Neuroprotection by the NR3A Subunit of the NMDA Receptor

Nakanishi, Norihiko; Tu, Shichun; Shin, Yeonsook; Cui, Jiankun; Kurokawa, Toru; Zhang, Dongxian; Chen, H.-S. Vincent; Tong, Gary; Lipton, Stuart A.

doi:10.1523/jneurosci.1067-09.2009

Cited by 99 publications

(80 citation statements)

References 30 publications

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“…There are two major subtypes of NMDAR including the functional subtype NMDAR1, and the regulatory subtype NMDAR2. Studies have found that NMDAR can regulate the synaptic growth, development and plasticity through changing the ratio of NMDAR1/NMDAR2, NO-mediated enzyme and the ion channel [15,16], and ultimately regulate signal transmission between synapses. Therefore, studies on NMDAR1 expression might provide insights into the role of NMDAR1 in the pathogenesis of AD.…”

Section: Discussionmentioning

confidence: 99%

A Mechanism Study of NMDAR1 in A Rat Alzheimer Disease (AD) Model

Peng

Huang

et al. 2017

Braz. arch. biol. technol.

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Section: Discussionmentioning

confidence: 99%

A Mechanism Study of NMDAR1 in A Rat Alzheimer Disease (AD) Model

Peng

Huang

et al. 2017

Braz. arch. biol. technol.

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“…GluN3A is expressed primarily in early postnatal life, whereas GluN3B is found in adult brainstem and spinal cord (Petralia and Wenthold, 2008). GluN3A expression seems to be a critical step in synaptogenesis and spine formation, and it maintains receptors in an immature state (Pérez-Otañ o et al, 2006), perhaps with enhanced neuroprotection (Nakanishi et al, 2009). Subsequent down-regulation of GluN3A expression is important for synapse maturation and the emergence of a competent state for synaptic plasticity (Roberts et al, 2009).…”

Section: Synaptic and Extrasynaptic N-methyl-d-aspartate Receptorsmentioning

confidence: 99%

Glutamate Receptor Ion Channels: Structure, Regulation, and Function

et al. 2010

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“…Traditional NMDA receptors are key players in glutamate-facilitated neurotransmission ( 24 ). Studies have suggested that expression of Grin3a is highest in selected regions of the brain in the postnatal period and in the adult retina, where the GRIN3A/NR3A subunit is thought to inhibit NMDA receptor Ca 2+ permeability and has a neuroprotective function ( 25 ). Similarly, expression of Grin3a is high in the neonatal kidney, but expression does persist into adulthood.…”

Section: Cluster Of Qtl On Distal Chr 19 Can Be Narrowed To a Small Nmentioning

confidence: 99%

Recalculation of 23 mouse HDL QTL datasets improves accuracy and allows for better candidate gene analysis

Ackert‐Bicknell

Paigen

Korstanje

2013

Journal of Lipid Research

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This article is available online at http://www.jlr.org among these different subpopulations are not understood, and the genes responsible for the subpopulation differences among individuals are unknown.Several approaches, including genetic mapping studies, have been used to identify novel genes involved in the regulation of HDL levels. In mice, the technique of quantitative trait locus (QTL) mapping, which uses crosses between different inbred strains of mice, has been heavily employed over the past 15 years. These results have been summarized in several reviews ( 6, 7 ). One limitation of traditional QTL analysis is low mapping resolution, which is a result of the limited genetic recombination possible in onegeneration backcrosses [i.e., A×(A×B)] and two-generation intercrosses [i.e., (A×B)×(A×B)]. The 95% confi dence interval (CI), the interval in which the causative gene is most likely to reside, is usually very broad. For example, one large study of bone mineral density QTL found that the average CI width for traditionally mapped QTL was 32 cM ( 8 ). As it can be assumed that there are, on average, 20 genes per cM ( 9 ), the number of candidate genes per QTL can be very large, making the identifi cation of the causative gene very diffi cult. In the past few years, several methods have been developed that combine accumulated data from the different crosses, allowing for narrowing of the CI for QTL and reducing candidate gene lists ( 10 ). However, the success of these methods heavily depends on the accuracy of the QTL mapping.The current standard genetic map for the mouse is curated and maintained by the Mouse Genome Informatics (MGI) Group at The Jackson Laboratory (www.informatics. jax.org) ( 11 ). Mapping QTL requires accurate genetic map information for both the relative order of markers and the distances between them ( 12 ). Recently, Shifman and colleagues published a new genetic map based on a large population of a heterogeneous stock ( 13 ). Cox and colleagues integrated a total of 7,080 standard, simplesequence length polymorphism (SSLP) markers to this single-nucleotide polymorphism (SNP)-based map, generating a corrected mouse genetic map ( 14 ). This new map Abstract In the past 15 years, the quantitative trait locus (QTL) mapping approach has been applied to crosses between different inbred mouse strains to identify genetic loci associated with plasma HDL cholesterol levels. Although successful, a disadvantage of this method is low mapping resolution, as often several hundred candidate genes fall within the confi dence interval for each locus. Methods have been developed to narrow these loci by combining the data from the different crosses, but they rely on the accurate mapping of the QTL and the treatment of the data in a consistent manner. We collected 23 raw datasets used for the mapping of previously published HDL QTL and reanalyzed the data from each cross using a consistent method and the latest mouse genetic map. By utilizing this approach, we identifi ed novel QTL and QTL that were mapped...

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Neuroprotection by the NR3A Subunit of the NMDA Receptor

Cited by 99 publications

References 30 publications

A Mechanism Study of NMDAR1 in A Rat Alzheimer Disease (AD) Model

A Mechanism Study of NMDAR1 in A Rat Alzheimer Disease (AD) Model

Glutamate Receptor Ion Channels: Structure, Regulation, and Function

Recalculation of 23 mouse HDL QTL datasets improves accuracy and allows for better candidate gene analysis

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