EC:3.1.27.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the human brain, alternative splicing of amyloid precursor protein (APP) gene transcript generates at least three types of mRNA coding for APP770, APP751 and APP695. The former two types harbor, but the latter one lacks a domain of Kunitz-type serine protease inhibitor (KPI). We studied, by using the RNase protection technique, the expression of APP mRNAs in brains of Alzheimer's disease (AD) and other neurological disorders with special reference to aging. We found that the ratio of (APP770 mRNA+APP751 mRNA)/APP695 mRNA in the frontal cortex increased approximately 1.5-fold in AD compared with other neurodegenerative or cerebrovascular disorders. The ratio in other neurological disorders did not change significantly from control even in their affected brain regions. On the other hand, we found a positive correlation between the ratio and age; the ratio (y) increased gradually with the advance of age (x) as expressed by y = 0.005x + 0.014 (r = 0.372) for the AD group, and y = 0.004x -0.037 (r = 0.486) for the non-AD group. These correlations indicate that the AD brain reached the same ratio of KPI-harboring to lacking APP mRNAs a few decades earlier than the non-AD brain in senescence. This finding of AD-specific and age-related change led us to the idea that a relative increase in KPI-harboring APPs over a KPI-lacking APP may perturb normal degradation of APPs, thereby leading to deposition of beta A4 protein as amyloid.
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PMID:Age-related changes in the proportion of amyloid precursor protein mRNAs in Alzheimer's disease and other neurological disorders. 133 85

Despite increasing evidence for a pathogenetic role for the beta-amyloid precursor protein (beta APP) in Alzheimer disease, the physiological function of the protein remains unclear. The expression of the neural-specific isoform containing 695 amino acids, beta APP695, is consistent with a role for the protein in neuronal development. In this study, we analyzed the expression of beta APP during the retinoic acid-induced neuronal differentiation of P19 murine embryonal carcinoma cells. Northern blot and RNase protection analyses show a selective increase in beta APP695 expression, concomitant with the morphologic differentiation of P19-derived neurons. Moreover, the time course of increase observed for the beta APP695 mRNA is paralleled by other neuronal-specific transcripts. A similar increase in beta APP695 is observed at the protein level. Furthermore, we show that levels of beta APP695 protein progressively increase during the in vitro differentiation of primary hippocampal neurons. The finding that beta APP695 increases selectively and progressively during neuronal differentiation in two different cell culture systems suggests that this isoform has an important cellular function during this process in the brain. Unlike beta APP in most peripheral cell types, the increased levels of beta APP found in terminally differentiated neuronal cells are not processed in significant amounts by secretory cleavage. Thus, differentiation of neurons is accompanied by increased beta APP695 expression and membrane retention of the protein as intact, full-length molecules that could serve as potential substrates for amyloidogenesis.
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PMID:Increased expression of beta-amyloid precursor protein during neuronal differentiation is not accompanied by secretory cleavage. 140 54

Deposition of amyloid beta-protein in senile plaque cores and cerebral vessels is a major neuropathological finding of Alzheimer's disease (AD). Three species of cDNA clones encoding amyloid beta-protein precursors (APP 695, APP 751 and APP 770) were isolated and sequenced. We examined quantitatively the expression of these APP mRNAs in autopsied brains (frontal cortex) of AD patients and control subjects, using Northern blot analysis and the ribonuclease protection assay. Northern blot analysis revealed the production of three types of APP mRNA in the human brain and that AD/control ratios were 2.04 for APP 770 mRNA, 1.11 for APP 751 mRNA and 1.12 for APP 695 mRNA. In the protection assay the ratio of APP 770/APP 751/APP 695 mRNA was approximately 1:10:20 in the brain of control and the AD/control ratios were 2.38, 1.30 and 0.81 for APP 770, APP 751 and APP 695 mRNAs, respectively. These results suggested that an increase in APP 770 and APP 751, harboring a protease inhibitor domain, may disturb the balance between biosynthesis and degradation of APPs, which might lead to amyloid deposition.
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PMID:[Expression of amyloid beta-protein gene in Alzheimer's disease]. 211 40

To characterize neuronal gene expression in amyotrophic lateral sclerosis (ALS), we quantitated one glial and three neuronal mRNAs in spinal cords of 7 subjects with ALS and 11 controls. The ALS cases showed no loss of mRNA for the neurofilament light subunit when assessed with in situ hybridization. Northern analysis, and RNase protection assay; and no loss of mRNA for amyloid precursor protein or a growth-associated protein (GAP-43/B-50) on Northern analysis. ALS cords also showed no significant change in glial mRNA. Our findings indicate that expression of these neuronal mRNAs is well maintained in ALS-afflicted spinal cord. They do not support the hypothesis of a generalized impairment of neuronal gene transcription in the pathogenesis of this disorder.
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PMID:Neuronal gene expression in amyotrophic lateral sclerosis. 215 97

Recent studies have indicated a normal gene dose for the amyloid precursor protein (APP) in Alzheimer's disease (AD). These findings leave open the possibility that elevated levels of messenger RNA (mRNA) for this protein may contribute to the pathogenesis of AD. Using Northern analysis, we compared the levels of mRNA for the APP and 3 cytoskeletal proteins in parietal cortex of 6 brains having marked AD-type degeneration with the levels of these mRNAs in 6 control samples. The cytoskeletal mRNAs studied were those for the human neurofilament 68-kDa subunit (HNFL), for alpha-tubulin, and for glial fibrillary acidic protein (GFAP). A ribonuclease (RNase) protection assay was also used to compare AD and control HNFL mRNA levels. The mRNAs for APP, HNFL, and alpha-tubulin were diminished in AD cortex. The decrement for APP mRNA was less than that for HNFL or alpha-tubulin. The message for GFAP in AD cortex showed no loss. The findings support a general deficit in neuronal mRNAs, including that for APP. They do not exclude the possibility of elevated levels of the message for the APP in small neuronal subsets, in subcortical neurons projecting to cortex, or as a generalized phenomenon in earlier stages of the disease.
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PMID:Altered expression of genes for amyloid and cytoskeletal proteins in Alzheimer cortex. 246 80

