Project description:Mice in which the Lyn, Cd22, or Shp-1 gene has been disrupted have hyperactive B cells and autoantibodies. We find that in the absence of Lyn, the ability of CD22 to become tyrosine phosphorylated after ligation of mIg, to recruit SHP-1, and to suppress mIg-induced elevation of intracellular [Ca2+] is lost. Therefore, Lyn is required for the SHP-1-mediated B cell suppressive function of CD22, accounting for similarities in the phenotypes of these mice.

Project description:CD22 is a surface immunoglobulin implicated in negative regulation of B cell receptor (BCR) signaling; particularly inhibiting intracellular Ca2+ (Ca2+i)signals. Its cytoplasmic tail contains six tyrosine residues (Y773/Y783/Y817/Y828/Y843/Y863, designated Y1~Y6 respectively), including three (Y2/5/6) lying within immunoreceptor tyrosine-based inhibitory motifs (ITIMs) that serve to recruit the protein tyrosine phosphatase SHP-1 after BCR activation-induced phosphorylation. The mechanism of inhibiting Ca2+i by CD22 has been poorly understood. Previous study demonstrated that CD22 associated with plasma membrane calcium-ATPase (PMCA) and enhanced its activity (Chen, J. et al. Nat Immunol 2004;5:651-7). The association is dependent on BCR activation-induced cytoplasmic tyrosine phosphorylation, because CD22 with either all six tyrosines mutated to phenylalanines or cytoplasmic tail truncated loses its ability to associate with PMCA. However, which individual or a group of tyrosine residues determine the association and how CD22 and PMCA interacts, are still unclear. In this study, by using a series of CD22 tyrosine mutants, we found that ITIM Y2/5/6 accounts for 34.3~37.1% Ca2+i inhibition but is irrelevant for CD22/PMCA association. Non-ITIM Y4 and its YEND motif contribute to the remaining 69.4~71.7% Ca2+i inhibition and is the binding site for PMCA-associated Grb2. Grb2, independently of BCR cross-linking, is constitutively associated with and directly binds to PMCA in both chicken and human B cells. Knockout of Grb2 by CRISPR/Cas9 completely disrupted the CD22/PMCA association. Thus, our results demonstrate for the first time that in addition to previously-identified ITIM/SHP-1-dependent pathway, CD22 holds a major pathway of negative regulation of Ca2+i signal, which is ITIM/SHP-1-independent, but Y4/Grb2/PMCA-dependent.

Project description:BackgroundDiffuse large B cell lymphoma (DLBCL) is an aggressive and molecularly heterogeneous non-Hodgkin's lymphoma. The B cell receptor (BCR) signaling pathway in DLBCL emerges as a new drug target. Protein phosphatase SHP-1 negatively regulates several oncogenic tyrosine kinases and plays a tumor suppressive role.MethodsThe direct SHP-1 agonists were used to evaluate the potential therapeutic implication of SHP-1 in DLBCL. Immunohistochemical staining for SHP-1 was quantified by H-score. The SHP-1 phosphatase activity was determined using tyrosine phosphatase assay. In vitro studies, including MTT, western blot analysis and cell apoptosis, were utilized to examined biological functions of SHP-1.ResultsOral administration of SHP-1 agonist showed the potent anti-tumor effects compared to a selective Bruton's tyrosine kinase (BTK) inhibitor ibrutinib in mice bearing U2932 xenografts. SHP-1 agonist increased SHP-1 activity as well as downregulated p-Lyn in vivo. Here, we demonstrated that immunohistochemical staining for SHP-1 expression was positive in 76% of DLBCL samples. SHP-1 agonist exerted anti-proliferative and apoptotic effects compared with ibrutinib in DLBCL cells. Mechanistically, SHP-1 agonist decreased BCR signaling, especially p-Lyn, and led to apoptosis.ConclusionsThese data suggest that SHP-1 negatively regulates phosphorylation of Lyn, and targeting SHP-1/p-Lyn using SHP-1 agonist has therapeutic potential for treatment of DLBCL.

