UNIPROT:Q9UMR3 - FACTA Search

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Query: UNIPROT:Q9UMR3 (NMR)
150,598 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Young and aged rats were subjected to cerebrovascular insufficiency (CVI) for 3 and 9 weeks. At the end of each time period, local cerebral blood flow (lCBF), spatial memory function, 31P- and 1H-NMR spectroscopy and imaging of the brains were evaluated in vivo. Morphometric counts of CA1 hippocampal neuron damage and staining for glial fibrillary acidic protein (GFAP) were done post-mortem. Results show that after 3 weeks of CVI, cortical and hippocampal lCBF was significantly reduced in young and aged animals respectively. In addition, young and aged rats at 3 weeks following CVI showed spatial memory deficits in the Morris water maze and elevation of 31P-phosphomonoester as measured by non-invasive NMR spectroscopy. At the same time period, in vivo 1H-microimaging (MRI) of brains showed areas of high signal intensity (suggesting local edema) localized asymmetrically to the right hippocampal region in young and aged CVI rats. Morphometry of the hippocampal CA1 sector at post-mortem confirmed the in vivo MRI changes and demonstrated that a significant percentage of the CA1 pyramidal cells were damaged after CVI. Nine weeks after CVI, hippocampal CBF reductions, spatial memory impairment, spectroscopic-microimaging changes and CA1 sector cell damage continued to be observed in the aged animals but were resolved in the young rat brains. In addition, GFAP immunoreaction progressively increased in the hippocampus of aged rats subjected to CVI for 9 weeks. It is concluded that cognitive, metabolic and morphologic damage was significantly more severe and longer lasting in aged than young rat brain after chronic CVI. The deficits observed in this rat model appear to mimic the early pathology reported in Alzheimer's disease and suggest that the present model could provide fundamental clues relative to the etiology and possible management of this dementia.
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PMID:Chronic cerebrovascular insufficiency induces dementia-like deficits in aged rats. 132 2

A precipitation experiment was performed with human serum to model aluminosilicate formation in brains of patients with Alzheimer disease. Aluminum and (or) silicate ions were added to serum in a 1:2 molar ratio at pH 7.4. Precipitates formed immediately and were left for 24 h at 37 degrees C before filtration. Silicate and aluminosilicate formed precipitates with human serum proteins albumin, transferrin, and IgG. In untreated samples, the IgG/albumin ratio increased slightly compared with the ratio in dried serum. Diethylbarbiturate-washed precipitates had a significantly lower protein content than did untreated ones. The IgG/albumin ratio increased considerably in the sample containing aluminosilicate. We conclude that IgG is the sodium dodecyl sulfate-soluble human protein most firmly bound to the aluminosilicate matrix. From 27Al magic-angle-spinning nuclear magnetic resonance (MAS NMR), a pronounced peak was found at 52.79 ppm and a minor peak at 0.53 ppm, suggesting that 4-coordinated aluminum predominates and that 6-coordinated aluminum is present in a smaller proportion. The 29Si MAS NMR spectrum shows a poorly ordered structure. The aluminosilicate formed also contains the cations Na+ > K+ > Ca2+ > Mg2+ and anions Cl- > PO4(3-). Rather than looking for aluminum toxicity to explain the effects of Alzheimer disease, one should consider that by precipitating such a composite phase, the balance of cations, anions, and proteins in human serum is changing.
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PMID:Precipitation and characterization of an aluminosilicate from AlCl3-Na2SiO3-HCl in serum, of interest for Alzheimer disease. 139 86

A number of studies have demonstrated alterations in the structure and function of the frontal cortex in some schizophrenic patients. The possible etiology and pathogenesis of these abnormalities are unknown, but genetic and developmental causes are frequently mentioned. Recent in vivo 31P NMR studies of the dorsal prefrontal cortex have been conducted in eleven neuroleptic naive, first episode schizophrenic patients and compared with normal controls of comparable age, educational level and parental educational level. The findings in the schizophrenic patients are different from those of normal IQ adult autistic patients of comparable age and Alzheimer's patients but similar to normal elderly controls. These studies show decreased frontal lobe utilization of adenosine triphosphate in the schizophrenic patients which suggests a hypoactive dorsal prefrontal cortex. In addition, indices of membrane phospholipid metabolism are altered in the schizophrenic patients. However, the findings in the schizophrenic patients are quite similar to those observed in normal elderly controls and to those that normally occur to a lesser degree during adolescence. The phospholipid alterations observed in the schizophrenic patients are compatible with either premature aging or altered timing and exaggeration of the regressive events which occur during normal brain development. The changes in high-energy phosphate metabolism observed in the schizophrenic patients may prove to be state dependent, but the changes in membrane phospholipid metabolism could be related to molecular changes that precede the onset of clinical symptoms and brain structural changes in schizophrenia. These findings suggest new avenues of thinking about the pathogenesis and treatment of schizophrenia.
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PMID:Molecular insights into schizophrenia. 152 18

