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Enzyme
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Pivot Concepts:
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Target Concepts:
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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Rats were rendered hypertensive by clamping one renal artery. Both kidneys remained in situ ('two-kidney one-clip Goldblatt hypertension'). Half of the animals were simultaneously castrated. 18-24 weeks after the operation both castrated females and males had a lower level of
hypertension
than the uncastrated controls. The kidneys of castrates contained less connective tissue (measured as the content of hydroxyproline) and long-chain (C-18) fatty acids and had a higher specific activity of the enzyme N-acetylating p-aminohippurate (
N-acetyltransferase
) than those of uncastrated rats. Thus, castration seems to alleviate some renal effects of the Goldblatt hypertension. In all animals the clamped kidney contained more hydroxyproline and C-18 fatty acids and had a lower
N-acetyltransferase
activity than the contralateral untouched organ. These results are in accordance with the theory that renal fatty acid concentration interferes directly with the
N-acetyltransferase
activity of the kidney. The enhanced hydroxyproline content of the kidneys (nephrosclerosis) inhibits N-acetylation most probably indirectly by raising the tissue concentration of C-18 fatty acids.
...
PMID:Effect of castration on the experimental renal hypertension of the rat. Blood pressure, nephrosclerosis, long-chain fatty acids, and N-acetylation of PAH in the kidney. 400 Mar 42
Hereditary peculiarities in individual responses to environmental chemicals are a common occurrence in human populations. Genetic variation in glutathione S-transferase, CYP1A2,
N-acetyltransferase
, and paraoxonase exemplify the relationship of metabolic variation to individual susceptibility to cancer and other toxicants of environmental origin. Heritable receptor protein variants, a subset of proteins of enormous pharmacogenetic potential that have not thus far been extensively explored from the pharmacogenetic standpoint, are also considered. Examples of interest that are considered include receptor variants associated with retinoic acid resistance in acute promyelocytic leukemia, with paradoxical responses to antiandrogens in prostate cancer, and with retinitis pigmentosa. Additional heritable protein variants of pharmacogenetic interest that result in antibiotic-induced deafness, glucocorticoid-remediable aldosteronism and
hypertension
, the long-QT syndrome, and beryllium-induced lung disease are also discussed. These traits demonstrate how knowledge of the molecular basis and mechanism of the variant response may contribute to its prevention in sensitive persons as well as to improved therapy for genetically conditioned disorders that arise from environmental chemicals.
...
PMID:Influence of heredity on human sensitivity to environmental chemicals. 778 56
What is the effect of melatonin on jet lag syndrome? Jet lag desynchronizes the internal sleep-wakefulness cycle with the environmental light/dark cycle. Advance (but not delay) of light onset is known to abolish pineal
N-acetyltransferase
activity and urine excretion of 6-sulphatoxymelatonin. Measurements of pineal serotonin, the substrate of melatonin biosynthesis; N-acetylserotonin (NAS), the immediate melatonin precursor; and melatonin (high-performance liquid chromatography-fluorimetric method) in the animal (rat) model of jet lag revealed that prolonged delay of dark-phase onset disrupted the rhytms in comparable ways as the advance of light-phase onset. Advance of dark phase onset resulted in less severe disturbances of rhythms as compared with the advance of light phase onset. Melatonin, but not NAS, injections at the beginning of a new dark period accelerated recovery of NAS and melatonin, but not serotonin, rhythms. Spontaneously hypertensive rats were more sensitive to advance of light onset and less responsive to melatonin injections than normotensive rats. NAS and methylene blue, an inhibitor of monoamine oxidase A, attenuated light-induced disruption of NAS but not melatonin rhythms. We draw the following conclusions from our data: the beginning of the dark period may be preferable to the beginning of light period as the arrival time on eastward flights; the efficacy of melatonin in alleviating jet lag may be enhanced by administering it before, during and after rapid transition through time zones; and
hypertension
may exaggerate jet lag syndrome.
...
PMID:Melatonin and jet lag syndrome: experimental model and clinical implications. 1261
Recent findings from human and animal studies indicate that maternal undernutrition or overnutrition affects covalent modifications of the fetal genome and its associated histones that can be carried forward to subsequent generations. An adverse outcome of maternal malnutrition is the development of metabolic syndrome, which is defined as a cluster of disorders including obesity, hyperglycemia, hyperinsulinemia, hyperlipidemia,
hypertension
and insulin resistance. The transgenerational impacts of maternal nutrition are known as fetal programming, which is mediated by stable and heritable alterations of gene expression through covalent modifications of DNA and histones without changes in DNA sequences (namely, epigenetics). The underlying mechanisms include chromatin remodeling, DNA methylation (occurring at the 5'-position of cytosine residues within CpG dinucleotides), histone modifications (acetylation, methylation, phosphorylation, ubiquitination and sumoylation) and expression and activity of small noncoding RNAs. The enzymes catalyzing these reactions include S-adenosylmethionine-dependent DNA and protein methyltransferases, DNA demethylases, histone acetylase (lysine acetyltransferase), general control nonderepressible 5 (GCN5)-related
N-acetyltransferase
(a superfamily of acetyltransferase) and histone deacetylase. Amino acids (e.g., glycine, histidine, methionine and serine) and vitamins (B6, B12 and folate) play key roles in provision of methyl donors for DNA and protein methylation. Therefore, these nutrients and related metabolic pathways are of interest in dietary treatment of metabolic syndrome. Intervention strategies include targeting epigenetically disturbed metabolic pathways through dietary supplementation with nutrients (particularly functional amino acids and vitamins) to regulate one-carbon-unit metabolism, antioxidative reactions and gene expression, as well as protein methylation and acetylation. These mechanism-based approaches may effectively improve health and well-being of affected offspring.
...
PMID:Nutritional epigenetics with a focus on amino acids: implications for the development and treatment of metabolic syndrome. 2642 99
