Ryushi Komatsu

Elevated Levels of Oxidized Low Density Lipoprotein Show a Positive Relationship With the Severity of Acute Coronary Syndromes

BackgroundThere is accumulating data that acute coronary syndromes relate to recent onset activation of inflammation affecting atherosclerotic plaques. Increased blood levels of oxidized low density lipoprotein (ox-LDL) could play a role in these circumstances. Methods and ResultsOx-LDL levels were measured in 135 patients with acute myocardial infarction (AMI; n=45), unstable angina pectoris (UAP; n=45), and stable angina pectoris (SAP; n=45) and in 46 control subjects using a sandwich ELISA method. In addition, 33 atherectomy specimens obtained from a different cohort of patients with SAP (n=10) and UAP (n=23) were studied immunohistochemically for ox-LDL. In AMI patients, ox-LDL levels were significantly higher than in patients with UAP (P <0.0005) or SAP (P <0.0001) or in controls (P <0.0001) (AMI, 1.95±1.42 ng/5 &mgr;g LDL protein; UAP, 1.19±0.74 ng/5 &mgr;g LDL protein; SAP, 0.89±0.48 ng/5 &mgr;g LDL protein; control, 0.58±0.23 ng/5 &mgr;g LDL protein). Serum levels of total, HDL, and LDL cholesterol did not differ among these patient groups. In the atherectomy specimens, the surface area containing ox-LDL–positive macrophages was significantly higher in patients with UAP than in those with SAP (P <0.0001). ConclusionsThis study demonstrates that ox-LDL levels show a significant positive correlation with the severity of acute coronary syndromes and that the more severe lesions also contain a significantly higher percentage of ox-LDL–positive macrophages. These observations suggest that increased levels of ox-LDL relate to plaque instability in human coronary atherosclerotic lesions.

Neutrophil Infiltration of Culprit Lesions in Acute Coronary Syndromes

Background—Neutrophils in unstable atherosclerotic lesions have not received much consideration, despite accumulating evidence suggesting a link between systemic inflammation and acute coronary syndromes. Methods and Results—Coronary artery segments were obtained at autopsy from 13 patients with acute myocardial infarction (AMI); 8 had a ruptured and 5 an eroded plaque. Patients (n=45) who had died of noncardiovascular diseases served as reference. Atherectomy specimens were obtained from 35 patients with stable angina pectoris (SAP) and from 32 patients with unstable angina pectoris (UAP). Antibodies against CD66b, elastase, myeloperoxidase, and CD11b identified neutrophils; CD10 identified neutral endopeptidase (NEP). CD66b-positive and NEP-positive neutrophils were counted and expressed as a number per square millimeter of tissue. All specimens with plaque rupture or erosion showed distinct neutrophil infiltration; the number did not differ between ruptured and eroded plaques. However, the number of NEP-positive neutrophils was significantly higher (P <0.0001) in ruptured plaques than in eroded plaques. UAP patients showed neutrophils in 14 of 32 culprit lesions; in SAP only 2 of 35 lesions contained neutrophils. The number of neutrophils and NEP-positive cells in patients with UAP was significantly higher (neutrophils, P <0.0005; NEP-positive cells, P <0.005) than in patients with SAP. Conclusions—The observations suggest that neutrophil infiltration is actively associated with acute coronary events. The high number of NEP-positive neutrophils in ruptured plaques, compared with eroded plaques, may reflect differences in the underlying pathophysiological mechanisms.

Vascular Endothelial Growth Factor (VEGF) Expression in Human Coronary Atherosclerotic Lesions Possible Pathophysiological Significance of VEGF in Progression of Atherosclerosis

