Jasmonate controls polypeptide patterning in undamaged tissue in wounded Arabidopsis leaves.

Wounding initiates a strong and largely jasmonate-dependent remodelling of the transcriptome in the leaf blades of Arabidopsis (Arabidopsis thaliana). How much control do jasmonates exert on wound-induced protein repatterning in leaves? Replicated shotgun proteomic analyses of 2.5-mm-wide leaf strips adjacent to wounds revealed 106 differentially regulated proteins. Many of these gene products have not emerged as being wound regulated in transcriptomic studies. From experiments using the jasmonic acid (JA)-deficient allene oxide synthase mutant we estimated that approximately 95% of wound-stimulated changes in protein levels were deregulated in the absence of JA. The levels of two tonoplast proteins already implicated in defense response regulation, TWO-PORE CHANNEL1 and the calcium-V-ATPase ACA4 increased on wounding, but their transcripts were not wound inducible. The data suggest new roles for jasmonate in controlling the levels of calcium-regulated pumps and transporters, proteins involved in targeted proteolysis, a putative bacterial virulence factor target, a light-dependent catalyst, and a key redox-controlled enzyme in glutathione synthesis. Extending the latter observation we found that wounding increased the proportion of oxidized glutathione in leaves, but only in plants able to synthesize JA. The oxidizing conditions generated through JA signaling near wounds help to define the cellular environment in which proteome remodelling occurs.

Régulation du processus métastatique tumoral par l'oxyde nitrique (NO), le TGF-β el les cellules de l'hôte

