Abstract
Local injections of botulinum toxins have been reported to be useful not only for the treatment of peripheral neuropathic pain and migraine but also to cause long-lasting muscle paralysis, a potentially serious side effect. Recently, a botulinum A-based molecule ("BiTox") has been synthesized that retains neuronal silencing capacity without triggering muscle paralysis. In this study, we examined whether BiTox delivered peripherally was able to reduce or prevent the increased nociceptive sensitivity found in animal models of inflammatory, surgical, and neuropathic pain. Plasma extravasation and edema were also measured as well as keratinocyte proliferation. No motor deficits were seen and acute thermal and mechanical nociceptive thresholds were unimpaired by BiTox injections. We found reduced plasma extravasation and inflammatory edema as well as lower levels of keratinocyte proliferation in cutaneous tissue after local BiTox injection. However, we found no evidence that BiTox was transported to the dorsal root ganglia or dorsal horn and no deficits in formalin-elicited behaviors or capsaicin or formalin-induced c-Fos expression within the dorsal horn. In contrast, Bitox treatment strongly reduced A-nociceptor-mediated secondary mechanical hyperalgesia associated with either complete Freund's adjuvant (CFA)-induced joint inflammation or capsaicin injection and the hypersensitivity associated with spared nerve injury. These results imply that although local release of neuromodulators from C-fibers was inhibited by BiTox injection, C-nociceptive signaling function was not impaired. Taken together with recent clinical data the results suggest that BiTox should be considered for treatment of pain conditions in which A-nociceptors are thought to play a significant role.
Highlights
BiTox does not reduce the efficacy of intraplantar formalin and capsaicin injection
The response to acute injection with capsaicin or formalin was not affected by BiTox pretreatment
The increased thermal sensitivity seen after capsaicin injections (Fig. 2B) was unchanged by IPLT BiTox injection given 3 days before 0.3% capsaicin injection
Summary
Botulinum neurotoxins (BoNTs), of which there are 7 serotypes, are the most lethal toxins known to man.[10,30,31,42] Botulinum neurotoxin/A (Botox), the serotype most commonly used in clinical practice, acts on synaptic transmission by cleavage of the specific target SNAP-25, a member of the SNARE (Soluble N-ethylmaleimide-sensitive factor attachment protein receptor) family of proteins, preventing the correct assembly of the SNARE core complex and the fusion of synaptic vesicles with the neuronal presynaptic membrane, inhibiting the release of neurotransmitter.[3,44] This occurs both peripherally and within the centralSponsorships or competing interests that may be relevant to content are disclosed at the end of this article. a Cell and Developmental Biology, University College London, London, United Kingdom, b Laboratory of Neurophysiology of Integrative Autonomic System, Headache Sci. · · May 2016 Volume 157 Number 5 nervous system after local injection of the toxin, reversibly silencing synaptic transmission.[12,32] Peripheral injections of BoNT/A inhibit exocytosis of acetylcholine from motor nerve terminals causing flaccid muscle paralysis, a property that has made BoNT/A useful for the treatment of many pathological conditions, involving excessive muscle contractions. The specificity of BoNT/A for motor neuron terminals is established, an antinociceptive role of the toxin by binding to nociceptive primary afferents has been suggested and BoNT/A injections for chronic pain have become a valuable tool in clinical practice. Recent meta-analyses of the clinical literature have recommended local BoNT/A treatment for peripheral neuropathic pain.[11] Botulinum neurotoxin/A has shown effectiveness in the treatment for chronic migraine after injections in the scalp muscles.[14,25]
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