Project description:CD22 (Siglec-2) is a critical regulator of B cell activation and survival. CD22-/- mice generate significantly impaired Ab responses to T cell-independent type 2 (TI-2) Ags, including haptenated Ficoll and pneumococcal polysaccharides, Ags that elicit poor T cell help and activate BCR signaling via multivalent epitope crosslinking. This has been proposed to be due to impaired marginal zone (MZ) B cell development/maintenance in CD22-/- mice. However, mice expressing a mutant form of CD22 unable to bind sialic acid ligands generated normal TI-2 Ab responses, despite significantly reduced MZ B cells. Moreover, mice treated with CD22 ligand-binding blocking mAbs, which deplete MZ B cells, had little effect on TI-2 Ab responses. We therefore investigated the effects of CD22 deficiency on B-1b cells, an innate-like B cell population that plays a key role in TI-2 Ab responses. B-1b cells from CD22-/- mice had impaired BCR-induced proliferation and significantly increased intracellular Ca2+ concentration responses following BCR crosslinking. Ag-specific B-1b cell expansion and plasmablast differentiation following TI-2 Ag immunization was significantly impaired in CD22-/- mice, consistent with reduced TI-2 Ab responses. We generated CD22-/- mice with reduced CD19 levels (CD22-/-CD19+/-) to test the hypothesis that augmented B-1b cell BCR signaling in CD22-/- mice contributes to impaired TI-2 Ab responses. BCR-induced proliferation and intracellular Ca2+ concentration responses were normalized in CD22-/-CD19+/- B-1b cells. Consistent with this, TI-2 Ag-specific B-1b cell expansion, plasmablast differentiation, survival, and Ab responses were rescued in CD22-/-CD19+/- mice. Thus, CD22 plays a critical role in regulating TI-2 Ab responses through regulating B-1b cell signaling thresholds.

Project description:Social connections are critical for mental and physical health; however, the developmental pathways to children's social connectedness outcomes are not well understood. This study examined the pathways from children's inhibitory control at 4 years to two social connectedness outcomes - loneliness and friendship quality at age 10 - through behavioral problems at age 7. As part of a longitudinal study (N = 291, 54% girls), children's inhibitory control was assessed via a Go/No-Go task when children were 4 years old. Mothers reported on children's behavioral problems at ages 4 and 7 years. Children reported on their friendship quality and loneliness at ages 7 and 10 years. Greater inhibitory control at 4 years predicted lower behavioral problems at 7 years, which in turn predicted better friendship quality and lower loneliness at 10 years. Indirect effects from inhibitory control at 4 years to loneliness and friendship quality at 10 years via behavioral problems at 7 years were significant. Findings suggest that inhibitory control in early childhood may play a key role for the development of social connectedness in middle childhood via its impact on children's behavioral problems.

Project description:Integrins govern cellular adhesion and transmit signals leading to activation of intracellular signaling pathways aimed to prevent apoptosis. Herein we report that attachment of oligodendrocytes (OLs) to fibronectin via alpha(v)beta(3) integrin receptors rendered the cells more resistant to apoptosis than the cells attached to laminin via alpha(6)beta(1) integrins. Investigation of molecular mechanisms involved in alpha(v)beta(3) integrin-mediated cell survival revealed that ligation of the integrin with fibronectin results in higher expression of activated Lyn kinase. Both in OLs and in the mouse brain, Lyn selectively associates with alpha(v)beta(3) integrin, not with alpha(v)beta(5) integrin, leading to suppression of acid sphingomyelinase activity and preventing ceramide-mediated apoptosis. In OLs, knockdown of Lyn with small interfering RNA resulted in OL apoptosis with concomitant accumulation of C(16)-ceramide due to activation of acid sphingomyelinase (ASMase) and sphingomyelin hydrolysis. Knocking down ASMase partially protected OLs from apoptosis. In the brain, ischemia/reperfusion (IR) triggered rearrangements in the alpha(v)beta(3) integrin-Lyn kinase complex leading to disruption of Lyn kinase-mediated suppression of ASMase activity. Thus, co-immunoprecipitation studies revealed an increased association of alpha(v)beta(3) integrin-Lyn kinase complex with ionotropic glutamate receptor subunits, GluR2 and GluR4, after cerebral IR. Sphingolipid analysis of the brain demonstrated significant accumulation of ceramide and sphingomyelin hydrolysis. The data suggest a novel mechanism for regulation of ASMase activity during cell adhesion in which Lyn acts as a key upstream kinase that may play a critical role in cerebral IR injury.