RESUME Nous avons étudié le rôle de deux molécules, le Transfon-ning Growth Factor (TGF-β) et l'oxyde nitrique (NO), dans le processus métastatique. Deux clones tumoraux ont été sélectionnés à partir d'un carcinome du côlon pour leur différence de potentiel tumorigénique dans des rats syngéniques. La croissance tumorale du clone progressif PROb a été corrélée à sa capacité à sécréter le TGF-β actif Cependant, la transfection du clone régressif REGb, sécrétant du TGF-β latent, par une vecteur codant pour le TGF-β bio-actif n'a pas permis d'induire le développement tumoral. Les deux clones tumoraux présentent des activités des protéases MMP-2, APN et DPPIV identiques et qui ne semblent pas modifiées par le TGF-β. L'interaction des cellules tumorales avec l'endothélium et l'activité de la NO synthase (iNOS) responsable de la synthèse de NO sont impliqués dans la progression de nombreux cancers. Le clone PROb, mais pas le clone REGb, inhibe l'activation de la iNOS des cellules endothéliales par sa sécrétion de TGF-β actif Les deux clones montrent cependant des propriétés d'adhésion identiques aux cellules endothéliales et sont capables d'inhiber par contact cellulaire direct l'activation de la iNOS endothéliale. Ceci suggère que ces contacts directs pourraient créer un micro-environnement favorable à la conversion du TGF-β latent en TGF-β actif ou à d'autres interactions moléculaires pouvant réguler l'activation endothéliale. Par ailleurs, les deux clones activent des macrophages du système nerveux central, organe où ils ne forment pas de métastases, mais pas les macrophages circulants, illustrant des mécanismes différentiels et spécifiques dans l'activation de différents types de cellules immunitaires. Afin de mieux comprendre le rôle du NO dans la dissémination métastatique, deux clones cellulaires différant par le taux d'activité de la iNOS ont été sélectionnés à partir de la lignée murine parentale de carcinome du sein EMT-6. Bien que le NO soit un inhibiteur potentiel de la prolifération cellulaire, les deux clones montrent des propriétés prolifératives identiques in vitro. Les cellules EMT-6H qui produisent peu de NO in vitro forment de nombreux nodules tumoraux pulmonaires in vivo corrélés à une mortalité significative des souris syngéniques injectées. Les cellules EMT-6J qui présentent une expression élevée de iNOS et de NO induisent de rares nodules tumoraux pulmonaires et peu de mortalité. Dans ce modèle, l'expression tumorale de NO semble donc défavoriser la croissance tumorale. Les deux clones cellulaires ont des propriétés identiques d'adhésion et de prolifération mesurées in vitro sur des cellules endothéliales primaires isolées de différents organes et in vivo par une colocalisation identique dans les poumons de souris syngéniques 48h après leur injection. Les cellules EMT-6H présentent une activité MMP-2 plus élevée alors que les activités des protéases APN et DPPIV sont identiques dans les deux clones cellulaires. Le TGF-β soluble ainsi que les fibroblastes primaires bloquent la prolifération des deux clones cellulaires. Cependant, l'activation préalable des fibroblastes par du TGF-β restaure partiellement la prolifération du clone EMT-6H mais pas celle du clone EMT-6J. Ces résultats montrent que le rôle de molécules telles que le TGF-β et le NO tumoral dans la progression tumorale doit être considéré dans un contexte d'interactions des cellules tumorales avec les différentes types cellulaires de l'hôte: en particulier, notre travail souligne que les macrophages et les fibroblastes sont déterminants dans la progression métastatique des carcinomes du côlon ou du sein. RESUME DESTINE A UN LARGE PUBLIC Les métastases tumorales, disséminées et intraitables par chirurgie, représentent un problème majeur dans le traitement clinique du cancer. Elles sont dues à des cellules tumorales qui ont migré de leur site tumoral primaire, circulé et survécu dans le système vasculaire de l'hôte, échappé au système immunitaire, adhéré à et survécu sur l'endothélium des vaisseaux, et envahi le tissu sous-jacent où elles ont proliféré. Cette capacité à former des métastases implique de nombreux facteurs dont certains ont été identifiés mais dont le rôle reste controversé dans les différentes études. Nous nous sommes intéressés au rôle de l'oxyde nitrique (NO) et du facteur de croissance et de transformation cellulaire TGF-β. Dans les carcinomes du sein, l'expression des enzymes responsables de la synthèse de NO a été corrélée avec l'invasion tumorale mais aussi avec un pronostic favorable selon les études. Deux clones cellulaires ont été isolés à partir de la tumeur mammaire EMT-6 chez la souris. Le clone EMT-6H sécrète peu de NO et forme de nombreuses tumeurs dans les poumons des souris *entraînant leur décès. Le clone EMT-6J sécrète beaucoup de NO et ne se développe que peu dans les poumons. Dans ce modèle expérimental, le NO semble donc défavoriser la croissance tumorale. L'analyse des interactions avec les cellules de l'hôte rencontrées lors de la formation de métastases pulmonaires a montré que les deux clones cellulaires adhérent et prolifèrent de manière similaire sur les cellules endothéliales tapissant l'intérieur des