BACKGROUND: Heparanase degradation of heparan sulfate plays important roles in a number of pathological processes, including inflammation. In vitro experiments show that heparanase is capable of degrading heparin, a polysaccharide present in mast cells (MCs), in which it has a key role in promoting the storage of secretory granule compounds. OBJECTIVE: We sought to investigate the functions of heparanase in MCs. METHODS: Primarily cultured fetal skin-derived mast cells (FSMCs) isolated from embryos and adult peritoneal MCs were analyzed for storage and release of granule molecules in response to MC activation. RESULTS: FSMCs from heparanase-overexpressing mice contained substantially shorter heparin chains and significantly less proteases than control cells. Conversely, FSMCs lacking heparanase contained heparin of larger size and more proteases than control cells. Correspondingly, heparanase-overexpressing adult MCs exhibited reduced release of heparin-bound proteases, a finding that could be attributed to spontaneous release of granular compounds. Heparanase was found to be upregulated in MCs on activation. CONCLUSION: These findings reveal a novel function of heparanase in maintaining MC homeostasis through controlled degradation of heparin present in the MC secretory granules.
BACKGROUND:Heparanase degradation of heparan sulfate plays important roles in a number of pathological processes, including inflammation. In vitro experiments show that heparanase is capable of degrading heparin, a polysaccharide present in mast cells (MCs), in which it has a key role in promoting the storage of secretory granule compounds. OBJECTIVE: We sought to investigate the functions of heparanase in MCs. METHODS: Primarily cultured fetal skin-derived mast cells (FSMCs) isolated from embryos and adult peritoneal MCs were analyzed for storage and release of granule molecules in response to MC activation. RESULTS: FSMCs from heparanase-overexpressing mice contained substantially shorter heparin chains and significantly less proteases than control cells. Conversely, FSMCs lacking heparanase contained heparin of larger size and more proteases than control cells. Correspondingly, heparanase-overexpressing adult MCs exhibited reduced release of heparin-bound proteases, a finding that could be attributed to spontaneous release of granular compounds. Heparanase was found to be upregulated in MCs on activation. CONCLUSION: These findings reveal a novel function of heparanase in maintaining MC homeostasis through controlled degradation of heparin present in the MC secretory granules.
Authors: E Forsberg; G Pejler; M Ringvall; C Lunderius; B Tomasini-Johansson; M Kusche-Gullberg; I Eriksson; J Ledin; L Hellman; L Kjellén Journal: Nature Date: 1999-08-19 Impact factor: 49.962
Authors: Brooke L Farrugia; Shuji Mizumoto; Megan S Lord; Robert L O'Grady; Rhiannon P Kuchel; Shuhei Yamada; John M Whitelock Journal: J Biol Chem Date: 2019-06-07 Impact factor: 5.157
Authors: Brooke L Farrugia; John M Whitelock; Robert O'Grady; Bruce Caterson; Megan S Lord Journal: J Histochem Cytochem Date: 2015-11-19 Impact factor: 2.479