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Query: UMLS:C0020473 (
hyperlipidemia
)
15,891
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Familial combined hyperlipidemia (FCH) is characterized by a familial occurrence of a multiple-type
hyperlipidemia
, associated with coronary risk. The latter may be related to increased levels of small, dense LDL particles that have been found to be more prone to oxidative modification. We isolated total LDL as fresh as possible from 12 normolipidemic relatives with a buoyant LDL subfraction profile (group 1), 7 normolipidemic subjects with a dense LDL subfraction profile (group 2), and 16 hyperlipidemic FCH subjects with a dense LDL subfraction profile (group 3). In these nonobese and normotensive men, we studied the resistance of total LDL against Cu(2+)-oxidation in vitro. In addition, we analyzed the alpha-tocopherol and the coenzyme Q10 contents of LDL and determined their relation to LDL oxidizability. LDL isolated from group 3 subjects was more susceptible to oxidative modification than LDL from group 1 subjects (lag time: 60.4 +/- 8.1 versus 70.4 +/- 11.4 minutes; P < .05). For the combined groups, the ratio of
ubiquinol
-10 to polyunsaturated fatty acids in LDL, together with the basal amount of dienes in LDL, were good predictors of the rate of LDL oxidation (R2 = .73, P = .0001). In groups 2 and 3, the redox status of coenzyme Q10 (
ubiquinol
-10/ubiquinone-10) and the ratio of
ubiquinol
-10 to alpha-tocopherol in LDL were reduced compared with group 1 (P < .05). The K-value a measure of the LDL density, correlated with the the redox status (r = .37, P < .05). We conclude that in subjects with FCH total LDL is more prone to oxidation, due to the predominance of dense LDL particles. In addition, the decreased redox status of coenzyme Q10 in LDL from subjects with a dense LDL subfraction profile suggests that the LDL in the circulation has already undergone some oxidation.
...
PMID:The redox status of coenzyme Q10 in total LDL as an indicator of in vivo oxidative modification. Studies on subjects with familial combined hyperlipidemia. 901 47
Oxidative theory of atherosclerosis implies that plasma levels of lipophilic antioxidants might serve as indicators of lipoprotein oxidation in the arterial wall and as markers of the development of atherosclerosis. However, it is unknown whether the measurement of plasma antioxidants is able to reflect atherogenesis or its risk. In order to assess whether the levels of lipophilic antioxidants in human plasma can discriminate between subjects with and without atherosclerosis, we measured the lipophilic antioxidants alpha-tocopherol, gamma-tocopherol, alpha-carotene, beta-carotene and
ubiquinol
-10 in plasma of 34 patients with coronary heart disease (CHD) and in 40 control subjects. We found that alpha-carotene and gamma-tocopherol were significantly lower in plasma of CHD patients compared to controls. This decrease was significantly independent of whether the antioxidants were expressed as its absolute amounts in plasma (P < 0.001 for alpha-carotene, and P = 0.001 for gamma-tocopherol) or normalized to plasma lipids (P < 0.001 for both). In contrast, beta-carotene was only lower in plasma of CHD patients in comparison to controls, when normalized to the lipids (P = 0.02). Independent contributions of different parameters to the variation in these plasma antioxidants were estimated using multiple regression approach. The analysis showed that both the decrease in alpha-carotene and the decrease in gamma-tocopherol were significantly associated only with the presence of CHD (P < 0.001 for each regression), while the decrease in beta-carotene was significantly related to the presence of
hyperlipidaemia
(P < 0.001). In striking contrast, no decrease in plasma alpha-tocopherol and
ubiquinol
-10 was detected in the patient group independently of how these antioxidants were expressed. These data suggest that plasma levels of alpha-carotene and gamma-tocopherol may represent markers of atherosclerosis in humans. Measuring these antioxidants may be of clinical importance as a practical approach to assess atherogenesis and/or its risk.
...