vaisseaux sanguins. L'arrêt des cellules tumorales dans les poumons ne permet donc pas d'expliquer la différence de croissance tumorale. Cependant, le clone agressif EMT-6H présente une activité élevée d'une protéase (MMP-2) qui lui permettrait par la suite d'envahir le tissu pulmonaire. Par ailleurs, l'activation des fibroblastes du tissu pulmonaire par le TGF-β, une molécule observée dans des conditions inflammatoires, permet au clone agressif EMT-6H de proliférer mais inhibe la croissance du clone EMT-6J. Dans un modèle expérimental de carcinome du côlon, le TGF-β est considéré favorable à la croissance tumorale. Isolées à partir de la même tumeur initiale, deux lignées de cellules ont des comportements opposés lorsqu'elles sont injectées sous la peau des rats. La capacité de la lignée PROb à former des tumeurs a été corrélée à la sécrétion de TGF-β actif L'introduction du gène codant pour le TGF-β actif dans la lignée REGb, qui ne sécrète pas de TGF-β actif et ne forme pas de tumeurs chez le rat, ne restaure pas leur potentiel tumorigénique. Dans ce modèle, l'expression de TGF-β actif ne semble donc pas suffisante à la croissance tumorale. Les interactions avec différents types cellulaires de l'hôte ont été étudiées. Les deux lignées tumorales adhérent de manière similaire sur les cellules endothéliales et sont capables d'inhiber leur activation, un mécanisme qui pourrait participer à la destruction. Les deux lignées activent les cellules immunitaires du système nerveux central, un organe où elles ne forment pas de métastase. Ces résultats suggèrent que la sélection des cellules métastatiques ne s'effectue pas sur l'endothélium des vaisseaux sanguins mais à des étapes ultérieures dans le micro- environnement cellulaire du nouvel organe colonisé. SUMMARY Metastasis results from the migration of tumor cells from their primary tumor, circulation through the bloodstream, attachment to the endothelium, and invasion of the surrounding tissue where they create a microenvironnement favoring their growth. This multistep process implies various cellular interactions and molecules. Among those, we were interested in the role of the Transforming Growth Factor beta (TGF-β) and the nitric oxide (NO). Two cell lines were isolated from a rat colon tumor and assessed for their metastatic potential in vivo. The PROb cell line that expresses active TGF-β formed subcutaneous tumors in rats while the REGb cell line that expresses only latent TGF-β did not. Transfection of REGb cells with a plasmid encoding for the active form of TGF-β failed to restore their metastatic ability. Thus TGF-β secretion is not sufficient to induce colon carcinoma progression. Activities of various proteases such as APN, DPPIV and MMP were similar in both cell lines and were not regulated by TGF-β. Interactions with the endothelium as well as NO synthase activity (iNOS) and local NO concentrations are believed to be crucial steps in cancer metastasis. Coculture of the two clones with endothelial cells inhibited the cytokine-triggered activation of the iNOS enzyme in primary rat endothelial cells but only PROb cells were capable of increasing the expression of IL-6, a protumoral interleukin that may participate in the impairment of the anti-tumoral immune response of the host. Both cell lines exhibited potential to activate microglial cells but not bone marrow-derived macrophages, pointing to a differential regulation of specialized immune cells. To better understand the conflicting role of NO in breast cancer progression, two cell clones were selected from the murine tumorigenic cell line EMT-6 based on their iNOS activity and NO secretion. Although NO has been shown to inhibit cell proliferation, the two cell clones exhibited similar proliferation rates in vitro. The EMT-6H cells expressed little NO and grew actively in the lungs of syngenic mice, leading to their death. Opposite results were observed with the EMT-6J cells. In these in vivo conditions, NO seems to impair tumor growth. Both clones exhibited similar in vitro adhesive properties to primary endothelial cells isolated from various mouse organs and similar localization in the lungs of mice 48 hours after injection. Sustained metalloproteinase MMP-2 activity was detected in the tumorigenic EMT-6H clone, but not in the EMT-6J cells while other proteases such as APN and DPPIV showed no difference. These results suggested that the two clones differed in invasion steps following adhesion to the endothelium and that NO did not participate in previous steps. Consistent with this, both soluble TGF-β and supernatants of cultures of mouse primary lung fibroblasts inhibited the growth of the two clones. However, previous activation of these fibroblasts with TGF-β restored the growth of the tumorigenic EMT-6H cells, but not of EMT-6J cells. Altogether, these results indicate that the role of a given molecule, such as NO or TGF-β, must be considered in a context of interaction of tumor cells with host cells. They further imply that interaction of tumor cells with specialized immune cells and with stromal cells of the colonized organ, rather than with the endothelium, are critical in regulating metastasis.

