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Query: UMLS:C0020473 (
hyperlipidemia
)
15,891
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the present report we describe a patient with multiple myeloma and long-standing paraproteinemia who developed xanthoma in the absence of an elevation in plasma cholesterol or triglyceride concentrations. Studies demonstrated that our patient's monoclonal IgG antibody interacted with apoprotein B-100. The LDL-antibody complex isolated from our patient did not affect the degradation of LDL by human fibroblasts, indicating that while IgG derived from our patient interacted with LDL it did not alter the metabolism of this lipoprotein by the LDL receptor pathway. Since the LDL receptor pathway is the major route of LDL metabolism, this probably explains why our patient was not hyperlipidemic. In contrast to an absence of effect on the LDL receptor, our patient's LDL-antibody complex stimulated cholesterol esterification within macrophages indicating the uptake and degradation of the LDL-antibody complex. The LDL-antibody complex inhibited the degradation of acetyl LDL by macrophages (scavenger pathway), demonstrating that our patient's LDL-antibody complex was recognized as a modified LDL. Moreover, mixing Ig from our patient with normal LDL also resulted in the normal LDL increasing the esterification of cholesterol by macrophages. One can hypothesize that our patient's monoclonal IgG-LDL complex interacted with the
macrophage scavenger receptor
, thereby resulting in the occurrence of xanthoma in the absence of
hyperlipidemia
.
...
PMID:Cutaneous xanthoma in association with paraproteinemia in the absence of hyperlipidemia. 292 22
Two key events in the atherogenic cascade are the focal influx and accumulation of low-density lipoprotein (LDL) cholesterol at arterial sites having a predilection for atherosclerotic lesion development and the recruitment of blood monocytes to these lesion-prone sites. Both processes are enhanced in the setting of
hyperlipidemia
and dyslipoproteinemia. The monocytes recruited to the endothelial surface subsequently migrate to the subendothelial space under the directed guidance of chemoattractants, such as monocyte chemotactic protein-1 and oxidatively modified LDL. These cells then undergo activation-differentiation to become macrophages. At the same time, LDL, and probably other lipoproteins such as the small dense LDL particles and lipoprotein (a), traverse the endothelium and undergo oxidative modification by reactive oxygen species. These oxidatively modified lipoproteins are recognizable by the non-down-regulating
macrophage scavenger receptor
. Their uptake by these receptors results in the formation of the foam cell characteristic of early-stage atherosclerosis. As monocyte recruitment and lipoprotein influx continue, the lesion grows and develops into the fatty streak. Subsequent foam cell necrosis due to the influence of cytotoxic oxidatively modified LDL and increased collagen synthesis by intimal smooth muscle cells lead to the established atherosclerotic lesion referred to as the fibrous plaque. As our understanding of the mechanisms involved in the pathogenesis of atherosclerosis has evolved over the past few years, novel strategies for intervention in the atherogenic process have emerged.
...
PMID:A modern view of atherogenesis. 843 61
Modified LDL, caused by many factors, is associated with increased atherogenisity. In many modified LDLs, it is recognized that LDL oxidation occurs in vivo, and oxidized LDL demonstrates enhanced cellular uptake by
macrophage scavenger receptor
, foam cell formation. In vitro, iron and zinc are necessary for oxidized LDL and lipid peroxisides, and considering these elements to participate in vivo, particularly
hyperlipidemia
. In fact,
hyperlipidemia
with high serum levels iron or zinc concentration is a risk factor of coronary heart disease. Further, the possibility of selenium insufficiency accelerated lipid peroxisides in vivo, because glutathione peroxidase (GSHPx), the antioxidant effect, includes selenium, and GSHPx hyperproduction are recognized in atherosclerotic lesion. It is known that oxidized LDL are more excessive in
hyperlipidemia
, so
hyperlipidemia
may suffer more from trace element status in vivo. Enzymes and hormones, influencing lipid metabolism, are necessary for many trace elements their activation. Trace elements may therefore, be important in several stage of lipid metabolism.
