Project description:The CDK inhibitor p27Kip1 is a critical regulator of cell cycle progression, but the mechanisms by which p27Kip1 controls cell proliferation in vivo are still not fully elucidated. We recently demonstrated that the microtubule destabilizing protein stathmin is a relevant p27Kip1binding partner involved in the regulation of cell motility. To get more insights into the in vivo significance of this interaction, we generated p27Kip1 and stathmin double knock out (DKO) mice. Interestingly, thorough characterization of DKO mice demonstrated that most of the phenotypes of p27Kip1 null mice linked to the hyperproliferative behavior, such as the increased body and organ weights, the outgrowth of the retina basal layer and the development of pituitary adenomas, were reverted by co-ablation of stathmin. In vivo analyses showed a reduced proliferation rate in DKO compared to p27kip1 null mice, linked, at molecular level, to decreased kinase activity of CDK4/6, rather than of CDK1 and CDK2. Gene expression profile analyses of mouse thymuses confirmed the phenotypes observed in vivo, demonstrating that DKO clustered with WT and not with p27KO thymuses. Taken together, the results demonstrate that stathmin cooperates with p27Kip1 to control the early phase of G1 to S phase transition and strongly suggest that this function has particular relevance in the contest of tumor progression. Four-conditions experiment (four different mouse genotypes), 6 biological replicates of wild type mouse thymus, 6 biological replicates of p27 knock-out mouse thymus, 6 biological replicates of stathmin knock-out mouse thymus, 6 biological replicates of double knock-out (p27 and stathmin) mouse thymus. Reference design: pool of RNAs derived from mouse fibroblasts of all the genotypes.Reference design;

Project description:The integrated regulation of different intracellular signaling pathways is fundamental to ensure appropriate timing of cell division and, more in general, proper development of any living organism. Adopted mechanisms include the instauration of feedback regulations and/or to rely on a single molecule for the control of multiple processes. We now present evidences that in mammalian cells the CDK inhibitor p27kip1, by a CDK-independent and stathmin-dependent mechanism, is implicated in the control of the MAPK pathway, eventually influencing cell proliferation in vitro and mice growth in vivo. This p27kip1 activity regulates H-Ras driven transformation in mice and controls tumor progression in humans. Altogether, our work unveils a new mechanism that in mammalian cells contributes to proper regulation of cell proliferation and whose alteration may contribute to tumor onset and/or progression.

Project description:Purpose: Esophageal squamous cell carcinoma (ESCC) is a serious malignant tumor, it affects human health. We analyzed the correlation between serum Stathmin levels and ESCC, further elucidated the molecular mechanisms how Stathmin promotes ESCC cell invasion and metastasis. Methods: Stathmin levels in ESCC and healthy control serum was detected by enzyme-linked immunosorbent assay (ELISA), and analyzed the clinical parameters. We established ESCC cells with Stathmin overexpression or knockdown, next evaluated the effects of Stathmin on invasion, metastasis and proliferation in ESCC. The expression levels of the integrin family, focal adhesion kinase (FAK) protein and extracellular signal-regulated kinase (ERK) were detected by immunoblotting. Results: Serum levels of Stathmin were significantly higher in ESCC and associated with lymph node metastasis, tumor stage and size. Furthermore, we found Stathmin promotes migration, invasion and proliferation of ESCC cells in vitro and in vivo. Further study confirmed that the activation of integrinα5β1/FAK/ERK pathway is increased in Stathmin overexpression cells, this pathway contribute to strengthen cell adhesion. Stathmin accelerates the cell motility by enhancing cell adhesion ability. Conclusion: Stathmin may be a potential biomarker for ESCC clinical detection, and it can promotes ESCC cell invasion and metastasis through the integrinα5β1/FAK/ERK pathway. The differentially expressed genes were analyzed by Human Transcriptome Array, and confirmed by RT-PCR.

