Cytotoxic targeting of isolectin IB4-binding sensory neurons

L Vulchanova, TH Olson, LS Stone, MS Riedl, R Elde… - Neuroscience, 2001 - Elsevier
L Vulchanova, TH Olson, LS Stone, MS Riedl, R Elde, CN Honda
Neuroscience, 2001Elsevier
The isolectin I-B4 (IB4) binds specifically to a subset of small sensory neurons. We used a
conjugate of IB4 and the toxin saporin to examine in vivo the contribution of IB4-binding
sensory neurons to nociception. A single dose of the conjugate was injected unilaterally into
the sciatic nerve of rats. The treatment resulted in a permanent selective loss of IB4-binding
neurons as indicated by histological analysis of dorsal root ganglia, spinal cord, and skin
from treated animals. Behavioral measurements showed that 7–10 days after the injection …
The isolectin I-B4 (IB4) binds specifically to a subset of small sensory neurons. We used a conjugate of IB4 and the toxin saporin to examine in vivo the contribution of IB4-binding sensory neurons to nociception. A single dose of the conjugate was injected unilaterally into the sciatic nerve of rats. The treatment resulted in a permanent selective loss of IB4-binding neurons as indicated by histological analysis of dorsal root ganglia, spinal cord, and skin from treated animals. Behavioral measurements showed that 7–10 days after the injection, conjugate-treated rats had elevated thermal and mechanical nociceptive thresholds. However, 21 days post-treatment the nociceptive thresholds returned to baseline levels. These results demonstrate the utility of the IB4-saporin conjugate as a tool for selective cytotoxic targeting and provide behavioral evidence for the role of IB4-binding neurons in nociception. The decreased sensitivity to noxious stimuli associated with the loss of IB4-binding neurons indicates that these sensory neurons are essential for the signaling of acute pain. Furthermore, the unexpected recovery of nociceptive thresholds suggests that the loss of IB4-binding neurons triggers changes in the processing of nociceptive information, which may represent a compensatory mechanism for the decreased sensitivity to acute pain.
Elsevier