The Down syndrome critical region protein TTC3 inhibits neuronal differentiation via RhoA and Citron kinase.

The Down syndrome critical region (DSCR) on Chromosome 21 contains many genes whose duplication may lead to the major phenotypic features of Down syndrome and especially the associated mental retardation. However, the functions of DSCR genes are mostly unknown and their possible involvement in key brain developmental events still largely unexplored. In this report we show that the protein TTC3, encoded by one of the main DSCR candidate genes, physically interacts with Citron kinase (CIT-K) and Citron N (CIT-N), two effectors of the RhoA small GTPase that have previously been involved in neuronal proliferation and differentiation. More importantly, we found that TTC3 levels can strongly affect the NGF-induced differentiation of PC12 cells, by a CIT-K-dependent mechanism. Indeed, TTC3 overexpression leads to strong inhibition of neurite extension, which can be reverted by CIT-K RNAi. Conversely, TTC3 knockdown stimulates neurite extension in the same cells. Finally, we find that Rho, but not Rho kinase, is required for TTC3 differentiation-inhibiting activity. Our results suggest that the TTC3–RhoA–CIT-K pathway could be a crucial determinant of in vivo neuronal development, whose hyperactivity may result in detrimental effects on the normal differentiation program

Induction of Germinal Centers by MMTV Encoded Superantigen on B Cells

It has not been established whether an endogenous superantigen (SAg) expressed on B cells can induce germinal centers (GCs). An interesting model is that of mammary tumor virus encoded viral SAgs, which induce vigorous T cell proliferation and are predominantly expressed on activated B cells. We have used this model to analyze the possibility that direct stimulation of Mtv7+ DBA/2 B cells by vSAg-responsive (Vβ6+) BALB/c T cells can give rise to GCs. Injection of BALB/c SCID mice iv with 2 × 106 DBA/2 B cells, together with LPS, followed by 2 × 106 BALB/c T cells induces numerous large splenic GCs within 3–5 days. The GCs are still large on day 7, but are very much reduced by day 10. B cell activation with LPS is needed for this effect. These GCs form in spite of the apparent absence of follicular dendritic cells (FDCs) as judged by staining for several FDC surface markers. Control mice receiving either BALB/c T or DBA/2 B cells + LPS alone or DBA/2 T + B cells + LPS fail to exhibit any GCs on days 3–7. Numerous small clusters of PNA+ cells, but few large GCs are observed when TNF-R(p55)-Ig is also injected, whereas LTβR-Ig treatment impeded the formation of aggregations of these cells even further, leaving scattered PNA+ single cells and very small clumps throughout the white pulp of the spleens. Anti-TNFα had no effect. These results suggest that endogenous vSAg mediated GC formation is independent of antigen trapping by FDCs

Inhibition of Rac controls NPM–ALK-dependent lymphoma development and dissemination

Nucleophosmin-anaplastic lymphoma kinase (NPM–ALK) is a tyrosine kinase oncogene responsible for the pathogenesis of the majority of human ALK-positive lymphomas. We recently reported that it activated the Rac1 GTPase in anaplastic large-cell lymphoma (ALCL), leading to Rac-dependent formation of active invadopodia required for invasiveness. Herein, we went further into the study of this pathway and used the inhibitor of Rac, NSC23766, to validate its potential as a molecular target in ALCL in vitro and in vivo in a xenograft model and in a conditional model of NPM–ALK transgenic mice. Our data demonstrate that Rac regulates important effectors of NPM–ALK-induced transformation such as Erk1/2, p38 and Akt. Moreover, inhibition of Rac signaling abrogates NPM–ALK-elicited disease progression and metastasis in mice, highlighting the potential of small GTPases and their regulators as additional therapic targets in lymphomas

The lymphoma-associated NPM-ALK oncogene elicits a p16INKa/pRb-dependent tumour-suppressive pathway

Oncogene induced senescence (OIS) is a barrier for tumour development. Oncogene-dependent DNA damage and activation of the ARF/p53 pathway play a central role in OIS and, accordingly, ARF and p53 are frequently mutated in human cancer. A number of leukemia/lymphoma-initiating oncogenes, however, inhibit ARF/p53 and only infrequently select for ARF or p53 mutations, suggesting the involvement of other tumour-suppressive pathways. We report that NPM-ALK, the initiating oncogene of Anaplastic Large Cell Lymphomas (ALCLs), induces DNA-damage and irreversibly arrests the cell cycle of primary fibroblasts and hematopoietic progenitors. This effect is associated with inhibition of p53 and is due to activation of the p16INK4a/pRb tumour-suppressive pathway. Analysis of NPM-ALK lymphomagenesis in transgenic mice showed p16INK4a-dependent accumulation of senescent cells in pre-malignant lesions and decreased tumour latency in the absence of p16INK4a. Accordingly, human ALCLs showed no expression of either p16INK4a or pRb. Up-regulation of the histone-demethylase Jmjd3 and de-methylation at the p16INK4a promoter contributed to the effect of NPM-ALK on p16INK4a, which was transcriptionally regulated. These data demonstrate that p16INK4a/pRb may function as an alternative pathway of oncogene-induced senescence, and suggest that the reactivation of p16INK4a expression might be a novel strategy to restore the senescence program in some tumours

