FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891801171> ?p ?o ?g. }

• W2891801171 endingPage "1559" @default.
• W2891801171 startingPage "1543" @default.
• W2891801171 abstract "New Findings What is the central question of this study? Does Toll‐like receptor 7 (TLR7) have any direct effects on Ca 2+ ‐dependent physiological function of tracheal submucosal gland cells? What is the main finding and its importance? TLR7 is co‐localized with SERCA2 in tracheal submucosal gland cells and causes a rapid attenuation of acetylcholine (ACh)‐induced, Ca 2+ ‐dependent ionic currents through the activation of SERCA2‐dependent Ca 2+ clearance. TLR7 is abundantly expressed in the airways of both swine and healthy human subjects, but is significantly downregulated in chronic obstructive pulmonary disease (COPD) airways. These findings suggest that a dysfunction of TLR7 in COPD removes the brake on ACh‐induced serous secretion during viral infections, resulting in prolonged airway hypersecretion, and that it is one of the triggers of COPD exacerbations. Abstract Airway surface fluids are mainly secreted from submucosal glands (SMGs) and play important roles in the defence of airways via the activation of mucociliary transport. Toll‐like receptor 7 (TLR7) recognizes and eliminates single stranded RNA (ssRNA) viruses through the induction of innate immunity. However, there is no obvious connection between TLR7 and mucus secretion, aside from TLR7 recognizing ssRNA viruses, which are often associated with airway hypersecretion in chronic obstructive pulmonary disease (COPD). Here, we investigated whether TLR7 has any direct effects on the Ca 2+ ‐dependent physiological function of tracheal SMG cells. Patch‐clamp analyses revealed that TLR7 ligand inhibited the acetylcholine (ACh)‐induced ionic currents in isolated tracheal SMG cells. Intracellular calcium assays and pharmacological analyses revealed that TLR7 attenuated the transient rises in the intracellular calcium concentration evoked by ACh by activating sarco/endoplasmic reticulum Ca 2+ ‐ATPase 2 (SERCA2). Immunofluorescence staining and immunohistochemical staining revealed that TLR7 was co‐localized with SERCA2. These findings suggest that the activation of TLR7 during viral infections contributes to the rapid attenuation of ACh‐induced ionic currents through an increase in SERCA2‐dependent Ca 2+ clearance in healthy airway SMG cells. Our study also revealed that TLR7 expression was significantly downregulated in COPD airways. Based on these findings, we speculate that a dysfunction of TLR7 may not only have an adverse effect on the elimination of these viruses but also remove the brake on ACh‐induced serous secretion, resulting in prolonged hypersecretion and acting as one of the triggers of COPD exacerbations." @default.
• W2891801171 created "2018-09-27" @default.
• W2891801171 creator A5007157113 @default.
• W2891801171 creator A5012023914 @default.
• W2891801171 creator A5015817639 @default.
• W2891801171 creator A5019057851 @default.
• W2891801171 creator A5026433459 @default.
• W2891801171 creator A5030033498 @default.
• W2891801171 creator A5033550218 @default.
• W2891801171 creator A5062766326 @default.
• W2891801171 creator A5074733053 @default.
• W2891801171 creator A5077169851 @default.
• W2891801171 date "2018-10-13" @default.
• W2891801171 modified "2023-10-14" @default.
• W2891801171 title "TLR7 agonist attenuates acetylcholine-induced, Ca2+ -dependent ionic currents in swine tracheal submucosal gland cells" @default.
• W2891801171 cites W1604268854 @default.
• W2891801171 cites W1900298576 @default.
• W2891801171 cites W1968558201 @default.
• W2891801171 cites W1970936381 @default.
• W2891801171 cites W1976022507 @default.
• W2891801171 cites W1977712678 @default.
• W2891801171 cites W1987464775 @default.
• W2891801171 cites W1991648511 @default.
• W2891801171 cites W1995744610 @default.
