Chun Rong Lu scite author profile

Larger dorsal root ganglion neurons are stained by an antibody for the C terminus of glutamate receptor subunit 2 (GluR2) and GluR3 (GluR2/3) rather than by an antibody for GluR4. In dorsal roots, anti-GluR2/3 stains predominantly myelinated fibers; anti-GluR4 or anti-GluR2/4 stains predominantly unmyelinated fibers. In the dorsal horn, puncta immunopositive for synaptophysin and GluR2/3 are predominantly in laminas III and IV, whereas puncta immunopositive for synaptophysin and GluR4 or GluR2/4 are predominantly in laminas I and II. Puncta immunopositive for GluR2/3 costain with the B subunit of cholera toxin, whereas puncta immunopositive for GluR2/4 costain with isolectin B4 after injections of these tracers in the sciatic nerve. No puncta costain with calcitonin gene-related peptide and AMPA receptor subunits. Electron microscopy indicates that AMPA receptor-immunopositive terminals are more numerous than suggested by confocal microscopy. Of all synapses in which immunostaining is presynaptic, postsynaptic, or both, the percentage of presynaptic immunostain is approximately 70% with anti-GluR4 or anti-GluR2/4 (in laminas I-III), 25-30% with anti-GluR2/3 (in laminas III and IV), and 5% with anti-GluR2 (in laminas I-III). Because of fixation constraints, the types of immunostained terminals could be identified only on the basis of morphological characteristics. Many terminals immunostained for GluR2/3, GluR4, or GluR2/4 have morphological features of endings of primary afferents. Terminals with morphological characteristics of presumed GABAergic terminals are also immunostained with anti-GluR2/4 and anti-GluR4 in laminas I and II and with anti-GluR2/3 in laminas III and IV. The conspicuous and selective expression of presynaptic AMPA receptor subunits may contribute to the characteristic physiological profile of different classes of primary afferents and suggests an important mechanism for the modulation of transmitter release by terminals of both myelinated and unmyelinated primary afferents.

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Primary afferent terminals that express presynaptic NR1 in rats are mainly from myelinated, mechanosensitive fibers

Hwang

Phend

et al. 2003

J of Comparative Neurology

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Presynaptic N-methyl-D-aspartate (NMDA) receptors in terminals of primary afferents to spinal cord of rats were first reported by Liu et al. (1994; Proc. Natl. Acad. Sci. USA 91:8383-8387) and were proposed to modulate nociceptive input (Liu et al. [1997] Nature 386:721-724). We previously demonstrated kainate and AMPA receptors in numerous primary afferent terminals in the spinal cord fixed with diluted paraformaldehyde and no glutaraldehyde. Therefore, we reinvestigated the occurrence of presynaptic NMDAR1 (NR1) with this fixation protocol. With confocal microscopy, numerous immunofluorescent puncta were double-stained for NR1 and the presynaptic marker synaptophysin throughout the spinal gray. NR1-immunostained puncta costained more frequently with a tracer that labels myelinated afferents (cholera toxin subunit B; CTB) than with a tracer that labels non-peptidergic unmyelinated afferents (Griffonia simplicifolia isolectin B4; IB4). Virtually no double staining was found for NR1 and calcitonin gene-related peptide (CGRP), which labels somatic peptidergic primary afferents. In the gracile nucleus, virtually all puncta labeled for CTB appeared immunopositive for NR1. At the electron microscopic level, most immunopositive terminals in spinal cord and gracile nucleus displayed morphological characteristics of endings of myelinated primary afferents. NR1 was presynaptic in 60-65% of all synapses in which it was expressed pre- or postsynaptically, or both, in spinal laminae I-IV. Estimates for the gracile nucleus were higher (80%). No presynaptic NR1 was found in the ventroposterior thalamus. Because of the relative sparsity of presynaptic NR1 in terminals in laminae I and IIo and in terminals of peptidergic unmyelinated afferents, it is suggested that presynaptic NMDA receptors play a more significant role in modulation of mechanosensitive, innocuous input than in nociception.

