Le complexe GIT-PIX : Une plate-forme de régulation des GTPases ARF et Rac/Cdc42

Les protéines G sont des commutateurs moléculaires contrôlant divers aspects de la vie cellulaire tels que la transduction du signal, la réorganisation du cytosquelette et les mécanismes de transport vésiculaire. Ces protéines fixent alternativement les nucléotides GDP et GTP, ce qui leur permet de transiter entre deux conformations structurelles, respectivement inactive et active. L’activation des protéines G résulte d’une interaction avec un facteur d’échange qui stimule la dissociation du GDP pour le remplacer par du GTP. C’est sous cette forme liée au GTP que les protéines G vont pouvoir interagir avec leurs effecteurs et les activer. La stimulation de l’activité intrinsèque d’hydrolyse des protéines G par des protéines GAP (GTPase activating protein) va conduire à un retour vers la forme inactive liée au GDP. De nombreuses études ont montré l’existence d’interconnexions entre les voies de signalisation impliquant les GTPases ARF (ADP ribosylation factor) et Rac/Cdc42. La découverte d’un complexe protéique comprenant PIX, un facteur d’échange pour Rac/Cdc42 et GIT1, une protéine GAP pour les ARF, a récemment donné un nouvel éclairage sur les moyens mis en oeuvre par la cellule pour réguler de façon étroite l’agencement du cytosquelette et la dynamique des membranes. De plus, la plate-forme PIX-GIT1 est associée à des réseaux de signalisation comprenant des suppresseurs de tumeur. Ces données récentes incitent à prendre ce complexe en considération dans le contexte des pathologies cancéreuses.We recently described that the tumor suppressor factor Scribble anchors the PIX exchange factor for Rac/Cdc42 and the ARF-GAP GIT proteins at the plasma membrane. Because it has been postulated that the GIT-PIX proteins dimerize and tightly self-assemble to form a high molecular weight complex, this nexus may be capable of linking together important signalling molecules to control cytosqueleton polymerization and membrane dynamics. To date, most studies that have tempted to unravel the function of these proteins have found their implication in a great variety of cellular functions (receptor recycling, endo-exocytosis, cell migration, synapse formation…) but have mostly neglected to consider the multimeric organization of this hub. There is no doubt that our comprehension of physiopathological disorders such as cancers will be improved when the nature of the complex pathways integrated by the GIT-PIX nodule will be understood

Interaction with the Phosphotyrosine Binding Domain/Phosphotyrosine Interacting Domain of SHC Is Required for the Transforming Activity of the FLT4/VEGFR3 Receptor Tyrosine Kinase

The FLT4 gene encodes two isoforms of a tyrosine kinase receptor, which belongs to the family of receptors for vascular endothelial growth factor. As the result of an alternative processing of primary mRNA transcripts, the long isoform differs from the short isoform by an additional stretch of 65 amino acid residues located at the C terminus and containing three tyrosine residues, Tyr1333, Tyr1337, and Tyr1363. Only the long isoform is endowed with a transforming capacity in fibroblasts. We show that this activity is related to the capacity of the tyrosine 1337-containing sequence to interact with the phosphotyrosine binding domain of the SHC protein. This demonstrates that a functional property of this newly described domain includes relay of mitogenic signals. In addition, it shows that the same receptor can mediate different functions through the optional binding of the phosphotyrosine binding domain and that the alternative use of this domain is sufficient to direct the signal toward different pathways

Activation peptide of the coagulation factor XIII (AP-F13A1) as a new biomarker for the screening of colorectal cancer