• W2891801171 cites W2001538489 @default.
• W2891801171 cites W2004662831 @default.
• W2891801171 cites W2025969760 @default.
• W2891801171 cites W2026863303 @default.
• W2891801171 cites W2034202994 @default.
• W2891801171 cites W2034363444 @default.
• W2891801171 cites W2039330081 @default.
• W2891801171 cites W2040701593 @default.
• W2891801171 cites W2047184710 @default.
• W2891801171 cites W2052657993 @default.
• W2891801171 cites W2066030442 @default.
• W2891801171 cites W2070967881 @default.
• W2891801171 cites W2076410918 @default.
• W2891801171 cites W2085775688 @default.
• W2891801171 cites W2088146700 @default.
• W2891801171 cites W2096199252 @default.
• W2891801171 cites W2096723137 @default.
• W2891801171 cites W2096752472 @default.
• W2891801171 cites W2100096970 @default.
• W2891801171 cites W2101594367 @default.
• W2891801171 cites W2109491705 @default.
• W2891801171 cites W2110947112 @default.
• W2891801171 cites W2112724236 @default.
• W2891801171 cites W2116997917 @default.
• W2891801171 cites W2122693759 @default.
• W2891801171 cites W2127658883 @default.
• W2891801171 cites W2128447723 @default.
• W2891801171 cites W2134185446 @default.
• W2891801171 cites W2138914111 @default.
• W2891801171 cites W2141034778 @default.
• W2891801171 cites W2142113116 @default.
• W2891801171 cites W2146514656 @default.
• W2891801171 cites W2148683109 @default.
• W2891801171 cites W2150861334 @default.
• W2891801171 cites W2153971243 @default.
• W2891801171 cites W2156696721 @default.
• W2891801171 cites W2157495913 @default.
• W2891801171 cites W2159597909 @default.
• W2891801171 cites W2163635921 @default.
• W2891801171 cites W2167403314 @default.
• W2891801171 cites W2168796298 @default.
• W2891801171 cites W2206135560 @default.
• W2891801171 cites W2266629023 @default.
• W2891801171 cites W2278161602 @default.
• W2891801171 cites W2313682544 @default.
• W2891801171 cites W2337187341 @default.
• W2891801171 cites W2365138737 @default.
• W2891801171 cites W2608933879 @default.
• W2891801171 cites W2736943943 @default.
• W2891801171 cites W2763945846 @default.
• W2891801171 cites W4230115907 @default.
• W2891801171 doi "https://doi.org/10.1113/ep087221" @default.
• W2891801171 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30194882" @default.
• W2891801171 hasPublicationYear "2018" @default.
• W2891801171 type Work @default.
• W2891801171 sameAs 2891801171 @default.
• W2891801171 citedByCount "2" @default.
• W2891801171 countsByYear W28918011712021 @default.
• W2891801171 crossrefType "journal-article" @default.
• W2891801171 hasAuthorship W2891801171A5007157113 @default.
• W2891801171 hasAuthorship W2891801171A5012023914 @default.
• W2891801171 hasAuthorship W2891801171A5015817639 @default.
• W2891801171 hasAuthorship W2891801171A5019057851 @default.
• W2891801171 hasAuthorship W2891801171A5026433459 @default.
• W2891801171 hasAuthorship W2891801171A5030033498 @default.
• W2891801171 hasAuthorship W2891801171A5033550218 @default.
• W2891801171 hasAuthorship W2891801171A5062766326 @default.
• W2891801171 hasAuthorship W2891801171A5074733053 @default.
• W2891801171 hasAuthorship W2891801171A5077169851 @default.
• W2891801171 hasBestOaLocation W28918011711 @default.
• W2891801171 hasConcept C114682108 @default.
• W2891801171 hasConcept C126322002 @default.
• W2891801171 hasConcept C134018914 @default.
• W2891801171 hasConcept C136449434 @default.

• next