1. Activation of KCNQ Channels Suppresses Spontaneous Activity in Dorsal Root Ganglion Neurons and Reduces Chronic Pain after Spinal Cord Injury
    Zizhen Wu et al, 2017, Journal of Neurotrauma CrossRef
  2. Glial KCNQ K+ channels control neuronal output by regulating GABA release from glia in C. elegans
    Bianca Graziano et al, 2024, Neuron CrossRef
  3. Platelet-derived growth factor activates nociceptive neurons by inhibiting M-current and contributes to inflammatory pain
    Omer Barkai et al, 2019, Pain CrossRef
  4. Contribution of TRESK two-pore domain potassium channel to bone cancer-induced spontaneous pain and evoked cutaneous pain in rats
    Jiang-Ping Liu et al, 2021, Molecular Pain CrossRef
  5. Paclitaxel Inhibits KCNQ Channels in Primary Sensory Neurons to Initiate the Development of Painful Peripheral Neuropathy
    Zizhen Wu et al, 2022, Cells CrossRef
  6. DNMT3a contributes to the development and maintenance of bone cancer pain by silencing Kv1.2 expression in spinal cord dorsal horn
    Xue-Rong Miao et al, 2017, Molecular Pain CrossRef
  7. Behavioral and neuro-functional consequences of eliminating the KCNQ3 GABA binding site in mice
    Kiki J. Chen et al, 2023, Frontiers in Molecular Neuroscience CrossRef
  8. The M-current works in tandem with the persistent sodium current to set the speed of locomotion
    Jérémy Verneuil et al, 2020, PLOS Biology CrossRef
  9. How to replace the lost keys? Strategies toward safer KV7 channel openers
    Christian Bock et al, 2019, Future Medicinal Chemistry CrossRef
  10. Potassium Channels and Pain
    Jérôme Busserolles et al, 2019, The Oxford Handbook of the Neurobiology of Pain CrossRef
  11. Pharmacological Activation of Neuronal Voltage-Gated Kv7/KCNQ/M-Channels for Potential Therapy of Epilepsy and Pain
    Yani Liu et al, 2021, Pharmacology of Potassium Channels CrossRef
  12. Current Status of the New Antiepileptic Drugs in Chronic Pain
    Harpreet S. Sidhu et al, 2016, Frontiers in Pharmacology CrossRef
  13. The paracetamol metabolite N-acetylp-benzoquinone imine reduces excitability in first- and second-order neurons of the pain pathway through actions on KV7 channels
    Sutirtha Ray et al, 2019, Pain CrossRef
  14. Analgesic Action of Acetaminophen via Kv7 Channels
    Jan-Luca Stampf et al, 2022, International Journal of Molecular Sciences CrossRef
  15. TET1 Participates in Complete Freund’s Adjuvant-induced Trigeminal Inflammatory Pain by Regulating Kv7.2 in a Mouse Model
    Dengcheng Zhan et al, 2023, Neuroscience Bulletin CrossRef
  16. Emerging potassium channel targets for the treatment of pain
    Christoforos Tsantoulas, 2015, Current Opinion in Supportive & Palliative Care CrossRef
  17. KCNQ/Kv7 channels as therapeutic target to treat neuropathic pain
    Zizhen Wu et al, 2022, The Neurobiology, Physiology, and Psychology of Pain CrossRef
  18. Understanding of Spinal Wide Dynamic Range Neurons and Their Modulation on Pathological Pain
    Zhiyun Zhang et al, 2024, Journal of Pain Research CrossRef
  19. P2X7 receptor induces microglia polarization to the M1 phenotype in cancer-induced bone pain rat models
    Ping Wu et al, 2022, Molecular Pain CrossRef
  20. M‐type K+ channels in peripheral nociceptive pathways
    Xiaona Du et al, 2018, British Journal of Pharmacology CrossRef
  21. Cancer-induced bone pain: spinal cord mechanisms and traditional Chinese medicine treatment
    Wei YANG et al, 2021, Journal of Holistic Integrative Pharmacy CrossRef
  22. Activation of Neuronal Voltage-Gated Potassium Kv7/KCNQ/M-Current by a Novel Channel Opener SCR2682 for Alleviation of Chronic Pain
    Jing Wang et al, 2021, Journal of Pharmacology and Experimental Therapeutics CrossRef