Certain precursor proteins (APP751 and APP770) of the amyloid beta-protein (AP) present in Alzheimer's disease contain a Kunitz-type serine protease inhibitor domain (APPI). In this study, the domain is obtained as a functional inhibitor through both recombinant (APPIr) and synthetic (APPIs) methodologies, and the solution structure of APPI is determined by 1H 2D NMR techniques. Complete sequence-specific resonance assignments (except for P13 and G37 NH) for both APPIr and APPIs are achieved using standard procedures. Ambiguities arising from degeneracies in the NMR resonances are resolved by varying sample conditions. Qualitative interpretation of short- and long-range NOEs reveals secondary structural features similar to those extensively documented by NMR for bovine pancreatic trypsin inhibitor (BPTI). A more rigorous interpretation of the NOESY spectra yields NOE-derived interresidue distance restraints which are used in conjunction with dynamic simulated annealing to generate a family of APPI structures. Within this family, the beta-sheet and helical regions are in good agreement with the crystal structure of BPTI, whereas portions of the protease-binding loops deviate from those in BPTI. These deviations are consistent with those recently described in the crystal structure of APPI (Hynes et al., 1990). Also supported in the NMR study is the hydrophobic patch in the protease-binding domain created by side chain-side chain NOE contacts between M17 and F34. In addition, the NMR spectra indicate that the rotation of the W21 ring in APPI is hindered, unlike Y21 in BPTI, showing a greater than 90% preference for one orientation in the hydrophobic groove.
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PMID:Sequential NMR resonance assignment and structure determination of the Kunitz-type inhibitor domain of the Alzheimer's beta-amyloid precursor protein. 171 21

The formation of insoluble proteinaceous deposits is characteristic of many diseases which are collectively known as amyloidosis. There is very little molecular-level structural information available regarding the amyloid deposits due to the fact that the constituent proteins are insoluble and noncrystalline. Therefore, traditional protein structure determination methods such as solution NMR and X-ray crystallography are not applicable. We report herein the application of the solid-state NMR technique rotational resonance (R2) to the accurate measurement of carbon-to-carbon distances in the amyloid formed from a synthetic fragment (H2N-LeuMetValGlyGlyValValIleAla-CO2H) of the amyloid-forming protein of Alzheimer's disease (AD). This sequence has been implicated in the initiation of amyloid formation. Two distances measured by R2 indicate that an unusual structure, probably involving a cis amide bond, is present in the aggregated peptide amyloid. This structure is incompatible with the accepted models of fibril structure. A relationship between this structure and the stability of the amyloid is proposed.
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PMID:An unusual peptide conformation may precipitate amyloid formation in Alzheimer's disease: application of solid-state NMR to the determination of protein secondary structure. 193 62

Tacrine (THA) is a potent cholinesterase inhibitor being studied for the treatment of Alzheimer's disease. The metabolism and excretion of THA were studied in rats following a single oral dose of 20 mg/kg of THA. The results show THA was extensively metabolized in rats after oral administration. Three major urinary metabolites were isolated by HPLC on a semi-prep analytical phenyl column, and subsequent purification of the individual fractions on a semi-prep analytical cyano column. The major metabolic pathways involve the hydroxylation of the saturated ring at positions 1, 2, and 4. The structures of the metabolites 9-amino-1,2,3,4-tetrahydroacridin-1-ol (1-OH-THA), 9-amino-1,2,3,4-tetrahydroacridin-2-ol (2-OH-THA), and 9-amino-1,2,3,4-tetrahydroacridin-4-ol (4-OH-THA) were determined by electron impact mass spectrometry and/or 1H-NMR, and compared with synthetic references. The urinary excretion of THA and metabolites was quantitated by HPLC with UV detection. About 60% of the oral dose was eliminated as total THA, 1-OH-THA, 2-OH-THA, and 4-OH-THA over a 48-hr collection interval; and the non-conjugated THA and hydroxylated metabolites accounted for 45% of the dose.
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PMID:Identification of the urinary metabolites of tacrine in the rat. 198 36