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Presynaptic low- and high-affinity kainate receptors in nociceptive spinal afferents

Lucifora

Willcockson

et al. 2006

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Presynaptic ionotropic glutamate receptors are increasingly attributed a role in the modulation of sensory input at the first synapse of dorsal root ganglion (DRG) neurons in the spinal dorsal horn. Central terminals of DRG neurons express AMPA and NMDA receptors whose activation modulates the release of glutamate, the main transmitter at these synapses. Previous work, with an antibody that recognizes all low-affinity kainate receptor subunits (GluR5, 6, 7), provided microscopic evidence of presynaptic kainate receptors in unidentified primary afferent terminals in superficial laminae of the spinal dorsal horn (Hwang SJ, Pagliardini S, Rustioni A, Valtschanoff JG. Presynaptic kainate receptors in primary afferents to the superficial laminae of the rat spinal cord. J Comp Neurol 2001; 436: pp. 275-289). We show here that, although all such subunits may be expressed in these terminals, GluR5 is the subunit most readily detectable at presynaptic sites in sections processed for immunocytochemistry. We also show that the high-affinity kainate receptor subunits KA1 and KA2 are expressed in central terminals of DRG neurons and are co-expressed with low-affinity receptor subunits in the same terminals. Quantitative data show that kainate-expressing DRG neurons are about six times more likely to express the P2X(3) subunit of the purinergic receptor than to express substance P. Thus, nociceptive afferents that express presynaptic kainate receptors are predominantly non-peptidergic, suggesting a role for these receptors in the modulation of neuropathic rather than inflammatory pain.

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Ionotropic glutamate receptors are expressed in GABAergic terminals in the rat superficial dorsal horn

Willcockson

Phend

et al. 2005

J of Comparative Neurology

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Ionotropic glutamate receptors (IGR), including NMDA, AMPA, and kainate receptors, are expressed in terminals with varied morphology in the superficial laminae (I-III) of the dorsal horn of the spinal cord. Some of these terminals can be identified as endings of primary afferents, whereas others establish symmetric synapses, suggesting that they may be gamma-aminobutyric acid (GABA)-ergic. In the present study, we used confocal and electron microscopy of double immunostaining for GAD65, a marker for GABAergic terminals, and for subunits of IGRs to test directly whether IGRs are expressed in GABAergic terminals in laminae I-III of the dorsal horn. Although colocalization is hard to detect with confocal microscopy, electron microscopy reveals a substantial number of terminals immunoreactive for GAD65 also stained for IGRs. Among all GAD65-immunoreactive terminals counted, 37% express the NMDA receptor subunit NR1; 28% are immunopositive using an antibody for the GluR2/4 subunits of the AMPA receptor; and 20-35% are immunopositive using antibodies for the kainate receptor subunits GluR5, GluR6/7, KA1, or KA2. Terminals immunoreactive for IGR subunits and GAD65 establish symmetric synapses onto dendrites and perikarya and can be presynaptic to primary afferent terminals within both type 1 and type 2 synaptic glomeruli. Activation of presynaptic IGR may reduce neurotransmitter release. As autoreceptors in terminals of Adelta and C afferent fibers in laminae I-III, presynaptic IGRs may play a role in inhibiting nociception. As heteroreceptors in GABAergic terminals in the same laminae, on the other hand, presynaptic IGRs may have an opposite role and even contribute to central sensitization and hyperalgesia.

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Primary Afferent Terminals in Spinal Cord Express Presynaptic AMPA Receptors

Hwang

Phend

et al. 2002

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Chun Rong Lu

Primary Afferent Terminals in Spinal Cord Express Presynaptic AMPA Receptors

Primary afferent terminals that express presynaptic NR1 in rats are mainly from myelinated, mechanosensitive fibers

Presynaptic low- and high-affinity kainate receptors in nociceptive spinal afferents

Ionotropic glutamate receptors are expressed in GABAergic terminals in the rat superficial dorsal horn

Primary Afferent Terminals in Spinal Cord Express Presynaptic AMPA Receptors

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