International audienceBackground: Colorectal cancer (CRC) remains a major cause of cancer fatalities in developed countries. The risk of death is correlated to the stage of CRC during the primary diagnosis. Early diagnosis is closely associated with enhanced survival rate. We therefore investigated the AP-F13A1 as a potential protein marker of CRC. Methods: The protein expression of FXIII in 40 serum samples was evaluated by enzyme-linked immunosorbent assays. Additionally, targeted proteomic assays (LC-PRM) were used to evaluate the expression of the activation peptide of F13A1 (AP-F13A1) in a further 113 serum samples. Results were analyzed by the Wilcoxon test and receiver operating characteristic curves generated to assess statistical differences and diagnostic factors between CRC patients and controls. Results: AP-F13A1 was quantified in human serum samples using calibration curves with excellent linearity. AP-F13A1 was reduced in CRC patients using PRM assays from two distinct biobanks. The AUC for AP-F13A1 were 0.95 and 0.93. Sensitivity/specificity values for the two sets of patients were 75%/95% and 71%/95% respectively. Conclusion: We have presented the proof of principle that in vivo release of AP-F13A1 can be measured by PRM-based strategies in CRC serum samples. AP-F13A1 may be an effective serological biomarker as part of a screening program of CRC detection

Ma’ kull qatra semm li sqejtna mal-mejda : il-piż tal-familja fil-poeżija ta’ Antoine Cassar

Minħabba l-influwenza Kattolika, sa qabel l-Indipendenza, dak li kien meqjus bħala l-fus tal-fidi kien meqjus ukoll il-fus tas-soċjetà. Dan kien jgħodd ukoll għall-kunċett tal-familja. Il-Kristjaneżmu kkontribwixxa għall-ispiritwalizzazzjoni taż-żwieġ u l-ħajja fil-familja, u ħoloq kultura ġdida vis-à-vis ir-relazzjoni bejn iż-żewġ imseħbin taż-żwieġ, u dik bejn il-ġenituri u l-ulied. Il-familja saret l-arketip tal-knisja nnifisha u għalhekk il-fus tal-Kristjaneżmu. Dan irrifletta ruħu fil-poeżija Maltija ta’ dak iż-żmien, speċjalment permezz ta’ Dun Karm. Oliver Friggieri jikkummenta li Dun Karm dejjem jammira lill-familja u jaraha bħala l-qofol tas-sistema soċjali kollha. F’poeżiji bħal “Omm”, “Univers Ieħor” u “Żjara lil Ġesù”, id-dar tal-familja hija ppreżentata bħala santwarju, it-tarbija hija mwennsa mill-omm, waqt li l-missier huwa s-sid tad-dar u għalhekk kap tal-familja. Dan huwa wkoll eku tal-enċiklika Rerum Novarum tal-1891 tal-Papa Ljun XIII, li tqis lill-familja bħala predeċessur tas-soċjetà ċivili, lill-missier bħala kap tal-familja, u lill-ulied bħala proprjetà u espansjoni tal-personalità tiegħu.peer-reviewe

A genome-wide study of PDZ-domain interactions in C. elegans reveals a high frequency of non-canonical binding

<p>Abstract</p> <p>Background</p> <p>Proteins may evolve through the recruitment and modification of discrete domains, and in many cases, protein action can be dissected at the domain level. PDZ domains are found in many important structural and signaling complexes, and are generally thought to interact with their protein partners through a C-terminal consensus sequence. We undertook a comprehensive search for protein partners of all individual PDZ domains in <it>C. elegans </it>to characterize their function and mode of interaction.</p> <p>Results</p> <p>Coupling high-throughput yeast two-hybrid screens with extensive validation by co-affinity purification, we defined a domain-orientated interactome map. This integrates PDZ domain proteins in numerous cell-signaling pathways and shows that PDZ domain proteins are implicated in an unexpectedly wide range of cellular processes. Importantly, we uncovered a high frequency of non-canonical interactions, not involving the C-terminus of the protein partner, which were directly confirmed in most cases. We completed our study with the generation of a yeast array representing the entire set of PDZ domains from <it>C. elegans </it>and provide a proof-of-principle for its application to the discovery of PDZ domain targets for any protein or peptide of interest.</p> <p>Conclusions</p> <p>We provide an extensive domain-centered dataset, together with a clone resource, that will help future functional study of PDZ domains. Through this unbiased approach, we revealed frequent non-canonical interactions between PDZ domains and their protein partners that will require a re-evaluation of this domain's molecular function.</p> <p>[The protein interactions from this publication have been submitted to the IMEx (<url>http://www.imexconsortium.org</url>) consortium through IntAct (PMID: 19850723) and assigned the identifier IM-14654]</p

