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A humanized chemogenetic system inhibits murine pain-related behavior and hyperactivity in human sensory neurons
Hyperexcitability in sensory neurons is known to underlie many of the maladaptive changes associated with persistent pain. Chemogenetics has shown promise as a means to suppress such excitability, yet chemogenetic approaches suitable for human applications are needed. PSAM 4 -GlyR is a modular system based on the human α7 nicotinic acetylcholine and glycine receptors, which responds to inert chemical ligands and the clinically approved drug varenicline. Here, we demonstrated the efficacy of this channel in silencing both mouse and human sensory neurons by the activation of large shunting conductances after agonist administration. Virally mediated expression of PSAM 4 -GlyR in mouse sensory neurons produced behavioral hyposensitivity upon agonist administration, which was recovered upon agonist washout. Stable expression of the channel led to similar reversible suppression of pain-related behavior even after 10 months of viral delivery. Mechanical and spontaneous pain readouts were also ameliorated by PSAM 4 -GlyR activation in acute and joint pain inflammation mouse models. Furthermore, suppression of mechanical hypersensitivity generated by a spared nerve injury model of neuropathic pain was also observed upon activation of the channel. Effective silencing of behavioral hypersensitivity was reproduced in a human model of hyperexcitability and clinical pain: PSAM 4 -GlyR activation decreased the excitability of human-induced pluripotent stem cell–derived sensory neurons and spontaneous activity due to a gain-of-function Na V 1.7 mutation causing inherited erythromelalgia. Our results demonstrate the contribution of sensory neuron hyperexcitability to neuropathic pain and the translational potential of an effective, stable, and reversible humanized chemogenetic system for the treatment of pain.
Equity for excellence in academic institutions: a manifesto for change
Higher academic institutions in the UK need to drive improvements in equity, diversity, and inclusion (EDI) through sustainable practical interventions. A broad view of inclusivity is based on an intersectional approach that considers race, geographical location, caring responsibilities, disability, neurodiversity, religion, and LGBTQIA+ identities. We describe the establishment of a diverse stakeholder group to develop practical grass-roots recommendations through which improvements can be advanced. We have developed a manifesto for change, comprising six domains through which academic institutions can drive progress through setting short, medium, and long-term priorities. Interventions will yield rewards in recruitment and retention of a diverse talent pool, leading to enhanced impact and output.
Stroke: management and prevention
Acute stroke treatment requires clear protocols to rapidly triage patients – using appropriate investigations – for endovascular thrombectomy and intravenous thrombolysis. Computed tomography (CT) excludes haemorrhage, CT angiography locates the occluded vessel, and perfusion magnetic resonance imaging identifies viable tissue. An organized approach to stroke care in a specialist environment reduces disability and saves lives. Adoption of a ‘care bundle’ approach including the active management of pyrexia and hyperglycaemia, and early screening for swallowing difficulties, is beneficial. Tailored secondary prevention, including assessment of the carotid arteries, is urgent as, for eligible patients, carotid endarterectomy should be done within 2 weeks. Anticoagulation in elderly individuals with atrial fibrillation is safer than is often assumed, and direct oral anticoagulants have changed the landscape of secondary prevention.