Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:1.9.3.1 (
cytochrome oxidase
)
8,822
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Sudden infant death syndrome (SIDS) occurs silently usually during sleep and, though remaining unexplained after autopsy, leaves footprints creating a pattern analogous to that which follows a flood of nitric acid (NO). These footprints in SIDS are associated with serious pathological changes, viz. elevated hepatic iron, bone marrow hyperplasia, hypomyelinated respiratory control centres, elevated lung immunoglobulins, cerebral hypoperfusion resembling lesions induced by chronic hypoxemia, ischemia, congenital heart disease and congenital myopathy. Hypoxia stimulates the immune response and the over-arousal of the immune response triggers a flood of NO. Adenosine triggers sleep. NO and adenosine are additive as dilators of coronary blood vessels. Blood pressure collapses. Selenium increases the activity of the enzyme ferrochelatase during incorporation of heme into
cytochrome oxidase
. NO binds to
cytochrome oxidase
, inhibiting respiration. When NO reaches dangerous levels, the cell turns on production of
heme oxygenase
. Heme is broken down to iron (Fe) carbon monoxide (CO) and bile pigments. NO has a huge affinity for hemoglobin which catalyses NO degradation to nitrate. Furthermore, NO is a product of smoke and SIDS incidence is higher in smoking mothers.
...
PMID:Association of sudden infant death syndrome with grossly deranged iron metabolism and nitric oxide overload. 1079 Jul 39
This review examines the influence of endogenous and exogenous carbon monoxide (CO) on the cerebral circulation. Although CO generated from neuronal
heme oxygenase
can modulate neurotransmission, evidence supporting its role in cerebral vasodilation is limited. In newborn piglets,
heme oxygenase
is enriched in microvessels and contributes to hypoxic vasodilation. Low CO concentrations dilate piglet arterioles by opening calcium-activated potassium channels. With inhalation of CO and formation of carboxyhemoglobin, cerebral vasodilation can be greater than that occurring with hypoxic hypoxia at equivalent reductions of arterial oxygen content. This additional vasodilation is probably attributable to additional release of hypoxic vasodilators secondary to increased oxyhemoglobin affinity, although direct effects of CO on cerebral arterioles may also occur. When CO exposure is prolonged, cerebral endothelium undergoes oxidant stress as evident by nitrotyrosine formation. As CO levels increase, modest decreases in oxygen consumption are detectable, which may reflect CO or nitric oxide interactions with
cytochrome oxidase
in regions with very low oxygen availability. If subsequent CO concentration increases sufficiently to depress cardiac function and limit cerebral perfusion, cerebral oxygen consumption becomes further reduced, and oxidant stress becomes amplified by leukocyte sequestration and xanthine oxidase activity with consequent lipid peroxidation. Specific regions of the brain, such as central white matter, globus pallidus, and hippocampus, are selectively vulnerable to CO toxicity, but whether the mechanisms involved in selective injury differ from other forms of hypoxia-ischemia needs to be clarified.
...
PMID:Cerebrovascular effects of carbon monoxide. 1200 79
Heme is a common factor linking several metabolic perturbations in Alzheimer's disease (AD), including iron metabolism, mitochondrial
complex IV
,
heme oxygenase
, and bilirubin. Therefore, we determined whether heme metabolism was altered in temporal lobes obtained at autopsy from AD patients and age-matched nondemented subjects. AD brain demonstrated 2.5-fold more heme-b (P < 0.01) and 26% less heme-a (P = 0.16) compared with controls, resulting in a highly significant 2.9-fold decrease in heme-a/heme-b ratio (P < 0.001). Moreover, the strong Pearson correlation between heme-a and heme-b measured in control individuals (r(2) = 0.66, P < 0.002, n = 11) was abolished in AD subjects (r(2) = 0.076, P = 0.39, n = 12). The level of ferrochelatase (which makes heme-b in the mitochondrial matrix) in AD subjects was 4.2 times (P < 0.04) that in nondemented controls, suggesting up-regulated heme synthesis. To look for a possible connection between these observations and established mechanisms in AD pathology, we examined possible interactions between amyloid beta (A beta) and heme. A beta((1-40)) and A beta((1-42)) induced a redshift of 15-20 nm in the spectrum of heme-b and heme-a, suggesting that heme binds A beta, likely to one or more of the histidine residues. Lastly, in a tissue culture model, we found that clioquinol, a metal chelator in clinical trials for AD therapy, decreased intracellular heme. In light of these observations, we have proposed a model of AD pathobiology in which intracellular A beta complexes with free heme, thereby decreasing its bioavailability (e.g., heme-a) and resulting in functional heme deficiency. The model integrates disparate observations, including A beta, mitochondrial dysfunction, cholesterol, and the proposed efficacy of clioquinol.
...
PMID:A role for heme in Alzheimer's disease: heme binds amyloid beta and has altered metabolism. 1526 70
Activity of the key enzyme of the cytochrome part of the respiratory chain--
cytochrome oxidase
, quantitative redistribution of mitochondrial cytochromes b, c1, c and aa3, activity of the key enzymes of cytochromes' heme metabolism--delta-aminolevulinate synthase and
heme oxygenase
under conditions of acetaminophen-induced hepatitis against the background of alimentary deprivation of protein were studied. It was found out, that under conditions of acetaminophen-induced hepatitis against the background of alimentary deprivation of protein, an inhibition of
cytochrome oxidase
activity and a decrease in the quantitative content of mitochondrial cytochromes against the background of the increase in the delta-aminolevulinate synthase and
heme oxygenase
activity are observed. In animals with toxic liver injury, maintained under conditions of alimentary deprivation of protein, a progressive decrease in the quantitative content of mitochondrial cytochromes b, c1, c and aa3 against the background. of the increase in
heme oxygenase
activity and preservation of delta-aminolevulinate synthase activity on the control level is identified. The conclusion was made, that alimentary deprivation of protein is a critical factor for the development of the disturbances of structural-functional integrity of the cytochromic part of the respiratory chain. The identified changes may be considered as one of the possible mechanisms of energy biotransformation system disturbances under conditions of alimentary deprivation of protein.
...
PMID:[Peculiarities of the Structural-Functional State of the Cytochrome Part of Liver Mitochondrial Respiratory Chain under Conditions of Acetaminophen-induced Hepatitis against the Background of Alimentary Deprivation of Protein]. 2634 15