Inhibition of Anaplastic Lymphoma Kinase (ALK) Activity Provides a Therapeutic Approach for CLTC-ALK-Positive Human Diffuse Large B Cell Lymphomas

ALK positive diffuse large B-cell lymphomas (DLBCL) are a distinct lymphoma subtype associated with a poor outcome. Most of them feature a t(2;17) encoding a clathrin (CLTC)-ALK fusion protein. The contribution of deregulated ALK-activity in the pathogenesis and maintenance of these DLBCLs is not yet known. We established and characterized the first CLTC-ALK positive DLBCL cell line (LM1). LM1 formed tumors in NOD-SCID mice. The selective ALK inhibitor NVP-TAE684 inhibited growth of LM1 cells in vitro at nanomolar concentrations. NVP-TAE684 repressed ALK-activated signalling pathways and induced apoptosis of LM1 DLBCL cells. Inhibition of ALK-activity resulted in sustained tumor regression in the xenotransplant tumor model. These data indicate a role of CLTC-ALK in the maintenance of the malignant phenotype thereby providing a rationale therapeutic target for these otherwise refractory tumors

po 130 ser235 residue drives eif6 oncogenic activity in npm alk induced t cell lymphomagenesis

Introduction Dysregulation of mRNA translational control in cancer leads to cell transformation, metabolic reprogramming and angiogenesis. eIF6 is an oncogenic translation factor, which regulates the initiation phase of translation acting on 60S availability in the cytoplasm and controlling active 80S complex formation. eIF6 activation is mTORC1-independent and driven by PKCβ mediated phosphorylation on Ser235. An increment of eIF6 expression is reported in several cancer cell lines and human tumours, due to amplification or overexpression. In mice, eIF6 haploinsufficiency blocks Myc-driven lymphomagenesis. Intriguingly, high levels of PKC and eIF6 are found in T-cell lymphomas. In particular, in Anaplastic Large Cell Lymphoma (ALCL) eIF6 is overexpressed and hyperactivated. Material and methods Here, we aimed to define the role of eIF6 phosphorylation in NPM-ALK mediated T-cell lymphomagenesis, combining multidisciplinary studies on murine and cellular models. We used a conditional eIF6 SA KI mouse model in which Ser235 is replaced by an Ala. Results and discussions First, we addressed the effect of eIF6 mutated protein expression in all tissues: homozygosity is lethal after gastrulation while heterozygous mice are viable but resistant to NPM-ALK driven lymphomagenesis. Then, we investigated the role of Ser235 phosphorylation specifically in T-cell lineage, crossing eIF6 SA KI mice with CD4-Cre mice. Physiological T-cell development and subsets composition are not affected by the eIF6 mutated protein. In cancer, eIF6 SA/SA CD4-Cre NPM-ALK mice have a significant increase in survival time, compared to wt with a delay in the appearance of lymphoma up to 6 months. Histological analysis and ex vivo cultures confirm the delay in disease development. eIF6 SA/SA CD4-Cre NPM-ALK thymocytes are smaller respect to wt counterparts and show a striking senescence-like phenotype in vitro . Similarly, in vitro generated eIF6 SA/SA MEFs show a markedly reduced proliferation and increased SA β-gal positivity. This phenotype is completely rescued by transducing eIF6 wild-type, but not by eIF6 SA . Currently, we are investigating the molecular mechanisms by which eIF6 phosphorylation affects ALK-induced malignancy and whether it may modulate premature cell senescence, thus establishing an effective barrier to T-cell lymphomagenesis. Conclusion Our work demonstrates for the first time that eIF6 phosphorylation plays an essential role in mammals development, cell homeostasis and is rate-limiting for T-cell lymphomagenesis in vivo

High-order chromatin architecture determines the landscape of chromosomal alterations in cancer

The rapid growth of cancer genome structural information provides an opportunity for a better understanding of the mutational mechanisms of genomic alterations in cancer and the forces of selection that act upon them. Here we test the evidence for two major forces, spatial chromosome structure and purifying (or negative) selection, that shape the landscape of somatic copy-number alterations (SCNAs) in cancer1. Using a maximum likelihood framework we compare SCNA maps and three-dimensional genome architecture as determined by genome-wide chromosome conformation capture (HiC) and described by the proposed fractal-globule (FG) model2. This analysis provides evidence that the distribution of chromosomal alterations in cancer is spatially related to three-dimensional genomic architecture and additionally suggests that purifying selection as well as positive selection shapes the landscape of SCNAs during somatic evolution of cancer cells