In vivo knockdown of TAK1 accelerates bone marrow proliferation/differentiation and induces systemic inflammation.

TAK1 (TGF-ß Activated Kinase 1) is a MAPK kinase kinase, which activates the p38- and JNK-MAPK and NF-κB pathways downstream of receptors such as Toll-Like-, cytokine- and T-cell and B-cell receptors. Representing such an important node in the pro-inflammatory signal-transduction network, the function of TAK1 has been studied extensively. TAK1 knock-out mice are embryonic lethal, while conditional knock-out mice demonstrated either a pro- or anti-inflammatory function. To study the function of TAK1 protein in the adult immune system, we generated and characterized a transgenic mouse expressing TAK1 shRNA under the control of a doxycycline-inducible promoter. Following treatment of TAK-1 shRNA transgenic mice with doxycycline an effective knockdown of TAK1 protein levels was observed in lymphoid organs and cells in the peritoneal cavity (>50% down regulation). TAK1 knockdown resulted in significant changes in leukocyte populations in blood, bone marrow, spleen and peritoneal cavity. Upon TAK1 knockdown mice demonstrated splenomegaly, signs of systemic inflammation (increased levels of circulating cytokines and increase in cellularity of the B-cell areas and in germinal center development in the follicles) and degenerative changes in heart, kidneys and liver. Not surprisingly, TAK1-Tg mice treated with LPS or anti-CD3 antibodies showed enhanced cytokine/chemokine secretion. Finally, analysis of progenitor cells in the bone marrow upon doxycycline treatment showed increased proliferation and differentiation of myeloid progenitor cells. Given the similarity of the phenotype with TGF-ß genetic models, our data suggest that in our model the function of TAK1 in TGF-ß signal-transduction is overruling its function in pro-inflammatory signaling.

BH3-only protein Noxa regulates apoptosis in activated B cells and controls high-affinity antibody formation.

The efficiency of humoral immune responses depends on the selective outgrowth of B cells and plasma cells that produce high affinity antibodies. The factors responsible for affinity maturation of B cell clones in the germinal center (GC) have been well established but selection mechanisms that allow clones to enter the GC are largely unknown. Here we identify apoptosis, regulated by the proapoptotic BH3-only member Noxa (Pmaip1), as a critical factor for the selection of high-affinity clones during B cell expansion after antigen triggering. Noxa is induced in activated B cells, and its ablation provides a survival advantage both in vitro and in vivo. After immunization or influenza infection, Noxa(-/-) mice display enlarged GCs, in which B cells with reduced antigen affinity accumulate. As a consequence, Noxa(-/-) mice mount low affinity antibody responses compared with wild-type animals. Importantly, the low affinity responses correlate with increased immunoglobulin diversity, and cannot be corrected by booster immunization. Thus, normal elimination of low affinity cells favors outgrowth of the remaining high-affinity clones, and this is mandatory for the generation of proper antibody responses. Manipulation of this process may alter the breadth of antibody responses after immunization.

A novel role for CD55 in granulocyte homeostasis and anti-bacterial host defense.

BACKGROUND: In addition to its complement-regulating activity, CD55 is a ligand of the adhesion class G protein-coupled receptor CD97; however, the relevance of this interaction has remained elusive. We previously showed that mice lacking a functional CD97 gene have increased numbers of granulocytes. METHODOLOGY/RESULTS: Here, we demonstrate that CD55-deficient mice display a comparable phenotype with about two-fold more circulating granulocytes in the blood stream, the marginated pool, and the spleen. This granulocytosis was independent of increased complement activity. Augmented numbers of Gr-1-positive cells in cell cycle in the bone marrow indicated a higher granulopoietic activity in mice lacking either CD55 or CD97. Concomitant with the increase in blood granulocyte numbers, Cd55⁻/⁻ mice challenged with the respiratory pathogen Streptococcus pneumoniae developed less bacteremia and died later after infection. CONCLUSIONS: Collectively, these data suggest that complement-independent interaction of CD55 with CD97 is functionally relevant and involved in granulocyte homeostasis and host defense.

CD70-driven chronic immune activation is protective against atherosclerosis.

