Stereological analysis of Ca(2+)/calmodulin-dependent protein kinase II alpha -containing dorsal root ganglion neurons in the rat: colocalization with isolectin Griffonia simplicifolia, calcitonin gene-related peptide, or vanilloid receptor 1

Abstract

The enzyme Ca(2+)/calmodulin-dependent protein kinase II (CaMKII) is widely distributed in the nervous system. A previous report describes immunostaining for CaMKII alpha in dorsal root ganglion (DRG) neurons. In this study, CaMKII alpha is colocalized in the rat with three putative markers of nociceptive DRG neurons, isolectin Griffonia simplicifolia (I-B4), identifying small-diameter, "peptide-poor" neurons; calcitonin gene-related peptide (CGRP), identifying " peptide-rich" neurons; or the vanilloid receptor 1 (VR1), identifying neurons activated by heat, acid, and capsaicin. Lumbar 4 and 5 DRG sections were labeled using immunofluorescence or lectin binding histochemistry, and percentages of single and double-labeled CaMKIIalpha neurons were determined. Stereological estimates of total neuron number in the L4 DRG were 13,815 +/- 2,798 and in the L5 DRG were 14,111 +/- 4,043. Percentages of single-labeled L4 DRG neurons were 41% +/- 2% CaMKII alpha, 38% +/- 3% I-B4, 44% +/- 3% CGRP, and 32% +/- 6% VR1. Percentages of single-labeled L5 DRG neurons were 44% +/- 5% CaMKII alpha, 48% +/- 2% I-B4, 41% +/- 7% CGRP, and 39% +/- 14% VR1. For L4 and L5, respectively, estimates of double-labeled CaMKII alpha neurons showed 34% +/- 2% and 38% +/- 17% labeled for I-B4, 25% +/- 14% and 19% +/- 10% labeled for CGRP, and 37% +/- 7% and 38% +/- 5% labeled for VR1. Conversely, for L4 and L5, respectively, 39% +/- 14% and 38% +/- 7% I-B4 binding neurons, 24% +/- 12% and 23% +/- 10% CGRP neurons, and 42% +/- 7% and 35% +/- 7% VR1 neurons labeled for CaMKIIalpha. The mean diameter of CaMKII alpha - labeled neurons was approximately 27 microm, confirming that this enzyme was preferentially localized in small DRG neurons. The results indicate that subpopulations of DRG neurons containing CaMKII alpha are likely to be involved in the processing of nociceptive information. Thus, this enzyme may play a critical role in the modulation of nociceptor activity and plasticity of primary sensory neurons.