Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The allele E4 of apolipoprotein E (apoE4), the most prevalent genetic risk factor for Alzheimer's disease, is associated histopathologically with elevated levels of brain amyloid. This led to the suggestion that the pathological effects of apoE4 are mediated by cross-talk interactions with amyloid beta peptide (Abeta), which accentuate the pathological effects of the amyloid cascade. The mechanisms underlying the Abeta-mediated pathological effects of apoE4 are unknown. We have shown recently that inhibition of the Abeta-degrading enzyme neprilysin in brains of wild-type apoE3 and apoE4 mice results in rapid and similar elevations in their total brain Abeta levels. However, the nucleation and aggregation of Abeta in these mice were markedly affected by the apoE genotype and were specifically enhanced in the apoE4 mice. We presently used the neprilysin inhibition paradigm to analyze the neuropathological and cognitive effects that are induced by apoE4 after activation of the amyloid cascade. This revealed that apoE4 stimulates isoform specifically the degeneration of hippocampal CA1 neurons and of entorhinal and septal neurons, which is accompanied by the accumulation of intracellular Abeta and apoE and with lysosomal activation. Furthermore, these neuropathological effects are associated isoform specifically with the occurrence of pronounced cognitive deficits in the ApoE4 mice. These findings provide the first in vivo evidence regarding the cellular mechanisms underlying the pathological cross talk between apoE4 and Abeta, as well as a novel model system of neurodegeneration in vivo that is uniquely suitable for studying the early stages of the amyloid cascade and the effects thereon of apoE4.
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PMID:Activation of the amyloid cascade in apolipoprotein E4 transgenic mice induces lysosomal activation and neurodegeneration resulting in marked cognitive deficits. 1844 46

Expression levels of amyloid beta (Abeta)-degrading enzymes, insulin degrading enzyme (IDE) and neprilysin (NEP), were examined in transgenic mice with Alzheimer's disease-like neuropathology. After the development of first Abeta plaques in transgenic mice brain, cortical mRNA and protein levels of IDE were significantly up-regulated in the transgenic mice compared to their non-transgenic littermates. Up-regulation of IDE mRNA-levels occurred in parallel with increased Abeta40 and Abeta42 production. Additionally, a significant positive correlation was observed between protein levels of IDE and full-length amyloid precursor protein (APP) in the cerebral cortex. mRNA and protein levels of NEP were also nominally up-regulated in Tg mice compared to controls. These data may reflect up-regulation of the IDE and possibly of NEP expression in response to the Abeta accumulation.
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PMID:Increased expression of Abeta degrading enzyme IDE in the cortex of transgenic mice with Alzheimer's disease-like neuropathology. 1845 70

The accumulation of aggregates of amyloidogenic peptides is associated with numerous human diseases. One well studied example is the association between deposition of amyloid beta (Abeta) and Alzheimer's disease. Insulin degrading enzyme and neprilysin are involved in the clearance of Abeta, and presequence peptidase is suggested to play a role in the degradation of mitochondrial Abeta. Recent structural analyses reveal that these three peptidases contain a catalytic chamber (crypt) that selectively encapsulates and cleaves amyloidogenic peptides, hence the name cryptidase. The substrate selectivity of these cryptidases is determined by the size and charge distribution of their crypt as well as the conformational flexibility of substrates. The interaction of Abeta with the catalytic core of these cryptidases is controlled by conformational changes that make the catalytic chambers accessible for Abeta binding. These new structural and biochemical insights into cryptidases provide potential therapeutic strategies for the control of Abeta clearance.
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PMID:Amyloid beta-degrading cryptidases: insulin degrading enzyme, presequence peptidase, and neprilysin. 1847 Apr 79

Epidemiological studies indicate that women have a higher risk of Alzheimer's disease (AD) even after adjustment for age. Though transgenic mouse models of AD develop AD-related amyloid beta (Abeta) and/or tau pathology, gender differences have not been well documented in these models. In this study, we found that female 3xTg-AD transgenic mice expressing mutant APP, presenilin-1 and tau have significantly more aggressive Abeta pathology. We also found an increase in beta-secretase activity and a reduction of neprilysin in female mice compared to males; this suggests that a combination of increased Abeta production and decreased Abeta degradation may contribute to higher risk of AD in females. In contrast to significantly more aggressive Abeta pathology in females, gender did not affect the levels of phosphorylated tau in 3xTg-AD mice. These results point to the involvement of Abeta pathways in the higher risk of AD in women. In addition to comparison of pathology between genders at 9, 16 and 23 months of age, we examined the progression of Abeta pathology at additional age points; i.e., brain Abeta load, intraneuronal oligomeric Abeta distribution and plaque load, in male 3xTg-AD mice at 3, 6, 9, 12, 16, 20 and 23 months of age. These findings confirm progressive Abeta pathology in 3xTg-AD transgenic mice, and provide guidance for their use in therapeutic research.
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PMID:Females exhibit more extensive amyloid, but not tau, pathology in an Alzheimer transgenic model. 1848 10