Project description:Mice lacking the p27Kip1 Cdk inhibitor (Cdkn1b) exhibit increased susceptibility to lymphomas from the Maloney murine leukemia virus (M-MuLV), and exhibit a high frequency of viral integrations at Xpcl1 (Kis2), a locus on the X-chromosome. Xpcl1 encodes miR-106a~363, a cluster of microRNAs that are expressed in response to adjacent retroviral integrations. We report the first large-scale profile of microRNA expression in MuLV-induced lymphomas, in combination with microarray gene expression analysis. The source material was T-cell lymphomas induced by M-MuLV in p27Kip1 knockout mice and normal thymus. Surprisingly, the overall levels of miRNA expression were equivalent in lymphomas and normal thymus. Nonetheless, the expression of specific microRNAs was altered in tumors. The miR-106a~363 miRNA were over-expressed in lymphomas, particularly those with viral integrations at the Xpcl1 locus. In contrast, p27Kip1 deletion itself was associated with a different pattern of microRNA expression. Gene expression was dramatically altered in lymphomas, yet paralleled data from T-cell lymphomas induced by other mechanisms. Genes with altered expression in association with the p27Kip1 null genotype were of similar functional classes to those associated with Xpcl1 integration, but with the opposite pattern of expression. Thus, the effect of p27Kip1 deletion may be to oppose an anti-oncogenic effect of Xpcl1 rather than enhancing its oncogenic functions. A subset of miR-106a~363 target genes was consistently reduced in lymphomas with Xpcl1 integrations, particularly genes with cell cycle and immune functions. We identify four predicted target genes of miR-106a~363 miRNA, including N-Myc (Mycn), and the TGF-beta receptor (Tgfbr2) using 3'UTR reporter assays. Still, bioinformatic miRNA target predictions were poor predictors of altered gene expression in lymphomas with Xpcl1 integration. Confirmation of miR- 106a~363 gene targeting relevant to the tumor phenotype requires in vivo validation, because only a subset of predicted targets are consistently reduced in tumors that overexpress miR- 106a~363.

Project description:Amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) are associated with loss of nuclear TDP-43. Here we identify that TDP-43 regulates expression of the neuronal growth-associated factor stathmin-2. Lowered TDP-43 levels, which reduce its binding to sites within the first intron of stathmin-2 pre-mRNA, uncover a cryptic polyadenylation site whose utilization produces a truncated, non-functional mRNA. Reduced stathmin-2 expression is found in neurons trans-differentiated from patient fibroblasts expressing an ALS-causing TDP-43 mutation, in motor cortex and spinal motor neurons from sporadic ALS patients and familial ALS patients with expansion in C9orf72, and in induced pluripotent stem cell (iPSC)-derived motor neurons depleted of TDP-43. Remarkably, while reduction in TDP-43 is shown to inhibit axonal regeneration of iPSC-derived motor neurons, rescue of stathmin-2 expression restores axonal regenerative capacity. Thus, premature polyadenylation-mediated reduction in stathmin-2 is a hallmark of ALS/FTD that functionally links reduced nuclear TDP-43 function to enhanced neuronal vulnerability.

Project description:Stathmin 1 is a microtubules (MT)-destabilizing protein and, as such, it is critically involved in the regulation of mitosis, vesicular trafficking and cell motility. Since the integrity of the mammary gland relies on the maintenance of oriented cell division and apico-basal polarity and the preservation of these characteristics is essential for mammary gland functionality and for preventing breast cancer, it is important to evaluate the role of stathmin in this context.

Project description:Genetic characterization of p27Kip1 and stathmin role in controlling cell proliferation in vivo

Project description:HIV gp120-induced stathmin phosphorylation peptide sequences identified by mass spectrometry in the proteins immunoprecipitated from stathmin-GFP expressed cell lysates with the GFP-beads.

Project description:The peptide sequences identified by mass spectrometry in the proteins immunoprecipitated from stathmin-GFP expressed HEK293T lysates with the GFP-beads.

Project description:Goal of the experiment was to examine the effects of different Toll-like receptor agonists on the human astrocyte response, in termsof levels of transcripts encoding cytokines, chemokines and theirreceptors. Stathmin and poly IC are considered as agonist for TLR3, LPSas an agonist for TLR4. The manuscript we are about to submit to Journal of Immunology contains these data, and identifies stathmin, aprotein, as a novel TLR3 agonist. We all know that poly IC is, and bycomparing the transcript responses in astrocytes to either poly IC andstathmin, and observing the similarity in these responses, the experiment adds to the evidence that stathmin indeed activates a verysimilar cellular response as poly IC. The LPS-induced response,mediated by TLR4, is included as a reference, to illustrate thatanother TLR-mediated reaction produces quite something different.