BACKGROUND Vascular endothelial growth factor (VEGF) is an important angiogenic factor reported to induce migration and proliferation of endothelial cells, enhance vascular permeability, and modulate thrombogenicity. VEGF expression in cultured cells (smooth muscle cells, macrophages, endothelial cells) is controlled by growth factors and cytokines. Hence, the question arises of whether VEGF could play a role in atherogenesis. METHODS AND RESULTS Frozen sections from 38 coronary artery segments were studied. The specimens were characterized as normal with diffuse intimal thickening, early atherosclerosis with hypercellularity, and advanced atherosclerosis (atheromatous plaques, fibrous plaques, and totally occlusive lesions). VEGF expression as well as the expression of 2 VEGF receptors, flt-1 and Flk-1, were studied with immunohistochemical techniques in these samples at the different stages of human coronary atherosclerosis progression. The expression of VEGF mRNA was also studied with reverse transcription-polymerase chain reaction. Normal arterial segments showed no substantial VEGF expression. Hypercellular and atheromatous lesions showed distinct VEGF positivity of activated endothelial cells, macrophages, and partially differentiated smooth muscle cells. VEGF positivity was also detected in endothelial cells of intraplaque microvessels within advanced lesions. In totally occlusive lesions with extensive neovascularization, intense immunostaining for VEGF was observed in accumulated macrophages and endothelial cells of the microvessels. Furthermore, VEGF mRNA expression was detected in atherosclerotic coronary segments but not in normal coronary segments. The immunostainings for flt-1 and Flk-1 were detected in aggregating macrophages in atherosclerotic lesions and also in endothelial cells of the microvessels in totally occlusive lesions. CONCLUSIONS These results demonstrate distinct expression of VEGF and its receptors (flt-1 and Flk-1) in atherosclerotic lesions in human coronary arteries. Considering the multipotent actions of VEGF documented experimentally in vivo and in vitro, our findings suggest that VEGF may have some role in the progression of human coronary atherosclerosis, as well as in recanalization processes in obstructive coronary diseases.

Neointimal Tissue Response at Sites of Coronary Stenting in Humans Macroscopic, Histological, and Immunohistochemical Analyses

BACKGROUND Experimental animal studies have shown that coronary stenting induces neointimal proliferation. However, the histopathological events after coronary stenting in humans have not been studied systematically. METHODS AND RESULTS We investigated 11 stented coronary arteries (9 Palmaz-Schatz stents, 1 Wiktor stent, and 1 ACS Multi-Link stent) obtained from 11 patients who had died 2 days to 21 months after stenting. We focused on gross, histological, and immunohistochemical aspects of the repair processes. Two patients developed symptoms of restenosis. Serial sections were stained with antibodies against smooth muscle cells (SMCs), macrophages, and endothelial cells. At 9 and 12 days after stenting, the stent sites showed thrombus formation with early formation of neointima composed of abundant macrophages and alpha-actin-negative spindle cells. From 64 days on, all sites with stenting showed a distinct layer of neointima, albeit to varying degrees. In nonrestenotic lesions, neointimal thickening was markedly less than in restenotic lesions but without qualitative differences; the neointima contained macrophages but was composed predominantly of alpha-actin-positive SMCs. CONCLUSIONS These observations strongly support the concept that neointimal proliferation in humans is a process of staged redifferentiation of SMCs, which may cause in-stent stenosis. Moreover, the exuberant neointimal proliferation with accumulation of macrophages and extensive neovascularization at sites of stent restenosis suggests a role for organization of mural thrombus.

Telomere Shortening in Human Coronary Artery Diseases

Background—Increased cell turnover in response to injury is considered to be important in the development of atherosclerotic plaques. Telomere shortening has been shown to be associated with cell turnover. We assessed the telomere length of human coronary endothelial cells to clarify whether there is a relationship between telomere shortening and coronary artery disease (CAD). Methods and Results—Coronary endothelial cells were obtained from 11 patients with CAD who underwent autopsy and 22 patients without CAD who underwent autopsy by scraping off the luminal surface of coronary arteries. DNA extracted from the endothelial cells were blotted and hybridized with telomere-specific oligonucleotide ([TTAGGG]4). The hybridization signal intensity, which represented telomeric DNA content, was standardized with centromeric DNA content (T/C ratio) to estimate telomere length. The T/C ratios were significantly smaller (P <0.0001) in CAD patients than in age-matched non-CAD patients (CAD patients, 0.462±0.135; non-CAD patients, 1.002±0.212). In 6 individual CAD patients, the T/C ratio at the atherosclerotic lesion was significantly smaller (P <0.05) than that at the non-atherosclerotic portion. Conclusions—These findings suggest that focal replicative senescence and telomere shortening of endothelial cells may play a critical role in coronary atherogenesis and CAD.

