or SR-A. These data show that alternative lipid uptake mechanisms may contribute to macrophage cholesterol ester accumulation in vivo and suggest that the roles of SR-A and CD36 as proatherosclerotic mediators of modified LDL uptake in vivo need to be reassessed.
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Abstract—Fully oxidized LDL (OxLDL) is believed to contribute to atherogenesis in part by virtue of uptake into macrophages via specific scavenger receptors. This phenomenon results in the formation of cholesterol-loaded foam cells, a major component of atherosclerotic lesions. The present study is directed at examining the effects of OxLDL and minimally oxidized LDL (MM-LDL) on scavenger receptor expression and activity in mouse peritoneal resident macrophages. Macrophages were preincubated with MM-LDL or OxLDL at concentrations of 25 or 50 μg/mL for 24 to 48 hours, after which their ability to bind and take up 125I-OxLDL or 125I-acetylated LDL (AcLDL) was determined. MM-LDL pretreatment induced a clear increase of cell association and degradation of 125I-OxLDL and 125I-AcLDL. Pretreatment with OxLDL also enhanced scavenger receptor activity, but to a lesser degree. Neither native LDL nor AcLDL had any effect. Scatchard analysis showed that preincubation with 50 μg/mL MM-LDL for 48 hours increased the Bm...
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Several species of scavenger receptors have so far been identified. However, it remains unclear which receptors are more crucial for the foam cell formation and progression. In the present study, we compared five major scavenger receptors (SR-A, CD36, CLA-1, CD68, and LOX-1) in their levels of expression at the different stages of foam cells derived from THP-1 cells. The expression of all scavenger receptors examined was up-regulated by the stimulation with TPA for 48 hours, despite the expressions of SR-A, CD36 and LOX-1 being very low before the treatment with TPA. Four to 7 days after the removal of TPA, the levels of CD36, CLA-1 and CD68 were increased significantly. In contrast, the expression of SR-A was suppressed significantly, and no change was observed in that of LOX-1. Furthermore, when the transformed macrophages were incubated with oxidized LDL, in which the uptake of [3H] cholesteryl oleoyl ether-labeled OxLDL was linear up to 7 days after the addition of OxLDL, the expression of CD36, CLA-1 and CD68 were greatly enhanced. This enhancement was more prominent than that without oxidized LDL, and the enhancement was sustained throughout the experimental period. On the other hand, SR-A was not up-regulated, and LOX-1 was down-regulated. We thus propose that CD36, CLA-1 and CD68, but not SR-A and LOX-1, may play crucial roles in the progression of macrophages to foam cells, which is a key step for the initiation of atherosclerosis.
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