• Carl I Webster, Jon Hatcher, Matthew Burrell, George Thom, Peter Thornton, Ian Gurrell, and Iain Chessell.
• aAntibody Discovery and Protein Engineering, MedImmune, Cambridge, United Kingdom bNeuroscience, Innovative Medicines and Early Development, AstraZeneca, Cambridge, United Kingdom.
• Pain. 2017 Apr 1; 158 (4): 660-668.

AbstractNeuropathic pain is a major unmet medical need, with only 30% to 35% of patients responding to the current standard of care. The discovery and development of novel therapeutics to address this unmet need have been hampered by poor target engagement, the selectivity of novel molecules, and limited access to the relevant compartments. Biological therapeutics, either monoclonal antibodies (mAbs) or peptides, offer a solution to the challenge of specificity as the intrinsic selectivity of these kinds of molecules is significantly higher than traditional medicinal chemistry-derived approaches. The interleukin-1 receptor system within the spinal cord has been implicated in the amplification of pain signals, and its central antagonism provides relief of neuropathic pain. Targeting the IL-1 system in the spinal cord with biological drugs, however, raises the even greater challenge of delivery to the central compartment. Targeting the transferrin receptor with monoclonal antibodies has proved successful in traversing the endothelial cell-derived blood-brain barrier and delivering proteins to the central nervous system. In this study, we describe a novel construct exemplifying an engineered solution to overcome these challenges. We have generated a novel anti-transferrin receptor-interleukin-1 receptor antagonist fusion that transports to the central nervous system and delivers efficacy in a model of nerve ligation-induced hypersensitivity. Approaches such as these provide promise for novel and selective analgesics that target the central compartment.

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