BORIS/CTCFL-mediated transcriptional regulation of the hTERT telomerase gene in testicular and ovarian tumor cells.

Telomerase activity, not detectable in somatic cells but frequently activated during carcinogenesis, confers immortality to tumors. Mechanisms governing expression of the catalytic subunit hTERT, the limiting factor for telomerase activity, still remain unclear. We previously proposed a model in which the binding of the transcription factor CTCF to the two first exons of hTERT results in transcriptional inhibition in normal cells. This inhibition is abrogated, however, by methylation of CTCF binding sites in 85% of tumors. Here, we showed that hTERT was unmethylated in testicular and ovarian tumors and in derivative cell lines. We demonstrated that CTCF and its paralogue, BORIS/CTCFL, were both present in the nucleus of the same cancer cells and bound to the first exon of hTERT in vivo. Moreover, exogenous BORIS expression in normal BORIS-negative cells was sufficient to activate hTERT transcription with an increasing number of cell passages. Thus, expression of BORIS was sufficient to allow hTERT transcription in normal cells and to counteract the inhibitory effect of CTCF in testicular and ovarian tumor cells. These results define an important contribution of BORIS to immortalization during tumorigenesis.

Functional roles of Na,K-ATPase subunits

PURPOSE OF REVIEW: Na,K-ATPase is an oligomeric protein composed of alpha subunits, beta subunits and FXYD proteins. The catalytic alpha subunit hydrolyzes ATP and transports the cations. Increasing experimental evidence suggest that beta subunits and FXYD proteins essentially contribute to the variable physiological needs of Na,K-ATPase function in different tissues. RECENT FINDINGS: Beta subunits have a crucial role in the structural and functional maturation of Na,K-ATPase and modulate its transport properties. The chaperone function of the beta subunit is essential, for example, in the formation of tight junctions and cell polarity. Recent studies suggest that beta subunits also have inherent functions, which are independent of Na,K-ATPase activity and which may be involved in cell-cell adhesiveness and in suppression of cell motility. As for FXYD proteins, they modulate Na,K-ATPase activity in a tissue-specific way, in some cases in close cooperation with posttranslational modifications such as phosphorylation. SUMMARY: A better understanding of the multiple functional roles of the accessory subunits of Na,K-ATPase is crucial to appraise their influence on physiological processes and their implication in pathophysiological states

