Direct sequencing of human mitochondrial tRNALysshows the absence of editing and the occurrence of six modified nucleotides (m1A9, m2G10, Psi27, Psi28 and hypermodified nucleotides at positions U34 and A37). This tRNA folds into the expected cloverleaf, as confirmed by structural probing with nucleases. The solution structure of the corresponding in vitro transcript unexpectedly does not fold into a cloverleaf but into an extended bulged hairpin. This non-canonical fold, established according to the reactivity to a large set of chemical and enzymatic probes, includes a 10 bp aminoacyl acceptor stem (the canonical 7 bp and 3 new pairs between residues 8-10 and 65-63), a 13 nt large loop and an anticodon-like domain. It is concluded that modified nucleotides have a predominant role in canonical folding of human mitochondrial tRNALys. Phylogenetic comparisons as well as structural probing of selected in vitro transcribed variants argue in favor of a major contribution of m1A9 in this process.
Compared to subjects with European backgrounds, those with non-European backgrounds had 2.1-2.3 times higher primary SS prevalence and were younger (P < 0.0001) and were more likely to have polyclonal hypergammaglobulinemia (P < 0.0001) and anti-SSA/SSB antibodies (P ؍ 0.0005 and P < 0.0001 for the AECG and enlarged criteria, respectively). Conclusion. The figure of 1.02-1.52 cases per 10,000 adults we found and estimates from the few other population-based census surveys support that the prevalence of diagnosed primary SS is between 1 and 9 cases per 10,000 people (0.01-0.9%) in the general population. Non-European race/ethnicity may be associated with increased primary SS risk and a distinct disease profile.
Reported cases of carnitine palmitoyltransferase II (CPT II) deficiency are characterized only by a muscular symptomatology in young adults although the defect is expressed in extramuscular tissues as well as in skeletal muscle. We describe here a CPT II deficiency associating hypoketotic hypoglycemia, high plasma creatine kinase level, heart beat disorders, and sudden death in a 3-mo-old boy. CPT II defect (-90%) diagnosed in fibroblasts is qualitatively similar to that (-75%) of two "classical" CPT II-deficient patients previously studied: It resulted from a decreased amount of CPT II probably arising from its reduced biosynthesis. Consequences of CPT II deficiency studied in fibroblasts differed in both sets of patients. An impaired oxidation of long-chain fatty acids was found in the proband but not in patients with the "classical" form of the deficiency. The metabolic and clinical consequences of CPT II deficiency might depend, in part, on the magnitude of residual CPT II activity. With 25% residual activity CPT II would become rate limiting in skeletal muscle but not in liver, heart, and fibroblasts. As observed in the patient described herein, CPT II activity ought to be more reduced to induce an impaired oxidation of long-chain fatty acids in these tissues. (J. Clin. Invest.
This study analyzed the temporal and regional variations in bone loss and explored bone cell activities via biochemical markers during an extended follow-up in patients with spinal cord injury (SCI). In parallel, the possible role of the osteoprotegerin (OPG)/RANKL system in disuse osteoporosis was investigated. Seven male patients with acute and complete SCI (31.3 +/- 9.5 years) and 12 able-bodied (AB) men (26.9 +/- 4.2 years) participated in the study. Measurements were performed 16, 24, 36, 48, and 71 weeks after injury. At week 16, marked calcium homeostasis disturbance and a concomitant increase in bone resorption markers were observed, reflecting an intense bone degradation process. Resorption activity decreased continuously with time. Contrasting with the great rise in the resorption markers, the bone formation markers showed little variation. During the period of investigation, a loss in bone mineral density (BMD) was demonstrated for the total body (-4.3%), pelvis (-15.7%) and lower limbs (-15.2%), whereas BMD did not change at the lumbar spine, upper limbs, or skull. At all stages, SCI patients had lower serum RANKL levels and higher serum OPG levels than did AB controls, but no significant variation with time was observed for either cytokine. These findings suggest that bone resorption persisted long after SCI and specifically affected BMD at sublesional sites. The marked modification of serum OPG/RANKL levels in SCI patients suggests that this system is affected, in disuse osteoporosis. However, the precise biologic role of the OPG/RANKL system in the bone tissue of SCI patients has yet to be determined.
Epoxide hydrolase and three cytochrome P-450 isozymes were immunochemically determined in microsomes from adult and fetal human liver and tentatively correlated with some enzyme activities. The P-450 isozymes 5, 8 and 9 present in adult liver could not be positively correlated with the total cytochrome P-450 concentration spectrophotometrically determined. In fetal liver microsomes, isozyme 8 could not be detected by either electrophoretic or immunochemical procedures. Isozyme 5 was the major isozyme present in the fetal liver and its concentration increased in close relation with the total P-450 level. As shown previously, arylhydrocarbon hydroxylase activity was related to the concentration of isozyme 8 in adult liver. In fetal preparations, the absence of isozyme 8 was associated with a very low arylhydrocarbon hydroxylase activity. Aldrin epoxidase and benzphetamine-N-demethylase activities were correlated with isozyme 5 concentration, but with different slopes for adult and fetal microsomes: adult preparations catalyzed these two reactions more efficiently. Conversely, the dehydroepiandrosterone 16B-hydroxylase, also associated with isozyme 5 concentration, was more active in fetal than in adult microsomes. Moreover, if acetanilide hydroxylase increased with isozyme 5 concentration in adult samples, no correlation occurred between activity and P-450 isozyme level in fetal microsomes. Hydroxylations of lauric acid in positions 11 and 12 and of dehydroepiandrosterone in position 16a increased with total P-450 concentration but not with isozyme concentrations whatever the age considered. Lastly, epoxide hydrolase activity towards benzopyrene 4,5-oxide was closely associated with its immunochemically determined level. These results clearly suggest that multiple mechanisms are involved in the regulation of different drug-metabolizing enzymes in the human fetus.The metabolism of xenobiotics by hepatic enzymes is now well documented. Hydrophobic molecules are transformed by a multistep system which allows their elimination as watersoluble forms: this biotransformation leads first to the formation of a hydroxylated molecule (phase I) which is conjugated with UDP-glucuronic acid, sulfate or glutathione (phase 11). The major component involved in the oxidative process is cytochrome P-450. Multiple cytochromes P-450 have been shown to be present in the liver of laboratory animals and are characterized by an overlapping substrate specificity. Moreover, these isozymes of cytochrome P-450 can be differently affected by the pretreatment with some inducers [l].In man, P-450-related monooxygenase activities have been measured in microsomes from samples obtained from biopsies, from autopsies, or from donors for renal transplantation
Abstract. The authors report 2 familial cases of neonatal congenital lactic acidosis with pyruvate carboxylase deficiency in the liver. In both cases, disorders started immediately after birth and were characterized by major neurological symptoms, acute metabolic acidosis with hyperketonemia and hyperammonemia. Course was rapidly fatal despite intensive care, bicarbonate therapy and several therapeutic attempts with biotin and thiamine. Hyperlactacidemia was associated with dramatic increase in lactate/pyruvate ratio, without anoxia, in contrast with decreased β hydroxybutyrate/acetoacetate ratio. This unusual metabolic pattern may be assumed to result from decreased oxaloacetate synthesis as a result of pyruvate carboxylase deficiency, and impairment of oxaloacetate dependent mitochondrial redox shuttles. Post mortem enzymatic study of the liver and kidney showed biotin unresponsive total deficiency of pyruvate carboxylase. Other gluconeogenic enzyme activities were normal.
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