Expression of AMPA receptor subunits at synapses in laminae I-III of the rodent spinal dorsal horn

Background: Glutamate receptors of the AMPA type ( AMPArs) mediate fast excitatory transmission in the dorsal horn and are thought to underlie perception of both acute and chronic pain. They are tetrameric structures made up from 4 subunits (GluR1- 4), and subunit composition determines properties of the receptor. Antigen retrieval with pepsin can be used to reveal the receptors with immunocytochemistry, and in this study we have investigated the subunit composition at synapses within laminae I-III of the dorsal horn. In addition, we have compared staining of AMPArs with that for PSD-95, a major constituent of glutamatergic synapses. We also examined tissue from knock-out mice to confirm the validity of the immunostaining. Results: As we have shown previously, virtually all AMPAr-immunoreactive puncta were immunostained for GluR2. In laminae I-II, similar to 65% were GluR1- positive and similar to 60% were GluR3-positive, while in lamina III the corresponding values were 34% ( GluR1) and 80% ( GluR3). Puncta stained with antibody against the C-terminus of GluR4 ( which only detects the long form of this subunit) made up 23% of the AMPAr-containing puncta in lamina I, similar to 8% of those in lamina II and 46% of those in lamina III. Some overlap between GluR1 and GluR3 was seen in each region, but in lamina I GluR1 and GluR4 were present in largely non-overlapping populations. The GluR4 puncta often appeared to outline dendrites of individual neurons in the superficial laminae. Virtually all of the AMPAr-positive puncta were immunostained for PSD-95, and 98% of PSD-95 puncta contained AMPAr-immunoreactivity. Staining for GluR1, GluR2 and GluR3 was absent in sections from mice in which these subunits had been knocked out, while the punctate staining for PSD-95 was absent in mice with a mutation that prevents accumulation of PSD-95 at synapses. Conclusion: Our results suggest that virtually all glutamatergic synapses in laminae I-III of adult rat spinal cord contain AMPArs. They show that synapses in laminae I-II contain GluR2 together with GluR1 and/or GluR3, while the long form of GluR4 is restricted to specific neuronal populations, which may include some lamina I projection cells. They also provide further evidence that immunostaining for AMPAr subunits following antigen retrieval is a reliable method for detecting these receptors at glutamatergic synapses.