Down-Regulation of ECRG4, a Candidate Tumor Suppressor Gene, in Human Breast Cancer

INTRODUCTION: ECRG4/C2ORF40 is a potential tumor suppressor gene (TSG) recently identified in esophageal carcinoma. Its expression, gene copy number and prognostic value have never been explored in breast cancer. METHODS: Using DNA microarray and array-based comparative genomic hybridization (aCGH), we examined ECRG4 mRNA expression and copy number alterations in 353 invasive breast cancer samples and normal breast (NB) samples. A meta-analysis was done on a large public retrospective gene expression dataset (n = 1,387) in search of correlations between ECRG4 expression and histo-clinical features including survival. RESULTS: ECRG4 was underexpressed in 94.3% of cancers when compared to NB. aCGH data revealed ECRG4 loss in 18% of tumors, suggesting that DNA loss is not the main mechanism of underexpression. Meta-analysis showed that ECRG4 expression was significantly higher in tumors displaying earlier stage, smaller size, negative axillary lymph node status, lower grade, and normal-like subtype. Higher expression was also associated with disease-free survival (DFS; HR = 0.84 [0.76-0.92], p = 0.0002) and overall survival (OS; HR = 0.72 [0.63-0.83], p = 5.0E-06). In multivariate analysis including the other histo-clinical prognostic features, ECRG4 expression remained the only prognostic factor for DFS and OS. CONCLUSIONS: Our data suggest that ECRG4 is a candidate TSG in breast cancer, the expression of which may help improve the prognostication. If functional analyses confirm this TSG role, restoring ECRG4 expression in the tumor may represent a promising therapeutic approach

The PTK7 and ROR2 Protein Receptors Interact in the Vertebrate WNT/Planar Cell Polarity (PCP) Pathway *

International audienceBackground: The planar cell polarity pathway plays important roles in morphogenetic processes. Results: PTK7 and ROR2 form a heterodimeric complex and bind to WNT5A, promoting JNK phosphorylation and regulating expression of paraxial protocadherin. Conclusion: PTK7 and ROR2 promote cell movement in mammalian cells and coordinate cell polarity during morphogenetic movements. Significance: We reveal new mechanisms of action of PTK7 in WNT/PCP signaling. The non-canonical WNT/planar cell polarity (WNT/PCP) pathway plays important roles in morphogenetic processes in vertebrates. Among WNT/PCP components, protein tyrosine kinase 7 (PTK7) is a tyrosine kinase receptor with poorly defined functions lacking catalytic activity. Here we show that PTK7 associates with receptor tyrosine kinase-like orphan receptor 2 (ROR2) to form a heterodimeric complex in mammalian cells. We demonstrate that PTK7 and ROR2 physically and functionally interact with the non-canonical WNT5A ligand, leading to JNK activation and cell movements. In the Xenopus embryo, Ptk7 functionally interacts with Ror2 to regulate protocadherin papc expression and morphogenesis. Furthermore , we show that Ptk7 is required for papc activation induced by Wnt5a. Interestingly, we find that Wnt5a stimulates the release of the tagged Ptk7 intracellular domain, which can translocate into the nucleus and activate papc expression. This study reveals novel molecular mechanisms of action of PTK7 in non-canonical WNT/PCP signaling that may promote cell and tissue movements

Ptk7-Deficient Mice Have Decreased Hematopoietic Stem Cell Pools as a Result of Deregulated Proliferation and Migration

International audienceHematopoietic stem cells (HSCs) located in adult bone marrow or fetal liver in mammals produce all cells from the blood system. Atthe top of the hierarchy are long-term HSCs endowed with lifelong self-renewal and differentiation properties. These features arecontrolled through key microenvironmental cues and regulatory pathways, such as Wnt signaling.We showed previously that PTK7,a tyrosine kinase receptor involved in planar cell polarity, plays a role in epithelial Wnt signaling; however, its function in hematopoiesishas remained unexplored. In this article, we show that PTK7 is expressed by hematopoietic stem and progenitor cells, withthe highest level of protein expression found on HSCs. Taking advantage of a Ptk7-deficient mouse strain, we demonstrate that loss ofPtk7 leads to a diminished pool of HSCs but does not affect in vitro or in vivo hematopoietic cell differentiation. This is correlatedwith increased quiescence and reduced homing abilities of Ptk7-deficient hematopoietic stem and progenitor cells, unraveling noveland unexpected functions for planar cell polarity pathways in HSC fate