Constant p53 pathway inactivation in a large series of soft tissue sarcomas with complex genetics.

Alterations of the p53 pathway are among the most frequent aberrations observed in human cancers. We have performed an exhaustive analysis of TP53, p14, p15, and p16 status in a large series of 143 soft tissue sarcomas, rare tumors accounting for around 1% of all adult cancers, with complex genetics. For this purpose, we performed genomic studies, combining sequencing, copy number assessment, and expression analyses. TP53 mutations and deletions are more frequent in leiomyosarcomas than in undifferentiated pleomorphic sarcomas. Moreover, 50% of leiomyosarcomas present TP53 biallelic inactivation, whereas most undifferentiated pleomorphic sarcomas retain one wild-type TP53 allele (87.2%). The spectrum of mutations between these two groups of sarcomas is different, particularly with a higher rate of complex mutations in undifferentiated pleomorphic sarcomas. Most tumors without TP53 alteration exhibit a deletion of p14 and/or lack of mRNA expression, suggesting that p14 loss could be an alternative genotype for direct TP53 inactivation. Nevertheless, the fact that even in tumors altered for TP53, we could not detect p14 protein suggests that other p14 functions, independent of p53, could be implicated in sarcoma oncogenesis. In addition, both p15 and p16 are frequently codeleted or transcriptionally co-inhibited with p14, essentially in tumors with two wild-type TP53 alleles. Conversely, in TP53-altered tumors, p15 and p16 are well expressed, a feature not incompatible with an oncogenic process.

Hypertension increases connexin43 in a tissue-specific manner.

BACKGROUND: Connexin43 (Cx43), a membrane protein involved in the control of cell-to-cell communication, is thought to play a role in the contractility of the vascular wall and in the electrical coupling of cardiac myocytes. The aim of this study was to investigate the effects of experimental hypertension on Cx43 expression in rat aorta and heart. METHODS AND RESULTS: Rats were made hypertensive after one renal artery was clipped (two kidney, one-clip renal model) or after the administration of deoxycorticosterone and salt (DOCA-salt model). After 4 weeks, all rats showed a similar increase in intra-arterial mean blood pressure and in the thickness of both the aortic wall and the heart. Northern blot analysis of aorta mRNA and immunolabeling for Cx43 showed that hypertensive rats expressed twice as much Cx43 in aorta as the control animals. In contrast, no difference in Cx43 mRNA or in the immunolabeled protein was observed in heart. CONCLUSIONS: The results show that rats exhibiting a similar degree of blood pressure elevation, as the result of different mechanisms, feature a comparable increase in Cx43 gene expression, which was observed in the aortic but not in the cardiac muscle. These data suggest that localized mechanical forces induced by hypertension are major tissue-specific regulators of Cx43 expression.

Brain tissue properties differentiate between motor and limbic basal ganglia circuits.

Despite advances in understanding basic organizational principles of the human basal ganglia, accurate in vivo assessment of their anatomical properties is essential to improve early diagnosis in disorders with corticosubcortical pathology and optimize target planning in deep brain stimulation. Main goal of this study was the detailed topological characterization of limbic, associative, and motor subdivisions of the subthalamic nucleus (STN) in relation to corresponding corticosubcortical circuits. To this aim, we used magnetic resonance imaging and investigated independently anatomical connectivity via white matter tracts next to brain tissue properties. On the basis of probabilistic diffusion tractography we identified STN subregions with predominantly motor, associative, and limbic connectivity. We then computed for each of the nonoverlapping STN subregions the covariance between local brain tissue properties and the rest of the brain using high-resolution maps of magnetization transfer (MT) saturation and longitudinal (R1) and transverse relaxation rate (R2*). The demonstrated spatial distribution pattern of covariance between brain tissue properties linked to myelin (R1 and MT) and iron (R2*) content clearly segregates between motor and limbic basal ganglia circuits. We interpret the demonstrated covariance pattern as evidence for shared tissue properties within a functional circuit, which is closely linked to its function. Our findings open new possibilities for investigation of changes in the established covariance pattern aiming at accurate diagnosis of basal ganglia disorders and prediction of treatment outcome.