" Leishmania major " metacaspase in programmed cell death

Abstract: The human protozoan parasite Leishmania major has been shown to exhibit several morphological and biochemical features characteristic of a programmed cell death (PCD) when differentiating into infectious stages and under a variety of stress conditions. In mammalian cells, the principal effector molecules of PCD or apoptosis are caspases. Although some caspase-like peptidase activity has been reported in dying parasites, no caspase gene is present in the L. major genome. However, a single metacaspase gene is present in L. major whose encoded protein harbors the predicted secondary structure and the catalytic dyad histidine/cysteine described for caspases and other metacaspases identified in plants and yeast. Metacaspases are also present in other protozoan parasites such as Trypanosoma and Plasmodium species and are not present in mammalian cells, which make them a possible drug target for the treatment of the parasitic diseases they cause. The Saccharomyces cerevisiae metacaspase YCA1 has been implicated in the death of aging cells, cells defective in some biological functions, and cells exposed to different environmental stresses. In this study, we evaluated the functional heterologous complementation of a S. cerevisiae ycal null mutant with the L. major metacaspase (LmjMCA} in cell death induced by oxidative stress. We show that LmjMCA is involved in yeast cell death, similar to YCA1, and that this function depends on its catalytic activity. LmjMCA was found to be auto-processed as occurs for caspases, however, LmjMCA did not exhibit any activity with caspase substrates. In contrast, LmjMCA was active towards substrates with arginine in the P1 position, with the activity being abolished following H147A and C202A catalytic site mutations and addition of the arginal inhibitor leupeptin. In order to identify the L. major proteins that may function as substrates, inhibitors, or may bind and recruit LmjMCA, a yeast two-hybrid screening with cDNA libraries from different life cycle stages of the parasite was conducted. Proteins putatively involved in PCD were identified as interacting with LmjMCA, however, the interaction of LmjMCA with proteins involved in other physiological processes such as vesicle transport, suggests that LmjMCA could have additional roles in the different life cycle stages of the parasite. Résumé: Plusieurs caractéristiques morphologiques et biochimiques rappelant la mort cellulaire programmée ont été identifiées dans les stades infectieux et sous des conditions de stress, chez le parasite protozoaire humain, Leishmania major. Dans les cellules de mammifères, les caspases sont les molécules effectrices principales impliquées dans la mort cellulaire programmée et l'apoptose. Bien qu'une activité caspase ait été retrouvée dans des parasites en mon` cellulaire, le génome de Leishmania ne contient aucun gène qui pourrait coder pour une caspase. À la place, on retrouve un gène unique codant pour une métacaspase. Une prédiction de la structure secondaire de la métacaspase montre que cette métacaspase a un domaine catalytique contenant la dyade histidine/cystéine présente dans les caspases et les autres métacaspases décrites chez les plantes et la levure. Les métacaspases sont aussi présentes dans d'autres parasites protozoaires tels que Trypanosome et Plasmodium, mais ne sont pas présentes dans les cellules de mammifères, ce qui en fait des cibles intéressantes pour le développement de drogue. Dans la levure, Saccharomyces cerevisiae, la métacaspase YCA1 est impliquée dans la mort des cellules âgées, la mort des cellules défectueuses dans certaines fonctions biologiques et dans les cellules exposées à différents stress environnementaux. Dans cette étude, une complémentation hétérologue fonctionnelle d'un mutant de la levure déficient en YCA1 par le gène LmjMCA de L. major lors de l'induction de ta mort par stress oxydatif a été évaluée. Nos résultats montrent que LmjMCA peut remplacer YGA1 dans le programme de mort cellulaire chez la levure et que celte fonction dépend de son activité catalytique. De plus, LmjMCA subit une auto clivage comme les caspases mais n'exhibe aucune spécificité pour les substrats des caspases. Au contraire, LmjMCA est active envers des substrats ayant une arginine en position P1, son activité étant détruite suite à des changements de son domaine catalytique par les mutations H147A et C202A ou suite à une inhibition para la leupeptine. Afin d'identifier quels pourraient être les substrats, les inhibiteurs ou les molécules interagissant avec LmjMCA, nous avons entrepris un criblage double-hybride en utilisant des librairies de d'ADNc provenant de différents stades du cycle parasitaire. Plusieurs protéines potentiellement impliquées dans un programme de mort cellulaire ont été identifiées comme interagissant avec LmjMCA. Cependant, l'identification de protéines impliquées dans le transport vésiculaire suggère aussi que LmjMCA pourrait avoir un rôle additionnel dans les différents stades du cycle parasitaire. Résumé destiné à un large public: De nos jours, la leishmaniose est la deuxième plus importante maladie parasitaire après la malaria. Malgré les avancées accomplies dans les stratégies de contrôle, près de deux millions de nouveaux cas apparaissent chaque année. Actuellement, la principale stratégie pour faire face à ce problème épidémiologique consiste en un traitement pharmacologique des personnes infectées. Pourtant, seule une dizaine de médicaments, dont la plupart sont toxiques, est disponible pour traiter la leishmaniose et des cas de résistance émergent dans certains pays endémiques. Il devient donc urgent de mettre au point