1. Function and Regulation of the Calcium-Activated Chloride Channel Anoctamin 1 (TMEM16A)
    Jorge Arreola et al, 2022, Anion Channels and Transporters CrossRef
  2. Chloride Ions, Vascular Function and Hypertension
    Kenichi Goto et al, 2022, Biomedicines CrossRef
  3. Clinical, Imaging, and Lab Correlates of Severe COVID-19 Leukoencephalopathy
    O. Rapalino et al, 2021, American Journal of Neuroradiology CrossRef
  4. Calcium-activated chloride channels: structure, properties, role in physiological and pathological processes
    V.V. Grigoriev, 2021, Biomeditsinskaya Khimiya CrossRef
  5. Recent advances in TMEM16A: Structure, function, and disease
    Qiushuang Ji et al, 2019, Journal of Cellular Physiology CrossRef
  6. The Prognostic Value and Mechanisms of TMEM16A in Human Cancer
    Wenjian Chen et al, 2021, Frontiers in Molecular Biosciences CrossRef
  7. Targeting TMEM16A to reverse vasoconstriction and remodelling in idiopathic pulmonary arterial hypertension
    Rita Papp et al, 2019, European Respiratory Journal CrossRef
  8. TMEM16A-encoded anoctamin 1 inhibition contributes to chrysin-induced coronary relaxation
    Guijin Ma et al, 2020, Biomedicine & Pharmacotherapy CrossRef
  9. Vascular mechanotransduction
    Michael J. Davis et al, 2023, Physiological Reviews CrossRef
  10. Transmembrane member 16A participates in hydrogen peroxide‐induced apoptosis by facilitating mitochondria‐dependent pathway in vascular smooth muscle cells
    Jia‐Wei Zeng et al, 2018, British Journal of Pharmacology CrossRef
  11. A small molecule inhibitor of the chloride channel TMEM16A blocks vascular smooth muscle contraction and lowers blood pressure in spontaneously hypertensive rats
    Onur Cil et al, 2021, Kidney International CrossRef
  12. Apigenin relaxes rat intrarenal arteries, depresses Ca2+-activated Cl− currents and augments voltage-dependent K+ currents of the arterial smooth muscle cells
    Yixin Jing et al, 2019, Biomedicine & Pharmacotherapy CrossRef
  13. Agonism of the TMEM16A calcium-activated chloride channel modulates airway smooth muscle tone
    Jennifer Danielsson et al, 2020, American Journal of Physiology-Lung Cellular and Molecular Physiology CrossRef
  14. Drug repurposing and molecular mechanisms of the antihypertensive drug candesartan as a TMEM16A channel inhibitor
    Qiushuang Ji et al, 2023, International Journal of Biological Macromolecules CrossRef
  15. TMEM16A is implicated in the regulation of coronary flow and is altered in hypertension
    Henry R. Askew Page et al, 2019, British Journal of Pharmacology CrossRef
  16. Substituted 2-Acylaminocycloalkylthiophene-3-carboxylic Acid Arylamides as Inhibitors of the Calcium-Activated Chloride Channel Transmembrane Protein 16A (TMEM16A)
    Eric C. Truong et al, 2017, Journal of Medicinal Chemistry CrossRef
  17. Calcium-Activated Chloride Channel ANO1/TMEM16A: Regulation of Expression and Signaling
    Nickolai O. Dulin, 2020, Frontiers in Physiology CrossRef