Body fluid and tissue analysis using filter paper sampling support prior to LC-MS/MS: application to fatal overdose with colchicine

Because of the various matrices available for forensic investigations, the development of versatile analytical approaches allowing the simultaneous determination of drugs is challenging. The aim of this work was to assess a liquid chromatography-tandem mass spectrometry (LC-MS/MS) platform allowing the rapid quantification of colchicine in body fluids and tissues collected in the context of a fatal overdose. For this purpose, filter paper was used as a sampling support and was associated with an automated 96-well plate extraction performed by the LC autosampler itself. The developed method features a 7-min total run time including automated filter paper extraction (2 min) and chromatographic separation (5 min). The sample preparation was reduced to a minimum regardless of the matrix analyzed. This platform was fully validated for dried blood spots (DBS) in the toxic concentration range of colchicine. The DBS calibration curve was applied successfully to quantification in all other matrices (body fluids and tissues) except for bile, where an excessive matrix effect was found. The distribution of colchicine for a fatal overdose case was reported as follows: peripheral blood, 29 ng/ml; urine, 94 ng/ml; vitreous humour and cerebrospinal fluid, < 5 ng/ml; pericardial fluid, 14 ng/ml; brain, < 5 pg/mg; heart, 121 pg/mg; kidney, 245 pg/mg; and liver, 143 pg/mg. Although filter paper is usually employed for DBS, we report here the extension of this alternative sampling support to the analysis of other body fluids and tissues. The developed platform represents a rapid and versatile approach for drug determination in multiple forensic media.

Adipose tissue integrity as a prerequisite for systemic energy balance: a critical role for peroxisome proliferator-activated receptor gamma.

Peroxisome proliferator-activated receptor gamma (PPARgamma) is an essential regulator of adipocyte differentiation, maintenance, and survival. Deregulations of its functions are associated with metabolic diseases. We show here that deletion of one PPARgamma allele not only affected lipid storage but, more surprisingly, also the expression of genes involved in glucose uptake and utilization, the pentose phosphate pathway, fatty acid synthesis, lipolysis, and glycerol export as well as in IR/IGF-1 signaling. These deregulations led to reduced circulating adiponectin levels and an energy crisis in the WAT, reflected in a decrease to nearly half of its intracellular ATP content. In addition, there was a decrease in the metabolic rate and physical activity of the PPARgamma(+/-) mice, which was abolished by thiazolidinedione treatment, thereby linking regulation of the metabolic rate and physical activity to PPARgamma. It is likely that the PPARgamma(+/-) phenotype was due to the observed WAT dysfunction, since the gene expression profiles associated with metabolic pathways were not affected either in the liver or the skeletal muscle. These findings highlight novel roles of PPARgamma in the adipose tissue and underscore the multifaceted action of this receptor in the functional fine tuning of a tissue that is crucial for maintaining the organism in good health.

Tissue biomarker development in a multicentre trial context: a feasibility study on the PETACC3 stage II and III colon cancer adjuvant treatment trial.

PURPOSE: We evaluated the feasibility of biomarker development in the context of multicenter clinical trials. EXPERIMENTAL DESIGN: Formalin-fixed, paraffin-embedded (FFPE) tissue samples were collected from a prospective adjuvant colon cancer trial (PETACC3). DNA was isolated from tumor as well as normal tissue and used for analysis of microsatellite instability, KRAS and BRAF genotyping, UGT1A1 genotyping, and loss of heterozygosity of 18 q loci. Immunohistochemistry was used to test expression of TERT, SMAD4, p53, and TYMS. Messenger RNA was retrieved and tested for use in expression profiling experiments. RESULTS: Of the 3,278 patients entered in the study, FFPE blocks were obtained from 1,564 patients coming from 368 different centers in 31 countries. In over 95% of the samples, genomic DNA tests yielded a reliable result. Of the immmunohistochemical tests, p53 and SMAD4 staining did best with reliable results in over 85% of the cases. TERT was the most problematic test with 46% of failures, mostly due to insufficient tissue processing quality. Good quality mRNA was obtained, usable in expression profiling experiments. CONCLUSIONS: Prospective clinical trials can be used as framework for biomarker development using routinely processed FFPE tissues. Our results support the notion that as a rule, translational studies based on FFPE should be included in prospective clinical trials.