Project description:THEMIS is critical for conventional T cell development but its precise molecular function remains elusive. Here we show that THEMIS constitutively associates with the phosphatases SHP-1 and SHP-2. This complex requires the adapter GRB2, which bridges SHP to Themis in a Tyr-phosphorylation-independent fashion. Rather, SHP1 and THEMIS engage with the N-SH3 and C-SH3 domains of GRB2, respectively, a configuration that allows GRB2-SH2 to recruit the complex onto LAT. Coherent with THEMIS-mediated recruitment of SHP to the TCR signalosome, THEMIS knockdown increased TCR-induced TCR- phosphorylation, Erk activation and CD69 expression, however not Lck phosphorylation. This generalized TCR signalling increase led to augmented apoptosis, a phenotype mirrored by SHP-1 knockdown. Remarkably, a KI mutation of Lck Ser59, previously suggested to be key in ERK-mediated resistance towards SHP-1 negative feedback, did not affect TCR signalling nor ligand discrimination in vivo. Thus, THEMIS:SHP complex dampens early TCR signalling by a previously unknown molecular mechanism that favors T cell survival. We discuss possible implications of this mechanism in modulating TCR output signals towards conventional T cell development and differentiation.

Project description:Innate lymphoid cells (ILCs) play key roles in host defense, barrier integrity, and homeostasis and mirror adaptive CD4(+) T helper (Th) cell subtypes in both usage of effector molecules and transcription factors. To better understand the relationship between ILC subsets and their Th cell counterparts, we measured genome-wide chromatin accessibility. We find that chromatin in proximity to effector genes is selectively accessible in ILCs prior to high-level transcription upon activation. Accessibility of these regions is acquired in a stepwise manner during development and changes little after in vitro or in vivo activation. Conversely, dramatic chromatin remodeling occurs in naive CD4(+) T cells during Th cell differentiation using a type-2-infection model. This alteration results in a substantial convergence of Th2 cells toward ILC2 regulomes. Our data indicate extensive sharing of regulatory circuitry across the innate and adaptive compartments of the immune system, in spite of their divergent developing pathways.

Project description:Macrophage migration inhibitory factor (MIF) is an important modulator of innate and adaptive immunity as well as local inflammatory responses. We previously reported that MIF down-regulated osteoclastogenesis through a mechanism that requires CD74. The aim of the current study was to examine whether MIF modulates osteoclastogenesis through Lyn phosphorylation, and whether down-regulation of RANKL-mediated signaling requires the association of CD74, CD44, and Lyn.CD74-knockout (CD74-KO), CD44-KO, and Lyn-KO mouse models were used to investigate whether Lyn requires these receptors and coreceptors. The effects of MIF on osteoclastogenesis were assessed using Western blot analysis, small interfering RNA (siRNA)-targeted down-regulation of Lyn, Lyn-KO mice, and real-time imaging of Lyn molecules to surface proteins.MIF treatment induced Lyn expression, and MIF down-regulated RANKL-induced activator protein 1 (AP-1) and the Syk/phospholipase C? cascade during osteoclastogenesis through activated Lyn tyrosine kinase. The results of immunoprecipitation studies revealed that MIF receptors associated with Lyn in response to MIF treatment. Studies using Lyn-specific siRNA and Lyn-KO mice confirmed our findings.Our findings indicate that the tyrosine kinase Lyn is activated when MIF binds to its receptor CD74 and its coreceptor CD44 and, in turn, down-regulates the RANKL-mediated signaling cascade by suppressing NF-ATc1 protein expression through down-regulation of AP-1 and calcium signaling components.

Project description:Differentiation of self from nonself is indispensable for maintaining B cell tolerance in peripheral tissues. CD22 and Siglec-G (sialic acid-binding Ig-like lectin G) are two inhibitory coreceptors of the BCR that are implicated in maintenance of tolerance to self Ags. Enforced ligation of CD22 and the BCR by a nanoparticle displaying both Ag and CD22 ligands induces a tolerogenic circuit resulting in apoptosis of the Ag-reactive B cell. Whether Siglec-G also has this property has not been investigated in large part owing to the lack of a selective Siglec-G ligand. In this article, we report the development of a selective high-affinity ligand for Siglec-G and its application as a chemical tool to investigate the tolerogenic potential of Siglec-G. We find that liposomal nanoparticles decorated with Ag and Siglec-G ligand inhibit BCR signaling in both B1 and B2 B cells compared with liposomes displaying Ag alone. Not only is inhibition of B cell activation observed by ligating the BCR with Siglec-G, but robust tolerance toward T-independent and T-dependent Ags is also induced in mice. The ability of Siglec-G to inhibit B cell activation equally in both B1 and B2 subsets is consistent with our observation that Siglec-G is expressed at a relatively constant level throughout numerous B cell subsets. These results suggest that Siglec-G may contribute to maintenance of B cell tolerance toward self Ags in various B cell compartments.