Traumatic brain injury (TBI) is a risk factor for developing Alzheimer's disease (AD). Additionally, TBI induces AD-like amyloid beta (Abeta) plaque pathology within days of injury potentially resulting from massive accumulation of amyloid precursor protein (APP) in damaged axons. Here, progression of Abeta accumulation was examined using brain tissue from 23 cases with post-TBI survival of up to 3 years. Even years after injury, widespread axonal pathology was consistently observed and was accompanied by intra-axonal co-accumulations of APP with its cleavage enzymes, beta-site APP cleaving enzyme and presenilin-1 and their product, Abeta. However, in marked contrast to the plaque pathology noted in short-term cases post TBI, virtually no Abeta plaques were found in long-term survivors. A potential mechanism for Abeta plaque regression was suggested by the post-injury accumulation of an Abeta degrading enzyme, neprilysin. These findings fail to support the premise that progressive plaque pathology after TBI ultimately results in AD.
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PMID:A lack of amyloid beta plaques despite persistent accumulation of amyloid beta in axons of long-term survivors of traumatic brain injury. 1849 93

The results of recent studies have implicated local inflammation and complement activation as the processes involved in the pathogenesis of age-related macular degeneration (AMD). We have demonstrated that amyloid beta (Abeta), which is deposited in drusen, causes an imbalance in the angiogenesis-related factors in retinal pigment epithelial cells. We have also shown that neprilysin gene-disrupted mice accumulate Abeta, and develop several features of AMD. The purpose of this study was to investigate the mechanisms involved in the development of AMD that are triggered by Abeta. Our results showed that Abeta binds to complement factor I which inhibits the ability of factor I to cleave C3b to inactivated iC3b. Factor H and factor I are soluble complement-activation inhibitors, and preincubation of factor I with Abeta in the presence of factor H abolished the ability of Abeta to cleave C3b, and also abolished the ability of factor I to cleave FGR-AMC. In contrast, Abeta did not affect the function of factor H even after binding. The production of iC3b was significantly decreased when C3b and factor H were incubated with the eyes from neprilysin gene-disrupted mice as compared with when C3b and factor H were incubated with eyes from age-matched wild-type mice. These results suggest that Abeta activates the complement system within drusen by blocking the function of factor I leading to a low-grade, chronic inflammation in subretinal tissues. These findings link four factors that have been suggested to be associated with AMD: inflammation, complement activation, Abeta deposition, and drusen.
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PMID:Altered function of factor I caused by amyloid beta: implication for pathogenesis of age-related macular degeneration from Drusen. 1856 38

Alzheimer's disease (AD) is characterized by amyloid beta (A beta) accumulation in the brain and is classified as familial early-onset (FAD) or sporadic late-onset (SAD). Evidences suggest that deficits in the brain expression of insulin degrading enzyme (IDE) and neprilysin (NEP), both proteases involved in amyloid degradation, may promote A beta deposition in SAD. We studied by immunohistochemistry IDE and NEP cortical expression in SAD and FAD samples carrying the E280A presenilin-1 missense mutation. We showed that IDE, a soluble peptidase, is linked with aggregated A beta 40 isoform while NEP, a membrane-bound protease, negatively correlates with amyloid angiopathy and its expression in the senile plaques is independent of aggregated amyloid and restricted to SAD cases. NEP, but not IDE, is over-expressed in dystrophic neurites, both proteases are immunoreactive in activated astrocytes but not in microglia and IDE was the only one detected in astrocytes of white matter from FAD cases. Collectively, our results support the notion that gross conformational changes involved in the modification from "natively folded-active" to "aggregated-inactive" IDE and NEP may be a relevant pathogenic mechanism in SAD.
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PMID:Differential cerebral deposition of IDE and NEP in sporadic and familial Alzheimer's disease. 1901 93