Pathophysiological role of oxidized low-density lipoprotein in plaque instability in coronary artery diseases

Oxidized low-density lipoprotein (ox-LDL) is considered to play a key role in the genesis of inflammatory processes in atherosclerotic lesions. It has also been shown that LDL isolated from patients with diabetes mellitus (DM) has an enhanced susceptibility to oxidation. Recently, a sandwich ELISA method for measurement of plasma ox-LDL levels has been developed. To elucidate the role of ox-LDL in plaque instability in coronary artery disease, we measured the plasma ox-LDL levels in patients with acute myocardial infarction (AMI), unstable angina pectoris (UAP), and stable angina pectoris (SAP), and moreover assessed whether a relationship is present between plasma ox-LDL levels and DM. We also measured the plasma ox-LDL level in a patient who died of AMI, thus enabling us to study the presence of ox-LDL and CD 36, which is one of the ox-LDL receptors, in the culprit lesion. Plasma ox-LDL levels were measured in 210 patients (AMI: 70, UAP: 70, SAP: 70), and in 55 control subjects. Plasma ox-LDL levels in AMI patients were significantly higher than in UAP patients (P<.0001), SAP patients (P<.0001), or controls (P<.0001). In the UAP group, plasma ox-LDL levels in patients with DM were significantly higher than those without DM (P<.005). The autopsied patient who died of AMI revealed an increased plasma level of ox-LDL, and immunohistochemically, the culprit coronary lesion contained abundant macrophage-derived foam cells, showing distinct positivity for ox-LDL and CD 36. These results strongly suggest an important role for ox-LDL in the genesis of plaque instability in human coronary atherosclerotic lesions.

Erythrocyte-rich thrombus aspirated from patients with ST-elevation myocardial infarction: association with oxidative stress and its impact on myocardial reperfusion

AIMS Recent studies have demonstrated that erythrocytes are a potential component in atheromatous lesions and thrombus formation in patients with ST-elevation myocardial infarction (STEMI). The purpose of this study was to determine the associations of red blood cell (RBC) component of coronary thrombi with oxidative stress and myocardial reperfusion. METHODS AND RESULTS Aspirated thrombi from 178 STEMI patients within 12 h of symptom onset were investigated immunohistochemically using antibodies against platelets, RBCs, fibrin, macrophages, and neutrophils [myeloperoxidase (MPO)]. The thrombi were divided into tertiles according to the percentage of glycophorin-A-positive area: low (glycophorin-A-positive area <33%; n = 60), intermediate (<54 to 33%; n = 59), and high group (≥54%; n = 59). We also measured plasma MPO levels on admission. In the thrombi, the number of MPO-positive cells in the high-RBC group was significantly greater than that in the low-RBC group (high, 927 ± 385; intermediate, 765 ± 406; low, 279 ± 220 cells/mm(2); P< 0.0001). Plasma MPO levels were significantly higher in the high-RBC group than that in the low-RBC group [low 43.1 (25.0-71.6); intermediate 71.0 (32.9-111.2); high 74.3 (31.1-126.4)ng/mL; P< 0.005]. Distal embolization occurred more frequently in the high-RBC group (P= 0.0009). Moreover, the signs of impaired myocardial reperfusion, as indicated by incomplete ST-segment resolution (STR) and lower myocardial blush grades (MBG), and progression of left ventricular remodelling at 6 months were frequently observed in the high-RBC group (high vs. low: STR, P= 0.056; MBG, P< 0.01; remodelling, P< 0.01). CONCLUSION The present study demonstrated that erythrocyte-rich thrombi contain more inflammatory cells and reflect high thrombus burden, leading to impaired myocardial reperfusion in STEMI patients.

Vascular smooth muscle cell phenotypes in primary pulmonary hypertension.