de nouveaux traitements anti-leishmaniens capables d'éliminer le parasite sans effets indésirables sur le patient. Récemment, des caractéristiques morphologiques et biochimiques de la mort cellulaire programmée (MCP) semblables au processus de l'apoptose chez les mammifères ont été décrites dans Leishmania. Cependant, des gènes codant pour des protéines similaires à celles qui sont impliquées dans l'apoptose, comme les caspases, ne se retrouvent pas dans le génome de Leishmanía major. Néanmoins, les espèces de Leishmanía, aussi bien que d'autres parasites protozoaires responsables des trypanosomiases et de la malaria, possèdent des métacaspases qui sont des protéines homologues aux caspases mais qui ne sont pas présentes chez les mammifères. C'est pourquoi, la caractérisation de la métacaspase de Leishmania (LmjMCA) ainsi que ses mécanismes d'activation pourrait être une piste d'investigation intéressante dans l'identification de nouvelles cibles thérapeutiques dans les voies de signalisation de la MCP des parasites protozoaires. Dans la levure, Saccharomyces cerevisiae, la métacaspase YCA1 est impliquée dans la mort des cellules âgées, la mort des cellules défectueuses dans certaines fonctions biologiques et dans les cellules exposées à différents stress environnementaux. Dans cette étude, une complémentation hétérologue fonctionnelle d'un mutant de la levure déficient en YCA1 par le gène LmjMCA de L major lors de l'induction de la mort par stress oxydatif a été évaluée. Nos résultats montrent que LmjMCA peut remplacer YCA1 dans le programme de mort cellulaire chez la levure et que cette fonction dépend de son activité catalytique. De plus, LmjMCA subit une auto clivage comme les caspases mais n'exhibe aucune spécificité pour les substrats des caspases. Au contraire, LmjMCA est active envers des substrats ayant une arginine en position P1, son activité étant détruite suite à des changements de son domaine catalytique par les mutations H147A et C202A ou suite à une inhibition para la leupeptine. Afin d'identifier quels pourraient être les substrats, les inhibiteurs ou les molécules interagissant avec LmjMCA, nous avons entrepris un criblage double-hybride en utilisant des librairies de d'ADNe provenant de différents stades du cycle parasitaire. Plusieurs protéines potentiellement impliquées dans un programme de mort cellulaire ont été identifiées comme interagissant avec LmjMCA. Cependant, l'identification de protéines impliquées dans le transport vésiculaire suggère aussi que LmjMCA pourrait avoir un rôle additionnel dans les différents stades du cycle parasitaire. Resumen destinado al público en general: La leishmaniasis es la segunda enfermedad parasitaria más importante en el mundo actual. Aproximadamente 2 millones de nuevos casos ocurren cada año a pesar de los avances logrados en el desarrollo de nuevos métodos de control. El tratamiento farmacológico de las personas infectadas es actualmente la principal estrategia de control, sin embargo, menos de una decena de medicamentos se encuentran disponibles en el mercado, la mayoría de ellos son tóxicos, y ya empiezan a encontrarse parásitos resistentes en algunos países endémicos para la leishmaniasis. El desarrollo de nuevos medicamentos capaces de eliminar los parásitos sin producir efectos indeseables en los humanos, es una necesidad inminente. Recientemente, algunas de las características morfológicas y bioquímicas de la muerte celular programada (MCP) similares al proceso de la apoptosis en mamíferos, han sido descritas en parasitos de Leishmania. Sin embargo, genes que codifiquen proteínas similares a aquellas involucradas en la apoptosis, como las caspasas, no se encuentran en el genoma de Leishmania major. AI contrario, las especies de Leishmania, así como de los otros parásitos responsables de la tripanosomiasis y de la malaria, poseen metacaspases, proteínas homologas a las caspases pero que no están presentes en las células de mamíferos. La caracterización de la metacaspasa de L. major y de sus mecanismos de activación constituye, por lo tanto, un área de investigación interesante para la identificación de nuevos blancos terapéuticos en el proceso de MCP de los parásitos protozoarios. En la levadura Saccharomyces cerevisiae, la metacaspasa YCA1 ha sido descrita como implicada en la muerte de células envejecidas, células defectuosas en algunas funciones biológicas, y en células expuestas a diferentes tipos de estrés ambiental. En el presente estudio se evaluó la complementación heteróloga funcional de una levadura mutante deficiente en YCA1 con el gen de metacaspase de L. major (LmjMCA) en la MCP inducida por estrés oxidativo. Nuestros resultados muestran que la LmjMCA puede reemplazarla YCA1 en la MCP de la levadura dependiente de su actividad catalítica y que la LmjMCA se auto-procesa similar a las caspasas. Sin embargo, LmjMCA no reconoce los substratos de caspasas sino substratos con una arginina en ta posición P1. Dicha actividad enzimática fue abolida con la inducción de las mutaciones puntuales H147A y C202A en la díada catalítica de LmjMCA y con la adición de leupeptina, un inhibidor con arginina. Con el fin de identificar proteínas que pudieran funcionar como substratos, inhibidores o moléculas modificadoras de LmjMCA, se aplicó el método de doble-híbrido en levadura con bibliotecas de ADNc provenientes de diferentes estadios del ciclo de vida del parásito. Algunas proteínas potencialmente implicadas. en la MCP del parásito fueron identiñcadas interactuando con LmjMCA. La identificación de otras proteínas involucradas en transporte vesicular sugiere que la LmjMCA podría tener una función biológica adicional en los diferentes estadios del ciclo de vida dei parásito.