2,6-Diaminotoluene (2,6-DAT) is a major industrial chemical; approximately 100 million pounds are used annually in the synthesis of 2,6-toluene diisocyanate. 2,6-DAT is mutagenic in Salmonella typhimurium TA98 requiring metabolic activation, but has been previously shown to be a noncarcinogen in male and female F344 rats and male and female 86C3F1 mice dosed orally in 2-year bioassays. 2,6-DAT was rapidly and extensively absorbed following oral administration, indicating that its lack of carcinogenicity is not due to poor absorption from the gastrointestinal tract. 2,6-DAT was also rapidly excreted, with 85% of 2,6-DAT-associated radioactivity being recovered in the urine within 24 hr. Resolution of the urine by reverse phase HPLC demonstrated the presence of four metabolites, but none of the parent 2,6-DAT. Therefore, the lack of carcinogenicity of 2,6-DAT is not due to lack of biotransformation in vivo. Following separation by HPLC, the metabolites were analyzed by electron impact and fast atom bombardment mass spectroscopy and by NMR spectroscopy. The metabolites were identified as a) 3-hydroxy-2,6-DAT, b) 4-hydroxy-2-acetylamino-6-aminotoluene, c) 2-acetylamino-6-aminotoluene, and d) 2,6-di(acetylamino)-toluene. Metabolites b and d were found to be mutagenic in Salmonella typhimurium TA98 and then only in the presence of an activation system. Results of this study indicate that 2,6-DAT, which is a mutagen in in vitro tests, is also metabolized by the rat to compounds which are proximate mutagens.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolism, disposition, and mutagenicity of 2,6-diaminotoluene, a mutagenic noncarcinogen. 257 96

We used in vivo phosphorus 31 nuclear magnetic resonance (31P NMR) spectroscopy to study regional high-energy phosphate and phospholipid metabolism in brains of patients with dementia associated with probable Alzheimer's disease (AD) and multiple subcortical cerebral infarctions (MSID). The MSID patients demonstrated elevations of the phosphocreatine (PCr)/inorganic orthophosphate (Pi) ratio in both the temporoparietal and frontal regions. Phosphomonoesters (PME) and the ratio of PME to phosphodiesters were elevated in the temporoparietal region of AD. Pi was also elevated in the frontal and temporoparietal regions of AD. Findings from 31P NMR were accurate in distinguishing MSID from AD. Values of PCr/Pi accurately classified 100% of the MSID patients and 92% of AD. Pi and PME, considered jointly, also accurately classified all MSID and all but 1 AD. Findings from in vivo 31P NMR spectroscopy appear to yield metabolic profiles useful in distinguishing AD from MSID.
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PMID:In vivo 31P NMR profiles of Alzheimer's disease and multiple subcortical infarct dementia. 281 17

The (F-18) fluorodeoxyglucose (FDG) technique to measure local cerebral metabolic rate for glucose (LCMRglu) is well accepted and widely used by many institutions around the world. A large number of studies has been carried out in normal volunteers and patients with a variety of CNS disorders. Several investigators have noted that no significant age-related changes in cerebral glucose use occur with normal aging. Some important and interesting findings have been revealed following sensory, motor, visual, and auditory stimulations. Functional imaging with FDG in certain neurologic disorders has dramatically improved our understanding of their underlying pathophysiologic phenomena. Some abnormalities detected on the positron emission tomography (PET) images have no corresponding changes on either x-ray computed tomograms (XCT) or magnetic resonance images (MRI). In patients with Alzheimer's disease, primary sensorimotor, visual, and cerebellar metabolic activity appears relatively preserved. In contrast, parietal, temporal, and to some degree, frontal glucose metabolism is significantly diminished even in the early stages of the disease. Patients with Huntington's disease and those at risk of developing this disorder have a typical pattern of diminished CMRglu in the caudate nuclei and putamen. In patients with stroke, PET images with FDG have demonstrated abnormal findings earlier than either XCT or MRI and with a wider topographic distribution. FDG scans have revealed interictal zones of decreased LCMRglu in approximately 70% of patients with partial epilepsy. The location of the area of hypometabolism corresponds to the site of the epileptic focus as determined by electroencephalography and microscopic examination of the resected tissue. Ictal scans during partial seizures demonstrate areas of hypermetabolism corresponding to the sites of seizure onset and spread. Several investigators have reported relative hypofrontal CMRglu in patients with schizophrenia. In our center, FDG scans from patients with schizophrenia were successfully differentiated from those obtained in normal controls. Finally, our preliminary data (using PET, XCT, and MRI) in patients with CNS disorders indicate that MRI provides excellent delineation of the structural abnormalities. It may prove to be superior to XCT in the evaluation of certain diseases such as cerebral ischemia and infarcts, head injury, tumors, and white matter lesions. Metabolic imaging with FDG provides functional information not obtainable with either MRI or NMR spectroscopy. Therefore, PET studies will play a complementary role to the anatomic imaging in the management of patients with CNS disorders.
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PMID:Positron emission tomography imaging of regional cerebral glucose metabolism. 293 38

Proton NMR imaging of the brain is rapidly becoming established as a useful investigative tool in medicine. This paper examines the usefulness of the NMR parameters--spin-lattice relaxation time (T1) and proton density (PD)--in differentiating groups of patients with senile dementia of Alzheimer type (SDAT) and multi-infarct dementia (MID) from each other, and from elderly controls. T1 values increase with severity of dementia. NMR parameters may also be of use in localising regions of brain damage.
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PMID:Nuclear magnetic resonance (NMR). II. Imaging in dementia. 298 17

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