TY - JOUR
T1 - Syntaxin 3, but not syntaxin 4, is required for mast cell–regulated exocytosis, where it plays a primary role mediating compound exocytosis
AU - Sanchez, Elizabeth
AU - Gonzalez, Erika A.
AU - Moreno, David S.
AU - Cardenas, Rodolfo A.
AU - Ramos, Marco A.
AU - Davalos, Alfredo J.
AU - Manllo, John
AU - Rodarte, Alejandro I.
AU - Petrova, Youlia
AU - Moreira, Daniel C.
AU - Chavez, Miguel A.
AU - Tortoriello, Alejandro
AU - Lara, Adolfo
AU - Gutierrez, Berenice A.
AU - Burns, Alan R.
AU - Heidelberger, Ruth
AU - Adachi, Roberto
N1 - Publisher Copyright:
© 2019 Sanchez et al. Published under exclusive license by The American Society for Biochemistry and Molecular Biology, Inc.
PY - 2019/3/1
Y1 - 2019/3/1
N2 - Mast cells (MCs) participate in allergy, inflammation, and defense against pathogens. They release multiple immune mediators via exocytosis, a process that requires SNARE proteins, including syntaxins (Stxs). The identity of the Stxs involved in MC exocytosis remains controversial. Here, we studied the roles of Stx3 and -4 in fully developed MCs from conditional knockout mice by electrophysiology and EM, and found that Stx3, and not Stx4, is crucial for MC exocytosis. The main defect seen in Stx3-deficient MCs was their inability to engage multigranular compound exocytosis, while leaving most single-vesicle fusion events intact. We used this defect to show that this form of exocytosis is not only required to accelerate MC degranulation but also essential to achieve full degranulation. The exocytic defect was severe but not absolute, indicating that an Stx other than Stx3 and -4 is also required for exocytosis in MCs. The removal of Stx3 affected only regulated exocytosis, leaving other MC effector responses intact, including the secretion of cytokines via constitutive exocytosis. Our in vivo model of passive systemic anaphylaxis showed that the residual exocytic function of Stx3-deficient MCs was sufficient to drive a full anaphylactic response in mice.
AB - Mast cells (MCs) participate in allergy, inflammation, and defense against pathogens. They release multiple immune mediators via exocytosis, a process that requires SNARE proteins, including syntaxins (Stxs). The identity of the Stxs involved in MC exocytosis remains controversial. Here, we studied the roles of Stx3 and -4 in fully developed MCs from conditional knockout mice by electrophysiology and EM, and found that Stx3, and not Stx4, is crucial for MC exocytosis. The main defect seen in Stx3-deficient MCs was their inability to engage multigranular compound exocytosis, while leaving most single-vesicle fusion events intact. We used this defect to show that this form of exocytosis is not only required to accelerate MC degranulation but also essential to achieve full degranulation. The exocytic defect was severe but not absolute, indicating that an Stx other than Stx3 and -4 is also required for exocytosis in MCs. The removal of Stx3 affected only regulated exocytosis, leaving other MC effector responses intact, including the secretion of cytokines via constitutive exocytosis. Our in vivo model of passive systemic anaphylaxis showed that the residual exocytic function of Stx3-deficient MCs was sufficient to drive a full anaphylactic response in mice.
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U2 - 10.1074/jbc.RA118.005532
DO - 10.1074/jbc.RA118.005532
M3 - Article
C2 - 30563839
AN - SCOPUS:85063473149
SN - 0021-9258
VL - 294
SP - 3012
EP - 3023
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 9
ER -