Ivica Matak scite author profile

Already a well-established treatment for different autonomic and movement disorders, the use of botulinum toxin type A (BoNT/A) in pain conditions is now continuously expanding. Currently, the only approved use of BoNT/A in relation to pain is the treatment of chronic migraines. However, controlled clinical studies show promising results in neuropathic and other chronic pain disorders. In comparison with other conventional and non-conventional analgesic drugs, the greatest advantages of BoNT/A use are its sustained effect after a single application and its safety. Its efficacy in certain therapy-resistant pain conditions is of special importance. Novel results in recent years has led to a better understanding of its actions, although further experimental and clinical research is warranted. Here, we summarize the effects contributing to these advantageous properties of BoNT/A in pain therapy, specific actions along the nociceptive pathway, consequences of its central activities, the molecular mechanisms of actions in neurons, and general pharmacokinetic parameters.

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Central Action of Peripherally Applied Botulinum Toxin Type A on Pain and Dural Protein Extravasation in Rat Model of Trigeminal Neuropathy

Filipović

Matak

Bach-Rojecky

et al. 2012

PLoS ONE

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BackgroundInfraorbital nerve constriction (IoNC) is an experimental model of trigeminal neuropathy. We investigated if IoNC is accompanied by dural extravasation and if botulinum toxin type A (BoNT/A) can reduce pain and dural extravasation in this model.Methodology/Principal FindingsRats which developed mechanical allodynia 14 days after the IoNC were injected with BoNT/A (3.5 U/kg) into vibrissal pad. Allodynia was tested by von Frey filaments and dural extravasation was measured as colorimetric absorbance of Evans blue - plasma protein complexes. Presence of dural extravasation was also examined in orofacial formalin-induced pain. Unilateral IoNC, as well as formalin injection, produced bilateral dural extravasation. Single unilateral BoNT/A injection bilaterally reduced IoNC induced dural extravasation, as well as allodynia (lasting more than 2 weeks). Similarly, BoNT/A reduced formalin-induced pain and dural extravasation. Effects of BoNT/A on pain and dural extravasation in IoNC model were dependent on axonal transport through sensory neurons, as evidenced by colchicine injections (5 mM, 2 µl) into the trigeminal ganglion completely preventing BoNT/A effects.Conclusions/SignificanceTwo different types of pain, IoNC and formalin, are accompanied by dural extravasation. The lasting effect of a unilateral injection of BoNT/A in experimental animals suggests that BoNT/A might have a long-term beneficial effect in craniofacial pain associated with dural neurogenic inflammation. Bilateral effects of BoNT/A and dependence on retrograde axonal transport suggest a central site of its action.

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Botulinum toxin’s axonal transport from periphery to the spinal cord

Matak

Riederer

Lacković

2012

Neurochemistry International

104

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Involvement of μ-opioid receptors in antinociceptive action of botulinum toxin type A

et al. 2013

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Botulinum toxin type A selectivity for certain types of pain is associated with capsaicin-sensitive neurons

Matak

Rossetto

Lacković

2014

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Activity of botulinum toxin type A in cranial dura: implications for treatment of migraine and other headaches

Lacković

Filipović

Matak

et al. 2015

British J Pharmacology

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BACKGROUND AND PURPOSEAlthough botulinum toxin type A (BoNT/A) is approved for chronic migraine treatment, its mechanism of action is still unknown. Dural neurogenic inflammation (DNI) commonly used to investigate migraine pathophysiology can be evoked by trigeminal pain. Here, we investigated the reactivity of cranial dura to trigeminal pain and the mechanism of BoNT/A action on DNI. EXPERIMENTAL APPROACHBecause temporomandibular disorders are highly comorbid with migraine, we employed a rat model of inflammation induced by complete Freund's adjuvant, followed by treatment with BoNT/A injections or sumatriptan p.o. DNI was assessed by Evans blueplasma protein extravasation, cell histology and RIA for CGRP. BoNT/A enzymatic activity in dura was assessed by immunohistochemistry for cleaved synaptosomal-associated protein 25 (SNAP-25). KEY RESULTSBoNT/A and sumatriptan reduced the mechanical allodynia and DNI, evoked by complete Freund's adjuvant. BoNT/A prevented inflammatory cell infiltration and inhibited the increase of CGRP levels in dura. After peripheral application, BoNT/A-cleaved SNAP-25 colocalized with CGRP in intracranial dural nerve endings. Injection of the axonal transport blocker colchicine into the trigeminal ganglion prevented the formation of cleaved SNAP-25 in dura. CONCLUSIONS AND IMPLICATIONSPericranially injected BoNT/A was taken up by local sensory nerve endings, axonally transported to the trigeminal ganglion and transcytosed to dural afferents. Colocalization of cleaved SNAP-25 and the migraine mediator CGRP in dura suggests that BoNT/A may prevent DNI by suppressing transmission by CGRP. This might explain the effects of BoNT/A in temporomandibular joint inflammation and in migraine and some other headaches. AbbreviationsBoNT/A, botulinum toxin type A; CFA, complete Freund's adjuvant; DNI, dural neurogenic inflammation; i.a., intra-articular; i.g., intraganglionic; SNAP-25, synaptosomal-associated protein 25; TMJ, temporomandibular joint BJP British Journal of Pharmacology

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Ivica Matak

Behavioral and immunohistochemical evidence for central antinociceptive activity of botulinum toxin A

Botulinum toxin A, brain and pain

Mechanisms of Botulinum Toxin Type A Action on Pain

Central Action of Peripherally Applied Botulinum Toxin Type A on Pain and Dural Protein Extravasation in Rat Model of Trigeminal Neuropathy

Botulinum toxin’s axonal transport from periphery to the spinal cord

Involvement of μ-opioid receptors in antinociceptive action of botulinum toxin type A

Botulinum toxin type A selectivity for certain types of pain is associated with capsaicin-sensitive neurons

Activity of botulinum toxin type A in cranial dura: implications for treatment of migraine and other headaches

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