Lack of tumor recognition by hTERT peptide 540-548-specific CD8(+) T cells from melanoma patients reveals inefficient antigen processing.

Telomerase is a ribonucleoprotein complex responsible for the maintenance of the length of the telomeres during cell division, which is active in germ-line cells as well as in the vast majority of tumors but not in most normal tissues. The wide expression of the human telomerase catalytic subunit (hTERT) in tumors makes it an interesting candidate vaccine for cancer. hTERT-derived peptide 540-548 (hTERT(540)) has been recently shown to be recognized in an HLA-A*0201-restricted fashion by T cell lines derived from peptide-stimulated peripheral blood mononuclear cells (PBMC) from healthy donors. As a first step to the inclusion of this peptide in immunotherapy clinical trials, it is crucial to assess hTERT(540)-specific T cell reactivity in cancer patients as well as the ability of hTERT-specific CD8(+) T lymphocytes to recognize and lyse hTERT-expressing target cells. Here, we have analyzed the CD8(+) T cell response to peptide hTERT(540) in HLA-A*0201 melanoma patients by using fluorescent HLA-A*0201/hTERT(540) peptide tetramers. HLA-A*0201/hTERT(540) tetramer(+) CD8(+) T cells were readily detected in peptide-stimulated PBMC from a significant proportion of patients and could be isolated by tetramer-guided cell sorting. hTERT(540)-specific CD8(+) T cells were able to specifically recognize HLA-A*0201 cells either pulsed with peptide or transiently transfected with a minigene encoding the minimal epitope. In contrast, they failed to recognize hTERT-expressing HLA-A*0201(+) target cells. Furthermore, in vitro proteasome digestion studies revealed inadequate hTERT processing. Altogether, these results raise questions on the use of hTERT(540) peptide for cancer immunotherapy.

Metabolic intervention on lipid synthesis converging pathways abrogates prostate cancer growth.

One of the most conserved features of all cancers is a profound reprogramming of cellular metabolism, favoring biosynthetic processes and limiting catalytic processes. With the acquired knowledge of some of these important changes, we have designed a combination therapy in order to force cancer cells to use a particular metabolic pathway that ultimately results in the accumulation of toxic products. This innovative approach consists of blocking lipid synthesis, at the same time that we force the cell, through the inhibition of AMP-activated kinase, to accumulate toxic intermediates, such as malonyl-coenzyme A (malonyl-CoA) or nicotinamide adenine dinucleotide phosphate. This results in excess of oxidative stress and cancer cell death. Our new therapeutic strategy, based on the manipulation of metabolic pathways, will certainly set up the basis for new upcoming studies defining a new paradigm of cancer treatment.

Young infants' triangular communication with their parents in the context of maternal postpartum psychosis: Four case studies

With increasing data on the dynamics of normative couples as they transition to parenthood and become a triad, the need for greater understanding of the impact of parental psychopathology on this transition has become clear. The goal of the current article is to begin exploring this area that has received little attention to date, by describing case examples from a study of clinical families as they transitioned to parenthood. Four representative cases were selected from a pool of 13 mother-father-baby triads, for whom the mother had been hospitalized conjointly with her infant due to a psychotic episode during the postpartum period. The families were observed as part of a clinical consultation that included a semistructured play paradigm known as the Lausanne Trilogue Play (LTP; E. Fivaz-Depeursinge, & A. Corboz-Warnery, 1999). Interactions were scored using standardized measures as well as clinical impressions. All families from the clinical sample were noted to struggle and frequently failed to achieve the goals of play. The impact on the infants in terms of their developing sense of self as well as their defensive strategies in this context are discussed, with clinical implications explored.

