Abstract
Stimulation of FcepsilonRI, the high affinity IgE receptor of mast cells results in the rapid binding of the Syk tyrosine kinase to cytoplasmic domains of FcepsilonRI and to its subsequent activation. Syk plays an essential role in signal transduction from FcepsilonRI as shown by Syk-deficient mast cells, which are defective in receptor-induced degranulation, cytokine synthesis, and intracellular pathways. However the mechanism by which Syk activates these pathways remains unclear. Activation of Syk is associated with its phosphorylation on several tyrosine residues, including the linker tyrosines Tyr317, Tyr342, and Tyr346. These residues have been proposed to play important roles in the transduction of signals by binding to other signaling proteins. To test these hypotheses in primary murine mast cells, we used retroviral infection of Syk-deficient mast cells to generate cells expressing Syk proteins bearing mutations in the linker tyrosines. We show that Tyr342 and Tyr346 contribute positively to the function of Syk and have both overlapping as well as distinct functions. Mutations in either Tyr342 or Tyr346 alone had no effect on FcepsilonRI-induced degranulation or calcium flux, whereas mutation of both residues caused a significant reduction in both pathways. In contrast, phosphorylation of PLCgamma1, PLCgamma2, and Vav1 was strongly decreased by a mutation in Tyr342 alone, whereas phosphorylation of ERK and Akt was more dependent on Tyr346. Finally we show that Tyr317 functions as a negative regulatory site and that its mutation can partially compensate for the loss of both Tyr342 and Tyr346.
Highlights
Signaling from Fc⑀RI is initiated by immunoglobulin E (IgE)-antigen-induced aggregation, resulting in the activation of the associated Src family kinases Lyn and Fyn, which phosphorylate tandem tyrosines of the immunoreceptor tyrosine-based activation motifs (ITAMs) located in the cytoplasmic domains of the - and ␥-subunits of Fc⑀RI [2]
Cells were infected with the empty pMXpuro vector (E), or pMXpuro expressing wild-type Syk (WT), SykY342F (Y342F), SykY346F (Y346F), SykY342F/Y3546F (Y342F/Y3546F), and SykY317F/Y342F/Y3546F (3F), and subsequently selected with puromycin
Immunoblot analysis showed that wild-type Syk and the Syk mutants were all expressed at similar levels in the SykϪ/Ϫ mast cells, but in all cases were overexpressed relative to the levels of endogenous Syk in Sykϩ/ϩ mast cells (Fig. 1A)
Summary
IgE, immunoglobulin E; ITAM, immunoreceptor tyrosine-based activation motif; SH2, Src homology 2; ERK, extracellular signal-regulated kinase; JNK, c-Jun N-terminal kinase; MAP, mitogen-activated protein; PLC, phospholipase C; MCM, mast cell medium; SCF, stem cell factor; DNP, dintrophenyl; HSA, human serum albumin; PI3K, phosphoinositide 3-kinase; TCR, T cell receptor; cdb, cytoplasmic domain of erythrocyte band 3; pTyr or pY, phosphotyrosine; Ab, antibody; HRP, horseradish peroxidase. It has been proposed that pY342 and pY346 may function as binding sites to recruit substrates for Syk, such as Vav, PLC␥1, and potentially other signaling proteins. This idea has been tested in RBL-2H3 cells, where expression of Syk with a Y342F mutation resulted in decreased Fc⑀RI-induced degranulation, calcium flux, and phosphorylation PLC␥2, LAT, and SLP-76 but, surprisingly, normal phosphorylation of PLC␥1 and Vav1 [13]. We show that while mutation of both residues is required to show significant reductions in Fc⑀RIinduced degranulation and calcium flux, single mutations in either Tyr342 or Tyr346 cause reductions in Fc⑀RI-induced phosphorylation of PLC␥1, PLC␥2, LAT, SLP-76, Vav, ERK, and Akt. Interestingly, the effects of the two mutations are distinct with different pathways showing different dependence on the two tyrosines
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