...
PMID:[The role of trace elements concerning to disorders of lipid metabolism]. 858 9
It is proposed that, in
hyperlipidemia
, foam cells develop in cutaneous xanthomas from the uptake by the
macrophage scavenger receptor
(SR) of low density lipoproteins (LDL) that are modified due to increased residence time in plasma. We have observed extensive xanthelasmas and planar xanthomas in the absence of
hyperlipidemia
in two siblings. In blood monocytes from one sibling, 125I-labeled acetylated LDL (Ac-LDL) degradation and SR mRNA were 4 and 7 times higher, respectively, than in four control subjects. Among monocytes from these five individuals, variation in Ac-LDL degradation was completely accounted for by SR mRNA levels (R2 = 0.98, P < 0.001). Monocyte SR mRNA was induced upon maturation into macrophages during 7 days in culture. Mean monocyte and macrophage SR mRNA values from one sibling and six additional family members were elevated 5- and 4-fold compared to that of 16 control subjects, and elevated monocyte SR mRNA was associated with abnormally high cell-surface expression of SR epitopes. Monocytes from eight of nine family members examined displayed an unusual phenotype characterized by increased adhesion and rapid maturation into large macrophages which overaccumulated lipids. Monocyte-macrophage SR overexpression relative to control persisted even in the absence of autologous serum, consistent with a cellular abnormality. This is the first demonstration of an inherited abnormality in scavenger receptor expression and its occurrence in association with planar xanthomas.
...
PMID:Characterization of inherited scavenger receptor overexpression and abnormal macrophage phenotype in a normolipidemic subject with planar xanthomas. 882 15
Apolipoprotein E3-Leiden (APOE3-Leiden) transgenic mice develop
hyperlipidemia
and are highly susceptible to diet-induced atherosclerosis. We have studied the progression and regression of atherosclerosis using immunohistochemistry. Female transgenic mice were fed a moderate fat diet to study atherosclerosis over a longer time period. Fatty streaks arose in the intima and consisted of lipid filled macrophages which differed in origin. All macrophages expressed the
macrophage scavenger receptor
while two thirds expressed sialoadhesin and were positive for an antibody recognizing marginal zone macrophages (MOMA-1). All macrophages were negative for the scavenger receptor MARCO and 50% were positive for CD4. Small fatty streaks contained CD-3 positive T-lymphocytes which were for more than 70% CD4-positive. ICAM-1 was positive both in atherosclerotic and control mice. In early plaques, fibrosis was observed on the luminal and medial site of the foam cells while smooth muscle cells were only observed in the fibrous cap. To study regression, we used a high fat, high cholesterol diet to rapidly induce atherosclerosis (14 weeks). The animals were then fed normal chow. Subsequently, atherosclerosis was assayed over time (4, 8, 16 weeks). Cholesterol levels dropped in 4 weeks to control levels. The animals did not show a significantly decrease in plaque size over time. but the percentage macrophages was significantly smaller in the animals after 4 weeks. In conclusion, the APOE3-Leiden mouse is a useful model to study the progression and regression of atherosclerosis.
...
PMID:Progression and regression of atherosclerosis in APOE3-Leiden transgenic mice: an immunohistochemical study. 1020 77
Apolipoprotein (apo) E3Leiden is a dysfunctional apo E variant associated with familial dysbetalipoproteinemia in humans. Transgenic mice carrying the APOE3Leiden gene develop
hyperlipidemia
and are highly susceptible to diet-induced atherosclerosis. An early step in atherosclerosis is foam cell formation, which is thought to result from the unrestricted uptake of modified lipoproteins by macrophages. To investigate the role of the
macrophage scavenger receptor
type I and II (MSR-A) in this process, APOE3Leiden transgenic mice were crossed onto a MSR-A deficient background and the development of atherosclerosis was examined. In view of recent results with apo E deficient mice (Suzuki H et al., A role for the macrophage scavenger receptors in atherosclerosis. Nature 1997; 386(6622):292-296), absence of the MSR-A in APOE3Leiden mice was expected to lead to a reduction of atherosclerosis. In our study we compared APOE3Leiden/MSR-A deficient mice (E3L MSR-A -/-) to APOE3Leiden/MSR-A wild-type mice (E3L MSR-A +/+). These animals were fed an atherogenic diet for 10 weeks. Quantification of the lesion area showed no significant difference between E3L MSR-A -/- and E3L MSR-A +/+ mice although there was a trend towards the development of larger lesions in the E3L MSR-A -/- mice. All lesions were typed according to their cellular composition. In both male and female E3L MSR-A -/- mice, significantly more severe lesions developed as compared to E3L MSR-A +/+ mice. These results indicate that the effect of MSR-A deficiency on atherogenesis may depend on the presence or absence of apo E.