A number of therapeutic strategies for treating Alzheimer's disease have focused on reducing amyloid burden in the brain. Among these approaches, the expression of amyloid beta peptide (Abeta)-degrading enzymes in the brain has been shown to be effective but to date not practical for treating patients. We report here a novel strategy for lowering amyloid burden in the brain by peripherally expressing the Abeta-degrading enzyme neprilysin on leukocytes in the 3xTg-AD mouse model of Alzheimer's disease. Through transplantation of lentivirus-transduced bone marrow cells, the Abeta-degrading protease neprilysin was expressed on the surface of leukocytes. This peripheral neprilysin reduced soluble brain Abeta peptide levels by approximately 30% and lowered the accumulation of amyloid beta peptides by 50-60% when transplantation was performed at both young and early adult age. In addition, peripheral neprilysin expression reduced amyloid-dependent performance deficits as measured by the Morris water maze. Unlike other methods designed to lower Abeta levels in blood, which cause a net increase in peptide, neprilysin expression results in the catabolism of Abeta to small, innocuous peptide fragments. These findings demonstrate that peripherally expressed neprilysin, and likely other Abeta-degrading enzymes, has the potential to be utilized as a therapeutic approach to prevent and treat Alzheimer's disease and suggest that this approach should be explored further.
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PMID:Peripherally expressed neprilysin reduces brain amyloid burden: a novel approach for treating Alzheimer's disease. 1902 Dec 93

Cerebral amyloid angiopathy (CAA) is cerebrovascular amyloid deposition and is related to stroke and dementia. CAA is classified into 6 types according to the biochemical properties of amyloid proteins, and among 6 types, the sporadic CAA of amyloid beta protein (Abeta) type is most frequently found in elderly people or patients with Alzheimer's disease (AD). In sporadic CAA of the Abeta type, the epsilon4 allele of the apolipoprotein E gene is associated with increased vascular Abeta deposition, while the epsilon2 allele is associated with CAA-related intracerebral hemorrhage. We have also reported that the genetic polymorphisms of presenilin-1, neprilysin, transforming growth factor beta-1, and alpha1-antichymotrypsin are associated with CAA. In the case of hereditary CAA of the Abeta type, mutations in the genes of amyloid precursor protein (APP) and presenilins have been reported. Interestingly, the missense mutations associated with CAA are located in the middle portion of Abeta, while those associated with familial AD (FAD) are near the N- or C- terminals of Abeta. Individuals with FAD with APP duplication have been reported to present with severe CAA. Some of the FAD patients with mutations in the presenilin genes and patients with Down syndrome also show CAA as a complication. Besides sporadic or hereditary CAA of the Abeta type, hereditary CAA with cerebrovascular deposition of cystatin C, transthyretin, gelsolin, prion protein, and ABri/ADan have also been reported in association with mutations in the genes of the precursor proteins. Better understanding of the genetic factors influencing CAA will lead to identification of novel diagnostic markers and the development of preventive for CAA and CAA-related disorders.
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PMID:[Genetic factors for cerebral amyloid angiopathy]. 1906 61

Alzheimer's disease, responsible for the vast majority of dementia cases in the elderly population, is caused by accumulation of toxic levels of amyloid beta peptide (A beta) in the brain. Neprilysin is a major enzyme responsible for the degradation of A beta in vivo. We have previously shown that elevation of neprilysin levels in the brain delays the deposition of A beta-plaques in a mouse model of amyloidosis and that lack of neprilysin leads to increased A beta generation and to signs of incipient neurodegeneration in mouse brains. This study was designed to test whether low brain levels of neprilysin affect the amyloid pathology or perturb the learning and memory performance of mice. Double-mutated mice carrying a targeted depletion of one allele of Mme, the gene encoding neprilysin, and over-expressing human amyloid precursor protein (APP), exhibited a reinforced amyloid pathology in comparison with their APP transgenic littermates. Moreover, in contrast to their parental lines, these mice were impaired in the Morris water maze learning and memory paradigm and showed facilitated extinction in the conditioned taste aversion test. These data suggest that even a partial neprilysin deficiency, as is found during aging, exacerbates amyloid pathology and may impair cognitive functions.
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PMID:Neprilysin deficiency-dependent impairment of cognitive functions in a mouse model of amyloidosis. 1919 31


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