Neuropilin-2 Expression Promotes TGF-β1-Mediated Epithelial to Mesenchymal Transition in Colorectal Cancer Cells

Neuropilins, initially characterized as neuronal receptors, act as co-receptors for cancer related growth factors and were recently involved in several signaling pathways leading to cytoskeletal organization, angiogenesis and cancer progression. Then, we sought to investigate the ability of neuropilin-2 to orchestrate epithelial-mesenchymal transition in colorectal cancer cells. Using specific siRNA to target neuropilin-2 expression, or gene transfer, we first observed that neuropilin-2 expression endows HT29 and Colo320 for xenograft formation. Moreover, neuropilin-2 conferred a fibroblastic-like shape to cancer cells, suggesting an involvement of neuropilin-2 in epithelial-mesenchymal transition. Indeed, the presence of neuropilin-2 in colorectal carcinoma cell lines was correlated with loss of epithelial markers such as cytokeratin-20 and E-cadherin and with acquisition of mesenchymal molecules such as vimentin. Furthermore, we showed by surface plasmon resonance experiments that neuropilin-2 is a receptor for transforming-growth factor-β1. The expression of neuropilin-2 on colon cancer cell lines was indeed shown to promote transforming-growth factor-β1 signaling, leading to a constitutive phosphorylation of the Smad2/3 complex. Treatment with specific TGFβ-type1 receptor kinase inhibitors restored E-cadherin levels and inhibited in part neuropilin-2-induced vimentin expression, suggesting that neuropilin-2 cooperates with TGFβ-type1 receptor to promote epithelial-mesenchymal transition in colorectal cancer cells. Our results suggest a direct role of NRP2 in epithelial-mesenchymal transition and highlight a cross-talk between neuropilin-2 and TGF-β1 signaling to promote cancer progression. These results suggest that neuropilin-2 fulfills all the criteria of a therapeutic target to disrupt multiple oncogenic functions in solid tumors

High population frequency of GNRHR p. Q106R in Malta : an evaluation of fertility and hormone profiles in heterozygotes

Context: The gonadotropin-releasing hormone receptor variant GNRHR p.Q106R (rs104893836) in homozygosity, compound heterozygosity, or single heterozygosity is often reported as the causative variant in idiopathic hypogonadotropic hypogonadism (IHH) patients with GnRH deficiency. Genotyping of a Maltese newborn cord-blood collection yielded a minor allele frequency (MAF) 10 times higher (MAF = 0.029; n = 493) than that of the global population (MAF = 0.003). Objective: To determine whether GNRHR p.Q106R in heterozygosity influences profiles of endogenous hormones belonging to the hypothalamic-pituitary axis and the onset of puberty and fertility in adult men (n = 739) and women (n = 239). Design, Setting, and Participants: Analysis of questionnaire data relating to puberty and fertility, genotyping of the GNRHR p.Q106R variant, and hormone profiling of a highly phenotyped Maltese adult cohort from the Maltese Acute Myocardial Infarction Study. Main Outcome and Results: Out of 978 adults, 43 GNRHR p.Q106R heterozygotes (26 men and 17 women) were identified. Hormone levels and fertility for all heterozygotes are within normal parameters except for TSH, which was lower in men 50 years or older. Conclusion: Hormone data and baseline fertility characteristics of GNRHR p.Q106R heterozygotes are comparable to those of homozygous wild-type individuals who have no reproductive problems. The heterozygous genotype alone does not impair the levels of investigated gonadotropins and sex steroid hormones or affect fertility. GNRHR p.Q106R heterozygotes who exhibit IHH characteristics must have at least another variant, probably in a different IHH gene, that drives pathogenicity. We also conclude that GNRHR p.Q106R is likely a founder variant due to its overrepresentation and prevalence in the island population of Malta.peer-reviewe