...
PMID:Scavenger receptor deficiency leads to more complex atherosclerotic lesions in APOE3Leiden transgenic mice. 1040 92
The scope of this review is to discuss the new advances in our understanding of the role of scavenger receptor class A in the initiation and modulation of the atherosclerotic process. Through the approaches of gene manipulation in the mouse model, a substantial body of literature has accumulated that depicts scavenger receptor class A as a central player in atherogenesis. In studies of scavenger receptor class A overexpression in macrophages through bone marrow transplantation using transgenic donor material, recipient mice with
hyperlipidemia
caused either by apolipoprotein E or LDL receptor deficiency did not show convincing changes in the degree of atherosclerosis development compared with controls. Conversely, the deletion of the scavenger receptor class A gene in the mouse has shown, in a consistent and significant fashion, that this receptor serves a pro-atherogenic function under hyperlipidemic conditions, as both apolipoprotein E and LDL receptor-deficient mice had reduced atherosclerosis in the absence of scavenger receptor class A. In addition, we have recently shown that C57BL/6 mice are protected from diet-induced atherosclerosis when they lack scavenger receptor class A, and that the macrophage is the cell type responsible for the effect of scavenger receptor class A deficiency in reducing lesion formation in C57BL/6 and LDL receptor null mice. Together, these results demonstrate that
macrophage scavenger receptor
class A contributes significantly to atherosclerotic lesion formation, and suggest that the uptake of oxidized or modified lipoproteins by vessel wall macrophages is a central process in atherogenesis.
...
PMID:Class A scavenger receptors, macrophages, and atherosclerosis. 1156 Nov 67
Nonalcoholic steatohepatitis (NASH) is one of the life-threatening hepatic diseases; however, its pathogenesis is still unknown. To evaluate the causative role of
hyperlipidaemia
and high-fat diet, we compared C57BL/6 mice with inherited hyperlipidaemic model mice (LDLR(-/-)mice and ApoE(-/-) mice) fed a normal or a high-fat diet. LDLR(-/-) and ApoE(-/-) mice fed the normal diet showed significantly higher serum cholesterol level than that of C57BL/6 mice fed the high-fat diet. These mice, however, have shown neither significant elevation of serum alanine transaminase (ALT) level nor histopathologic features of steatohepatitis. High-fat diet groups of all three strains showed histopathological characteristics of steatohepatitis with elevated serum ALT levels and high expression of
macrophage scavenger receptor
MARCO mRNA in the liver. Semiquantitative endotoxin analysis showed an elevated serum endotoxin level in the portal vein but not in the vena cava in ApoE(-/-) mice fed the high-fat diet. These results indicate that long-term feeding of a high-fat diet induces NASH, whereas
hyperlipidaemia
alone is not enough to induce NASH. Liver-restricted induction of MARCO in mice with high-fat diet and portal endotoxaemia in ApoE(-/-) mice fed the high-fat diet suggest the possible involvement of endotoxin in the pathogenesis of NASH.
...
PMID:Induction of macrophage scavenger receptor MARCO in nonalcoholic steatohepatitis indicates possible involvement of endotoxin in its pathogenic process. 1556 30