Model structure of human APOBEC3G.

BACKGROUND: APOBEC3G (apolipoprotein B mRNA-editing enzyme, catalytic polypeptide-like 3G) has antiretroviral activity associated with the hypermutation of viral DNA through cytosine deamination. APOBEC3G has two cytosine deaminase (CDA) domains; the catalytically inactive amino-terminal domain of APOBEC3G (N-CDA) carries the Vif interaction domain. There is no 3-D structure of APOBEC3G solved by X-ray or nuclear magnetic resonance. METHODOLOGY/PRINCIPAL FINDINGS: We predicted the structure of human APOBEC3G based on the crystal structure of APOBEC2. To assess the model structure, we evaluated 48 mutants of APOBEC3G N-CDA that identify novel variants altering DeltaVif HIV-1 infectivity and packaging of APOBEC3G. Results indicated that the key residue D128 is exposed at the surface of the model, with a negative local electrostatic potential. Mutation D128K changes the sign of that local potential. In addition, two novel functionally relevant residues that result in defective APOBEC3G encapsidation, R122 and W127, cluster at the surface. CONCLUSIONS/SIGNIFICANCE: The structure model identifies a cluster of residues important for packaging of APOBEC3G into virions, and may serve to guide functional analysis of APOBEC3G.

The protease activity of the paracaspase MALT1 is controlled by monoubiquitination.

The protease activity of the paracaspase MALT1 is central to lymphocyte activation and lymphomagenesis, but how this activity is controlled remains unknown. Here we identify a monoubiquitination of MALT1 on Lys644 that activated the protease function of MALT1. Monoubiquitinated MALT1 had enhanced protease activity, whereas a ubiquitination-deficient MALT1 mutant with replacement of that lysine with arginine (MALT1(K644R)) had less protease activity, which correlated with impaired induction of interleukin 2 (IL-2) via the T cell antigen receptor in activated T cells. Expression of MALT1(K644R) diminished the survival of cells derived from diffuse large B cell lymphoma of the activated B cell-like subtype (ABC DLBCL), which require constitutive protease activity of MALT1 for survival. Thus, monoubiquitination of MALT1 is essential for its catalytic activation and is therefore a potential target for the treatment of ABC-DLBCL and for immunomodulation.

Type I signal peptidase from Leishmania is a target of the immune response in human cutaneous and visceral leishmaniasis.

The gene encoding type I signal peptidase (Lmjsp) has been cloned from Leishmania major. Lmjsp encodes a protein of 180 amino residues with a predicted molecular mass of 20.5 kDa. Comparison of the protein sequence with those of known type I signal peptidases indicates homology in five conserved domains A-E which are known to be important, or essential, for catalytic activity. Southern blot hybridisation analysis indicates that there is a single copy of the Lmjsp gene. A recombinant SPase protein and a synthetic peptide of the L. major signal peptidase were used to examine the presence of specific antibodies in sera from either recovered or active individuals of both cutaneous and visceral leishmaniasis. This evaluation demonstrated that sera from cutaneous and visceral forms of leishmaniasis are highly reactive to both the recombinant and synthetic signal peptidase antigens. Therefore, the Leishmania signal peptidase, albeit localised intracellularly, is a significant target of the Leishmania specific immune response and highlights its potential use for serodiagnosis of cutaneous and visceral leishmaniasis.

Impaired glutathione synthesis in schizophrenia: convergent genetic and functional evidence