Lower thigh subcutaneous and higher visceral abdominal adipose tissue content both contribute to insulin resistance.

It is well known that visceral adipose tissue (VAT) is associated with insulin resistance (IR). Considerable debate remains concerning the potential positive effect of thigh subcutaneous adipose tissue (TSAT). Our objective was to observe whether VAT and TSAT are opposite, synergistic or additive for both peripheral and hepatic IR. Fifty-two volunteers (21 male/31 female) between 30 and 75 years old were recruited from the general population. All subjects were sedentary overweight or obese (mean BMI 33.0 ± 3.4 kg/m(2)). Insulin sensitivity was determined by a 4-h hyperinsulinemic-euglycemic clamp with stable isotope tracer dilution. Total body fat and lean body mass were determined by dual X-ray absorptiometry. Abdominal and mid-thigh adiposity was determined by computed tomography. VAT was negatively associated with peripheral insulin sensitivity, while TSAT, in contrast, was positively associated with peripheral insulin sensitivity. Subjects with a combination of low VAT and high TSAT had the highest insulin sensitivity, subjects with a combination of high VAT and low TSAT were the most insulin resistant. These associations remained significant after adjusting for age and gender. These data confirm that visceral excess abdominal adiposity is associated with IR across a range of middle-age to older men and women, and further suggest that higher thigh subcutaneous fat is favorably associated with better insulin sensitivity. This strongly suggests that these two distinct fat distribution phenotypes should both be considered in IR as important determinants of cardiometabolic risk.

Essential role of platelet activation via protease activated receptor 4 in tissue factor-initiated inflammation.

INTRODUCTION: Tissue factor (TF) activation of the coagulation proteases enhances inflammation in animal models of arthritis and endotoxemia, but the mechanism of this effect is not yet fully understood - in particular, whether this is primarily due to fibrin formation or through activation of protease activated receptors (PARs). METHODS: We induced extravascular inflammation by injection of recombinant soluble murine TF (sTF1-219) in the hind paw. The effects of thrombin inhibition, fibrinogen and platelet depletion were evaluated, as well as the effects of PAR deficiency using knockout mice deficient for each of the PARs. RESULTS: Injection of soluble TF provoked a rapid onset of paw swelling. Inflammation was confirmed histologically and by increased serum IL-6 levels. Inflammation was significantly reduced by depletion of fibrinogen (P < 0.05) or platelets (P = 0.015), and by treatment with hirudin (P = 0.04) or an inhibitor of activated factor VII (P < 0.001) compared with controls. PAR-4-deficient mice exhibited significantly reduced paw swelling (P = 0.003). In contrast, a deficiency in either PAR-1, PAR-2 or PAR-3 did not affect the inflammatory response to soluble TF injection. CONCLUSION: Our results show that soluble TF induces acute inflammation through a thrombin-dependent pathway and both fibrin deposition and platelet activation are essential steps in this process. The activation of PAR-4 on platelets is crucial and the other PARs do not play a major role in soluble TF-induced inflammation.

Ultrahigh dose-rate FLASH irradiation increases the differential response between normal and tumor tissue in mice.

In vitro studies suggested that sub-millisecond pulses of radiation elicit less genomic instability than continuous, protracted irradiation at the same total dose. To determine the potential of ultrahigh dose-rate irradiation in radiotherapy, we investigated lung fibrogenesis in C57BL/6J mice exposed either to short pulses (≤ 500 ms) of radiation delivered at ultrahigh dose rate (≥ 40 Gy/s, FLASH) or to conventional dose-rate irradiation (≤ 0.03 Gy/s, CONV) in single doses. The growth of human HBCx-12A and HEp-2 tumor xenografts in nude mice and syngeneic TC-1 Luc(+) orthotopic lung tumors in C57BL/6J mice was monitored under similar radiation conditions. CONV (15 Gy) triggered lung fibrosis associated with activation of the TGF-β (transforming growth factor-β) cascade, whereas no complications developed after doses of FLASH below 20 Gy for more than 36 weeks after irradiation. FLASH irradiation also spared normal smooth muscle and epithelial cells from acute radiation-induced apoptosis, which could be reinduced by administration of systemic TNF-α (tumor necrosis factor-α) before irradiation. In contrast, FLASH was as efficient as CONV in the repression of tumor growth. Together, these results suggest that FLASH radiotherapy might allow complete eradication of lung tumors and reduce the occurrence and severity of early and late complications affecting normal tissue.

