Barry B. Wolfe scite author profile

N-methyl-D-aspartic acid (NMDA) receptors transiently transfected into mammalian HEK-293 cells were characterized with subunit-specific antibodies and electrophysiological recordings. Deactivation time course recorded in response to fast-glutamate pulses were studied in isolated and lifted cells, as well as in outside-out membrane patches excised from cells expressing recombinant NR1 subunits in combination with the NR2A, NR2B, NR2C, or NR2D NMDA receptor subunits. Transfected cells were preidentified by the fluorescence emitted from the coexpressed Aequorea victoria jellyfish Green Lantern protein. Currents generated by NR1/NR2A channels displayed double exponential deactivation time course being faster than that in NR1/NR2B or NR1/NR2C channels. However, a large decay variability was observed within each cotransfection, suggesting that mechanisms additional to subunit composition may also regulate deactivation time course. NR1/NR2D channels displayed slowly deactivating currents. Channel deactivation was fast and comparable among receptors obtained by cotransfecting five distinct spliced variants of the NR1 subunit, each with the NR2A subunit. Additionally, recovery from desensitization was slower for NR1/NR2B than for NR1/NR2A channels. The average deactivation time course of responses to brief L-glutamate applications in cells where NR1/NR2A/NR2B cDNAs were cotransfected at variable ratio was intermediate between those of the NR1/NR2A and NR1/NR2B channels. Although immunocytochemical evidence indicates that the majority of cells are cotransfected by all plasmids in triple transfection, our experimental condition did not allow for a tight control of the expression of NMDA receptor subunits. This produced the result that many cells were characterized by deactivation time course and haloperidol sensitivities of separate NR1/NR2A and NR1/NR2B subunit heteromers. We also speculate on the possible formation of channels resulting from the coassembly in the same receptor of NR1/NR2A/NR2B subunits from a minority of cells that gave responses to brief application of L-glutamate characterized by slow deactivation time course and decreased haloperidol sensitivity.

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The Majority ofN-Methyl-d-Aspartate Receptor Complexes in Adult Rat Cerebral Cortex Contain at Least Three Different Subunits (NR1/NR2A/NR2B)

Luo

et al. 1997

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A monoclonal antibody (R1JHL) against the NR1 subunit of the N-methyl-D-aspartate (NMDA) receptor has been developed that recognizes an epitope in the region of the amino-terminal amino acids 341-561 (a region common to all splice variants of NR1). This monoclonal antibody identifies a broad band at 115 kDa in immunoblots using membranes from NR1-transfected cells and from rat brain tissue. No cross-reactivity with any NR2 subunit is seen. With the goal to determine quantitatively the subunit composition of cortical NMDA receptors, we used the monoclonal antibody to NR1 and polyclonal antibodies against the NR2A and NR2B subunits to perform immunoprecipitations of receptor subunits from solubilized adult rat cortical membranes. Solubilization of the receptor subunits was accomplished under both nondenaturing (native) conditions, under which the subunits seem to remain associated with one another, and denaturing conditions, under which the subunits are associated from each other. Although each of these antibodies selectively immunoprecipitates only its corresponding (cognate) subunit when the subunits have been solubilized under denaturing conditions, each of the antibodies immunoprecipitates a sizable fraction of the other two NMDA receptor subunits when membranes are solubilized under nondenaturing conditions, indicating an interaction in situ. Using quantitative immunoblot analysis of the three subunits in both the pellets and supernatants from the immunoprecipitations, we found 1) the dominant NMDA receptor complex in adult rat cortex contains at least three subunits, NR1/NR2A/NR2B; 2) a smaller fraction of NMDA receptors are composed of only two subunits, NR1/NR2B or NR1/NR2A; 3) there are no complexes that contain NR2A/NR2B that do not contain NR1; 4) only a small fraction of each subunit is not associated with any other NMDA receptor subunit; 5) no coimmunoprecipitation of noncognate subunits occurs unless the subunits are assembled with each other in situ; and 6) there is no physical interaction between these NMDA receptor subunits and the alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor GluR2 or GluR3 subunits. These results suggest that functional studies with recombinant receptors composed of at least three subunits may be the most physiologically meaningful.

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Quantitative autoradiography of beta 1- and beta 2-adrenergic receptors in rat brain.

Rainbow¹,

Parsons²,

Wolfe³

1984

Proc. Natl. Acad. Sci. U.S.A.

331

179

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We have used quantitative autoradiography to localize in rat brain /3i-and . and 832 receptors are distributed heterogeneously among afatomically discrete nuclei and subregions of rat brain. This new technology will enable investigators to examine -adrenergic receptor subtypes in the brain at a much higher anatomical resolution than was previously possible. METHODSMale Sprague-Dawley rats (200-250 g) were decapitated, the brains mounted on a cryostat chuck, and 32-gm sections were cut, thawed, and mounted onto microscope slides as described (10). The sections were stored overnight at -20'C and then stored at -70'C for up to a week before use. The slides were allowed to warm to room temperature 20 min before use. They were then immersed in a Coplin slide jar containing 35 ml of a Tris-saline buffer (20 mM Tris'HCl/135 mM NaCl, pH 7.4), 1251-labeled (1251I-pindolol) pindolol (prepared as described in ref. 12), and various competing drugs. After incubation for 70 min at 230C, the slides were washed (3 x 20 min) in 40C Tris-saline buffer, rinsed quickly in cold distilled water to remove buffer salts, and rapidly dried on a slide warmer at 60'C. We either removed labeled brain sections for scintillation counting or exposed them for either 4.5 or 24 hr against LKB Ultrofilm, as described (10) 1585The publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. §1734 solely to indicate this fact.

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The α4β2α5 nicotinic cholinergic receptor in rat brain is resistant to up‐regulation by nicotine in vivo

Mao

Perry

Yasuda

et al. 2007

Journal of Neurochemistry

119

143

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We used immunoprecipitation with subunit‐specific antibodies to examine the distribution of heteromeric neuronal nicotinic acetylcholine receptors (nAChRs) that contain the α5 subunit in the adult rat brain. Among the regions of brain we surveyed, the α5 subunit is associated in ∼37% of the nAChRs in the hippocampus, ∼24% of the nAChRs in striatum, and 11–16% of the receptors in the cerebral cortex, thalamus, and superior colliculus. Sequential immunoprecipitation assays demonstrate that the α5 subunit is associated with α4β2* nAChRs exclusively. Importantly, in contrast to α4β2 nAChRs, which are increased by 37–85% after chronic administration of nicotine, the α4β2α5 receptors are not increased by nicotine treatment. These data thus indicate that the α4β2α5 nAChRs in rat brain are resistant to up‐regulation by nicotine in vivo, which suggests an important regulatory role for the α5 subunit. To the extent that nicotine‐induced up‐regulation of α4β2 nAChRs is involved in nicotine addiction, the resistance of the α4β2α5 subtype to up‐regulation may have important implications for nicotine addiction.

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Barry B. Wolfe

Functional and Pharmacological Differences Between RecombinantN-Methyl-d-Aspartate Receptors

The Majority ofN-Methyl-d-Aspartate Receptor Complexes in Adult Rat Cerebral Cortex Contain at Least Three Different Subunits (NR1/NR2A/NR2B)

Quantitative autoradiography of beta 1- and beta 2-adrenergic receptors in rat brain.

The α4β2α5 nicotinic cholinergic receptor in rat brain is resistant to up‐regulation by nicotine in vivo

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