Expression of three types of mRNA encoding amyloid beta-protein precursor (APP) in various tissues was analysed, using a ribonuclease protection assay, with special reference to Alzheimer's disease (AD). The total content and the proportion of APP mRNAs were specific to each tissue. Among eight tissues examined, the brain was distinct in that the expression level was highest and APP695 mRNA was expressed in abundance. The ratio of APP770/APP751/APP695 mRNAs was approximately 1:10:20 in the cerebral cortex of control brain. The proportions of APP770 mRNA and APP770-plus-APP751 mRNAs increased up to 2.6- and 1.4-fold, respectively, in various regions of AD brain compared with control. The enhanced expression of protease inhibitor-harboring types (APP770 and APP751) may disturb the balance between biosynthesis and degradation of APPs and ultimately lead to accumulation of beta-protein as amyloid.
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PMID:Tissue-specific expression of three types of beta-protein precursor mRNA: enhancement of protease inhibitor-harboring types in Alzheimer's disease brain. 251 87

Recent progresses in DNA technology have made DNA diagnosis possible in clinical laboratories. The diagnosis is characterized by a potential to unveil genetic abnormalities and dispositions in the absence of symptoms, using any tissues not directly affected. Routinization of DNA diagnosis requires nonradioactive probes with sufficient sensitivities for detection and automated systems to use them. These requirements are being met by the latest technology such as polymerase chain reaction (PCR) and time-controlled temperature cyclers. Nonradioactive probes commercially available today, as tested in our laboratory, are not sensitive enough for practical use in single-copy gene analysis, unless combined with PCR. DNA diagnosis is extending to analyses of cDNA or mRNA. Our recent studies using a Northern blot technique and a ribonuclease protection assay indicated that the expression of mRNAs for those amyloid beta-protein precursors that harbor a protease inhibitor increases in the brain of Alzheimer's disease patients.
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PMID:[DNA diagnosis and laboratory tests]. 268 98

One hallmark of Alzheimer disease is the formation in the brain of amyloid plaques containing a small peptide derived from the beta-amyloid precursor protein (APP). The APP gene exhibits a complex pattern of expression in peripheral tissues and in the brain. The entire human APP gene was introduced into embryonic stem (ES) cells by co-lipofection of a 650-kb yeast artificial chromosome (YAC). Three ES lines containing an essentially intact YAC were isolated, and expression of human APP mRNAs at levels comparable to those of endogenous mouse APP transcripts was obtained. A transgenic mouse line was established by germ-line transmission of the APP YAC. RNase protection analysis of human APP mRNAs demonstrated appropriate splicing of the primary APP transcript in ES cells and in the brain of a transgenic animal. These mice may be useful for elucidating the function of the various APP isoforms in vivo.
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PMID:Expression of the human beta-amyloid precursor protein gene from a yeast artificial chromosome in transgenic mice. 824 47

Alternative splicing of a transcript of amyloid precursor protein (APP) gene generates at least three types of mRNA coding for APP770, APP751, and APP695; the former two harbor, while the latter one lacks a Kunitz-type serine protease inhibitor (KPI). We compared, by using the RNase protection technique, APP mRNAs expression between gray and white matters in the frontal lobe, with special reference to Alzheimer's disease (AD) and aging. The proportions (y) of APP770 plus APP751 mRNAs in the white matter were nearly twice as much as those in the gray matter, both in control (non-AD) and AD brains; the difference between the two matters was statistically significant. Furthermore, in the gray matter of control, there was a positive correlation (y = 1.07 x-57.1, r = 0.899) between the age (x) and the proportion (y), but not in the white matter where the proportion varied markedly among individuals. In AD brains, no significant correlation was found in either of the two matters. These results indicated that the APP mRNAs proportion in the gray matter may serve as a molecular index of the brain aging in non-AD persons.
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PMID:Age-related change in the proportion of amyloid precursor protein mRNAs in the gray matter of cerebral cortex. 829 26

Residues P19, L28, C31, and C32 have been implicated (Di Donato A, Cafaro V, D'Alessio G, 1994, J Biol Chem 269:17394-17396; Mazzarella L, Vitagliano L, Zagari A, 1995, Proc Natl Acad Sci USA: forthcoming) with key roles in determining the dimeric structure and the N-terminal domain swapping of seminal RNase. In an attempt to have a clearer understanding of the structural and functional significance of these residues in seminal RNase, a series of mutants of pancreatic RNase A was constructed in which one or more of the four residues were introduced into RNase A. The RNase mutants were examined for: (1) the ability to form dimers; (2) the capacity to exchange their N-terminal domains; (3) resistance to selective cleavage by subtilisin; and (4) antitumor activity. The experiments demonstrated that: (1) the presence of intersubunit disulfides is both necessary and sufficient for engendering a stably dimeric RNase; (2) all four residues play a role in determining the exchange of N-terminal domains; (3) the exchange is the molecular basis for the RNase antitumor action; and (4) this exchange is not a prerequisite in an evolutionary mechanism for the generation of dimeric RNases.
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PMID:Hints on the evolutionary design of a dimeric RNase with special bioactions. 852 Apr 72

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