Chronic infection and inflammation are strongly associated with the development of atherosclerosis. To investigate whether chronic inflammation in the absence of an infectious cause also predisposes to the development of atherosclerosis, we used a mouse model in which sterile inflammation is driven by enhanced costimulation. Constitutive triggering of CD27 on T cells through overexpression of CD70 on B cells increases the numbers of IFN gamma-producing effector T cells, which reduces the numbers of B cells. However, despite these pro-atherogenic features, we found that CD70-transgenic (CD70TG) mice on an ApoE*3-Leiden background were strongly protected against the induction of atherosclerotic lesions, with a normal increase in serum cholesterol level and the absence of atheroprotective antibodies. We found that circulating monocytes in CD70TG mice were activated and increased in numbers, in particular the pool of inflammatory (Ly6C(+)) monocytes. Importantly, monocytes from CD70TG mice had no defects in phagocytosis nor in TNFalpha production, but they were more prone to apoptosis, which was IFN gamma-dependent. These data indicate that sterile pro-inflammatory conditions can be protective against atherosclerosis development, possibly due to a reduced viability of circulating monocytes. This unexpected outcome provides a new insight into the consequences of costimulatory signals and their impact on innate immunity.

Continuous CD27 triggering in vivo strongly reduces NK cell numbers.

NK cells are important mediators of the early defense. In mice, immature and mature NK (mNK) cells constitutively express the TNF receptor family member CD27; however, mNK cells eventually lose CD27 expression and become resting NK cells. Interaction of CD27 with its ligand, CD70, enhances proliferation and effector functions of NK cells. We used mice that constitutively express CD70 on B cells (CD70-Tg) to study the in vivo effects of continuous triggering of CD27 on NK cells. Continuous CD70-CD27 interaction resulted in strongly down-modulated CD27 expression on NK cells and gradually reduced absolute NK cell numbers. This reduction was most prominent in the mNK cell subpopulation and was at least partially due to increased apoptosis. Residual NK cells showed lower expression of activating Ly49 receptors and normal (liver) or decreased (spleen) IFN-gamma production. Nevertheless, NK cells from CD70-Tg mice displayed higher YAC-1 killing capacities. CD70-Tg NK cells exhibited up-regulated expression of NKG2D, which is in accordance with the increased YAC-1 lysis, as this is mainly NKG2D-dependent. Taken together, this study is the first to demonstrate that continuous CD70 triggering of CD27 on NK cells in vivo results in a severe reduction of NK cells. On a single cell basis, however, residual NK cells display enhanced cytotoxicity.

Activating mutations in c-KIT and PDGFRalpha are exclusively found in gastrointestinal stromal tumors and not in other tumors overexpressing these imatinib mesylate target genes.

Previous studies have shown that Imatinib mesylate (Gleevec), a selective tyrosine kinase inhibitor of c-KIT and platelet-derived growth factor receptors (PDGFR), is highly effective in c-KIT/CD117-positive gastrointestinal stromal tumors (GIST), especially in those having activating mutations in c-kit exon 11. In addition, gain-of-function mutations in the juxtamembrane domain (exon 12) and the kinase activation loop (exon 18) of PDGFRalpha were found in GISTs. Importantly, the presence and type of these mutually exclusive c-KIT or PDGFRalpha mutations were found to be associated with the response to imatinib. Here, we examined the prevalence of c-kit exon 11 and PDGFRalpha exons 12 and 18 mutations in other tumor types known to express these tyrosine kinase receptors in order to explore which other cancer types may potentially benefit from imatinib treatment. We determined the mutational status of these commonly mutated exons by direct sequencing in 11 different tumor types (in total: 215 unrelated cases), including GIST, chordoma, and various distinct tumors of lung, brain and its coverings, and skin cancer. Of the 579 exons examined (211 c-kit exon 11, 192 PDGFRalpha exon 12, 142 PDGFRalpha exon18, 17 PDGFRbeta exon 12 and 17 PDGFRbeta exon 18), only 12 (all GIST) harbored mutations (10 c-kit exon 11 and 2 PDGFRalpha exon18). From these data we conclude that activating c-KIT and PDGFR mutations are sporadic in human cancers known to overexpress these tyrosine kinase receptor genes and suggest that, except in GIST, this overexpression is not correlated with activating mutations. The latter may imply that these wild-type c-KIT and PDGFR tumor types will probably not benefit from imatinib treatment.