PMID:Lipophilic antioxidants in blood plasma as markers of atherosclerosis: the role of alpha-carotene and gamma-tocopherol. 1038 Dec 85
There are findings indicating that a decreased ratio of plasma coenzyme Q10 (Q10) to LDL cholesterol could be associated with an increased risk of atherosclerosis. Furthermore, the proportion of plasma Q10H2 (reduced Q10,
ubiquinol
) of total Q10 has been shown to be attenuated in major diseases, such as
hyperlipidemia
and coronary artery disease. These observations suggest that measurement of plasma total Q10 and the proportion of plasma Q10H2 of total Q10 would be of clinical significance. However, epidemiological studies addressing this issue require large numbers of subjects, and measurements from unfrozen samples are unfeasible. For this reason, we evaluated the stability of Q10 samples during sample storage and processing. We also compared solid phase and hexane pre-treatments prior to high-performance liquid chromatographic determination of Q10. Our results indicate that samples for plasma total Q10 measurement can be pre-treated in normal laboratory lighting conditions, thawed and frozen several times, and stored deep frozen for a couple of years without changes in measured Q10 values. If purification of the samples by silica and C18 is needed, the best reproducibility tends to be achieved with powder treatment (not with cartridges). However, to measure successfully the proportion of plasma
ubiquinol
of total Q10, samples must be thawed, extracted, and analysed one at a time and quickly to ensure minimal
ubiquinol
oxidation during the measurement process.
...
PMID:Measurement and stability of plasma reduced, oxidized and total coenzyme Q10 in humans. 1061 57
Oxidative modification of lipoproteins in vessel walls plays a key role in atherogenesis. Patients with glycogen storage disease type Ia (GSD Ia) do not develop premature atherosclerosis despite severe
hyperlipidemia
. We analyzed antioxidative defense and oxidative stress in plasma and serum of patients with GSD Ia (n = 17) compared to patients with type I diabetes mellitus (DMI, n = 17), familial hypercholesterolemia (FH, n = 18), and healthy controls (n = 20). We measured the total radical-trapping antioxidant parameter (TRAP), single antioxidants (sulfhydryl groups, uric acid, vitamin C, alpha-tocopherol, coenzyme Q10), malondialdehyde, oxidized low density lipoprotein (LDL) antibodies, lipid profile [cholesterol, triglyceride, lipoprotein (a)], homocysteine, and hemoglobin (Hb)A(1C). TRAP levels were elevated in the GSD Ia group (p <.01) and correlated with elevated uric acid levels (r = 0.72, p =.001). None of the other plasma antioxidants correlated with TRAP levels. DMI patients showed decreased sulfhydryl groups (p <.01) and a reduced
ubiquinol
-10 fraction (p <.01). Malondialdehyde (p <.001) and oxidized LDL autoantibodies (p <.05) were increased in the diabetic group. In FH patients, parameters of oxidative stress and TRAP did not differ from controls. We conclude that in GSD Ia an increased antioxidative defense in plasma may protect against lipid peroxidation and thus against premature atherosclerosis. Furthermore, we demonstrated that in DMI increased oxidative mechanisms are already present in childhood.
...
PMID:Plasma antioxidants in pediatric patients with glycogen storage disease, diabetes mellitus, and hypercholesterolemia. 1208 88
Hydrogen sulfide (H
2
S), a gaseous molecule, is involved in modulating multiple physiological functions, such as antioxidant, antihypertension, and the production of polysulfide cysteine. H
2
S may inhibit reactive oxygen species generation and ATP production through modulating respiratory chain enzyme activities; however, the mechanism of this effect remains unclear. In this study,
db/db
mice, neonatal rat cardiomyocytes, and H9c2 cells treated with high glucose, oleate, and palmitate were used as animal and cellular models of type 2 diabetes. The mitochondrial respiratory rate, respiratory chain complex activities, and ATP production were decreased in
db/db
mice compared with those in
db/db
mice treated with exogenous H
2
S. Liquid chromatography with tandem mass spectrometry analysis showed that the acetylation level of proteins involved in the mitochondrial respiratory chain were increased in the
db/db
mice hearts compared with those with sodium hydrosulfide (NaHS) treatment. Exogenous H
2
S restored the ratio of NAD
+
/NADH, enhanced the expression and activity of sirtuin 3 (SIRT3) and decreased mitochondrial acetylation level in cardiomyocytes under hyperglycemia and
hyperlipidemia
. As a result of SIRT3 activation, acetylation of the respiratory complexe enzymes NADH dehydrogenase 1 (ND1),
ubiquinol
cytochrome
c
reductase core protein 1, and ATP synthase mitochondrial F1 complex assembly factor 1 was reduced, which enhanced the activities of the mitochondrial respiratory chain activity and ATP production. We conclude that exogenous H
2
S plays a critical role in improving cardiac mitochondrial function in diabetes by upregulating SIRT3.
...
PMID:Exogenous H
2
S reduces the acetylation levels of mitochondrial respiratory enzymes via regulating the NAD
+
-SIRT3 pathway in cardiac tissues of
db/db
mice. 3118 32