Schizophrenia is a complex multifactorial brain disorder with a genetic component. Convergent evidence has implicated oxidative stress and glutathione (GSH) deficits in the pathogenesis of this disease. The aim of the present study was to test whether schizophrenia is associated with a deficit of GSH synthesis. Cultured skin fibroblasts from schizophrenia patients and control subjects were challenged with oxidative stress, and parameters of the rate-limiting enzyme for the GSH synthesis, the glutamate cysteine ligase (GCL), were measured. Stressed cells of patients had a 26% (P = 0.002) decreased GCL activity as compared with controls. This reduction correlated with a 29% (P < 0.001) decreased protein expression of the catalytic GCL subunit (GCLC). Genetic analysis of a trinucleotide repeat (TNR) polymorphism in the GCLC gene showed a significant association with schizophrenia in two independent case-control studies. The most common TNR genotype 7/7 was more frequent in controls [odds ratio (OR) = 0.6, P = 0.003], whereas the rarest TNR genotype 8/8 was three times more frequent in patients (OR = 3.0, P = 0.007). Moreover, subjects with disease-associated genotypes had lower GCLC protein expression (P = 0.017), GCL activity (P = 0.037), and GSH contents (P = 0.004) than subjects with genotypes that were more frequent in controls. Taken together, the study provides genetic and functional evidence that an impaired capacity to synthesize GSH under conditions of oxidative stress is a vulnerability factor for schizophrenia.

Behavioral phenotyping of glutathione-deficient mice: Relevance to schizophrenia and bipolar disorder.

Redox-dysregulation represents a common pathogenic mechanism in schizophrenia (SZ) and bipolar disorder (BP). It may in part arise from a genetically compromised synthesis of glutathione (GSH), the major cellular antioxidant and redox-regulator. Allelic variants of the genes coding for the rate-limiting GSH synthesizing enzyme glutamate-cysteine-ligase modifier (GCLM) and/or catalytic (GCLC) subunit have been associated with SZ and BP. Using mice knockout (KO) for GCLM we have previously shown that impaired GSH synthesis is associated with morphological, functional and neurochemical anomalies similar to those in patients. Here we asked whether GSH deficit is also associated with SZ- and BP-relevant behavioral and cognitive anomalies. Accordingly, we subjected young adult GCLM-wildtype (WT), heterozygous and KO males to a battery of standard tests. Compared to WT, GCLM-KO mice displayed hyperlocomotion in the open field and forced swim test but normal activity in the home cage, suggesting that hyperlocomotion was selective to environmental novelty and mildly stressful situations. While spatial working memory and latent inhibition remained unaffected, KO mice showed a potentiated hyperlocomotor response to an acute amphetamine injection, impaired sensorymotor gating in the form of prepulse inhibition and altered social behavior compared to WT. These anomalies resemble important aspects of both SZ and the manic component of BP. As such our data support the notion that redox-dysregulation due to GSH deficit is implicated in both disorders. Moreover, our data propose the GCLM-KO mouse as a valuable model to study the behavioral and cognitive consequences of redox dysregulation in the context of psychiatric disease.

Exome Sequencing Identifies INPPL1 Mutations as a Cause of Opsismodysplasia.

Opsismodysplasia (OPS) is a severe autosomal-recessive chondrodysplasia characterized by pre- and postnatal micromelia with extremely short hands and feet. The main radiological features are severe platyspondyly, squared metacarpals, delayed skeletal ossification, and metaphyseal cupping. In order to identify mutations causing OPS, a total of 16 cases (7 terminated pregnancies and 9 postnatal cases) from 10 unrelated families were included in this study. We performed exome sequencing in three cases from three unrelated families and only one gene was found to harbor mutations in all three cases: inositol polyphosphate phosphatase-like 1 (INPPL1). Screening INPPL1 in the remaining cases identified a total of 12 distinct INPPL1 mutations in the 10 families, present at the homozygote state in 7 consanguinous families and at the compound heterozygote state in the 3 remaining families. Most mutations (6/12) resulted in premature stop codons, 2/12 were splice site, and 4/12 were missense mutations located in the catalytic domain, 5-phosphatase. INPPL1 belongs to the inositol-1,4,5-trisphosphate 5-phosphatase family, a family of signal-modulating enzymes that govern a plethora of cellular functions by regulating the levels of specific phosphoinositides. Our finding of INPPL1 mutations in OPS, a severe spondylodysplastic dysplasia with major growth plate disorganization, supports a key and specific role of this enzyme in endochondral ossification.