Primary pulmonary hypertension (PPH) is associated with specific structural alterations, including cellular intimal thickening, intimal fibrosis, and plexiform lesions. To determine the phenotypes of smooth muscle cells (SMCs) in such lesions, the authors conducted an immunohistochemical analysis of lung tissues from two patients with PPH, using two antimuscle actin antibodies, HHF35 and CGA7, and two anti-SMC myosin heavy chain markers, anti-SM1 and anti-SM2 antibodies and related antibodies. Cells that stained positive (+) with HHF35, CGA7, anti-SM1, and anti-SM2 were considered to be SMCs of a mature state. Conversely, those that stained positive with HHF35 and anti-SM1, but weakly positive (+/-) or negative (-) with CGA7 and anti-SM2, were considered to be SMCs exhibiting an immature state. Cellular intimal thickening was composed of SMCs of an immature phenotype (HHF35+, CGA7+/-, SM1+, SM2+/-), accompanied by the expression of fibronectin and the presence of macrophages; intimal fibrosis contained mature SMCs (HHF35+, CGA7+, SM1+, SM2+); and plexiform lesion consisted of proliferative endothelial cells (von Willebrand factor-positive cells, proliferating cell nuclear antigen-positive cells) and underlying immature SMCs (HHF35+, CGA7-, SM1+, SM2-) associated with fibronectin expression and macrophage infiltration. These findings suggest that smooth muscle cells with specific phenotypes may contribute to the development of specific vascular lesions in primary pulmonary hypertension.

Neopterin is associated with plaque inflammation and destabilisation in human coronary atherosclerotic lesions

Background: Previous studies have shown that recent activation of the inflammatory response in coronary atherosclerotic lesions contributes to rapid progressive plaque destabilisation. Neopterin, a by-product of the guanosine triphosphate pathway, is produced by activated macrophages and serves as an activation marker for monocytes/macrophages. Objective: To elucidate the role of neopterin in coronary plaque destabilisation by immunohistochemical study of the presence of neopterin in coronary atherectomy specimens obtained from patients with stable angina pectoris (SAP) and unstable angina pectoris (UAP). Patients and methods: All patients underwent atherectomy of the primary atherosclerotic lesions responsible for SAP (n = 25) and UAP (n = 25). Frozen samples were studied with antibodies against smooth muscle cells, macrophages, T cells, neutrophils and neopterin. Results: In 22/25 patients with UAP, abundant neopterin-positive macrophages were found at the sites of coronary culprit lesions. However, in 25 lesions from patients with SAP, only 11 lesions showed neopterin positivity. Quantitatively, the neopterin-positive macrophage score was significantly higher (p<0.001) in patients with UAP than in patients with SAP. Moreover, the neopterin-positive macrophage score showed a significant positive correlation with the number of neutrophils or T cells, respectively (neutrophils, r = 0.55, p<0.001; T cells, r = 0.70, p<0.001). Conclusions: Neopterin can be considered as one of the significant factors in the process of plaque inflammation and destabilisation in human coronary atherosclerotic lesions. Its exact role in the process needs to be investigated further.

Lysosomal accumulation of oxidized phosphatidylcholine-apolipoprotein B complex in macrophages: intracellular fate of oxidized low density lipoprotein.

Oxidized phosphatidylcholine (OxPC) formed in oxidized low density lipoprotein (OxLDL) is thought to be involved in the development of atherosclerosis. OxPC has been found in foam cells in atherosclerotic lesions and suggested to be the epitope for OxLDL recognition by macrophages. OxPC is present as a complex with apolipoprotein B (apoB) in OxLDL, since some OxPC can bind with proteins. In the current study, the intracellular fate of OxPC-apoB complexes after internalization of OxLDL by macrophages was investigated. Murine macrophage cell line J774.1 was incubated with either OxLDL or acetylated LDL for 24 h, then the cells were further incubated for up to 24 h in new medium without lipoprotein. Modified apoB in the cells was quantitated by sandwich ELISA using monoclonal antibodies against OxPC and apoB. Intracellular OxLDL decreased rapidly for the first 4 h to approx. 20% of that before medium change, with the apparent metabolism of OxPC-apoB complex ceasing. OxPC-apoB complexes that remained in the cells after 24 h chasing increased as the period of OxLDL loading in macrophages prolongs. Acetylated LDL in the cells decreased quickly and disappeared after 4 h of chasing. Subcellular fractionation using sucrose density gradient ultracentrifugation of macrophages, which had already accumulated OxPC-apoB complexes by 24 h of incubation with OxLDL and further 24 h chasing, showed that the complex was co-localized with endosomal and lysosomal markers. Immunohistochemical double staining studies demonstrated that OxPC and apoB co-localize in foam cells in early atherosclerotic lesions obtained from human coronary artery. These results suggest that OxPC-apoB complexes originating from OxLDL accumulate in foam cells in human atherosclerotic lesions as well as in macrophages in vitro.