Speech prognosis and need of pharyngeal flap for non syndromic vs syndromic Pierre Robin Sequence

BACKGROUND: The aim of this retrospective study was to evaluate speech outcome and need of a pharyngeal flap in children born with nonsyndromic Pierre Robin Sequence (nsPRS) vs syndromic Pierre Robin Sequence (sPRS). METHODS: Pierre Robin Sequence was diagnosed when the triad microretrognathia, glossoptosis, and cleft palate were present. Children were classified at birth in 3 categories depending on respiratory and feeding problems. The Borel-Maisonny classification was used to score the velopharyngeal insufficiency. RESULTS: The study was based on 38 children followed from 1985 to 2006. For the 25 nsPRS, 9 (36%) pharyngeal flaps were performed with improvements of the phonatory score in the 3 categories. For the 13 sPRS, 3 (23%) pharyngeal flaps were performed with an improvement of the phonatory scores in the 3 children. There was no statistical difference between the nsPRS and sPRS groups (P = .3) even if we compared the children in the 3 categories (P = .2). CONCLUSIONS: Children born with nsPRS did not have a better prognosis of speech outcome than children born with sPRS. Respiratory and feeding problems at birth did not seem to be correlated with speech outcome. This is important when informing parents on the prognosis of long-term therapy

The Tea4-PP1 landmark promotes local growth by dual Cdc42 GEF recruitment and GAP exclusion.

Cell polarization relies on small GTPases, such as Cdc42, which can break symmetry through self-organizing principles, and landmarks that define the axis of polarity. In fission yeast, microtubules deliver the Tea1-Tea4 complex to mark cell poles for growth, but how this complex activates Cdc42 is unknown. Here, we show that ectopic targeting of Tea4 to cell sides promotes the local activation of Cdc42 and cell growth. This activity requires that Tea4 binds the type I phosphatase (PP1) catalytic subunit Dis2 or Sds21, and ectopic targeting of either catalytic subunit is similarly instructive for growth. The Cdc42 guanine-nucleotide-exchange factor Gef1 and the GTPase-activating protein Rga4 are required for Tea4-PP1-dependent ectopic growth. Gef1 is recruited to ectopic Tea4 and Dis2 locations to promote Cdc42 activation. By contrast, Rga4 is locally excluded by Tea4, and its forced colocalization with Tea4 blocks ectopic growth, indicating that Rga4 must be present, but at sites distinct from Tea4. Thus, a Tea4-PP1 landmark promotes local Cdc42 activation and growth both through Cdc42 GEF recruitment and by creating a local trough in a Cdc42 GAP.

The concept of instability: a French perspective on the concept of ADHD.

Historical references to the emergence of the current concept of ADHD typically cite descriptions from medical textbooks by Weikard (1775) and Crichton (An inquiry into the nature and origin of mental derangement: Comprehending a concise system of the physiology and pathology of the human mind and a history of the passion and their affects. Cardell Jr and Davies, Londres, 1798) on attention disorders, poems of Hoffman on hyperactive and impulsive behaviors (Der Struwwelpeter. Frankfurt am Main, Literarische Anstalt, 1843), as well as the work of Still (Lancet 1:1008-1012, 1077-1082, 1163-1168, 1902a, Lancet 159(4102):1008-1013, 1902b, Lancet 159(4103):1077-1082, 1902c, Lancet 159(4104):1163-1168, 1902d) on impulsive behaviors and defective moral regulation of behavior. The notion of "instability" developed by French physicians between 1887 and 1910 is rarely mentioned and often ignored. Writings from this period show that in France, the emergence of the concept of ADHD according to modern terminology comes from the notion of "mental instability" introduced in the 1890s under the leadership of Désiré-Magloire Bourneville at the Hospital Bicêtre in Paris, based on his observations of children and adolescents who had been labeled "abnormal" and placed in medical and educational institutions. In the early twentieth century, elaborating on the observations of Bourneville, Jean Phillipe and Georges Paul-Boncour showed the presence of a subgroup of "unstable" children who suffered from a disease entity in its own right within the population of "abnormal" schoolchildren (the terminology of the time). This new pathological entity included symptoms of hyperactivity, impulsivity and inattention, corresponding to today's classic triad of ADHD symptoms. While noting the lack of behavioral inhibition, clinical descriptions of Bourneville, Philip and Paul-Boncour also considered the notion of "moral disorder" which at that time played an important role in psychopathology. This resulted in some degree of confusion between impulsive symptoms and major behavioral disturbances often associated with ADHD.