Stimulation by leptin of 3H GDP binding to brown adipose tissue of fasted but not fed rats.

OBJECTIVES: To assess the effects of intracerebroventricular (i.c.v.) leptin administration on rats fed ad libitum or fasted on 3H GDP binding to brown adipose tissue (BAT). SUBJECTS: Groups of 5-6 ten-week-old male Wistar rats. EXPERIMENTAL DESIGN: An i.c.v. cannula was inserted and unilateral denervation of interscapular brown adipose tissue (BAT) was performed 5 d before each study. Thereafter, leptin was infused i.c.v. during 72 h while rats were fed ad libitum or fasted. Vehicle-infused, pair-fed or fasted rats were used as controls. MEASUREMENTS: 3H GDP binding to innervated and denervated BAT mitochondria. RESULTS: 3H GDP binding to innervated or denervated BAT of rats fed ab libitum compared to vehicle-infused, pair-fed rats was not increased by i.c.v. leptin. 3H GDP binding was lower in fasted than in fed rats, and the difference was larger in innervated than denervated BAT. I.c.v. leptin increased 3H GDP binding by 30% in innervated, and by 51% in denervated BAT (P < 0.05) in fasted rats. CONCLUSIONS: I.c.v. leptin does not increase 3H GDP binding to BAT of rats fed ad libitum compared to pair-fed (food-restricted) rats. In contrast, i.c.v. leptin produces a mild stimulation of 3H GDP binding to BAT of fasted rats. This effect is not mediated by the sympathetic nervous system, because it is observed in both innervated and denervated BAT. These results are compatible with the concept that, in fasting rats, the decrease in leptin secretion contributes to the reduction in 3H GDP binding to BAT mitochondria.

Precision of a new tool to measure visceral adipose tissue (VAT) using dual-energy X-Ray absorptiometry (DXA).

OBJECTIVE: A new tool to quantify visceral adipose tissue (VAT) over the android region of a total body dual-energy x-ray absorptiometry (DXA) scan has recently been reported. The measurement, CoreScan, is currently available on Lunar iDXA densitometers. The purpose of the study was to determine the precision of the CoreScan VAT measurement, which is critical for understanding the utility of this measure in longitudinal trials. DESIGN AND METHODS: VAT precision was characterized in both an anthropomorphic imaging phantom (measured on 10 Lunar iDXA systems) and a clinical population consisting of obese women (n = 32). RESULTS: The intrascanner precision for the VAT phantom across 9 quantities of VAT mass (0-1,800 g) ranged from 28.4 to 38.0 g. The interscanner precision ranged from 24.7 to 38.4 g. There was no statistical dependence on the quantity of VAT for either the inter- or intrascanner precision result (p = 0.670). Combining inter- and intrascanner precision yielded a total phantom precision estimate of 47.6 g for VAT mass, which corresponds to a 4.8% coefficient of variance (CV) for a 1 kg VAT mass. Our clinical population, who completed replicate total body scans with repositioning between scans, showed a precision of 56.8 g on an average VAT mass of 1110.4 g. This corresponds to a 5.1% CV. Hence, the in vivo precision result was similar to the phantom precision result. CONCLUSIONS: The study suggests that CoreScan has a relatively low precision error in both phantoms and obese women and therefore may be a useful addition to clinical trials where interventions are targeted towards changes in visceral adiposity.

Les connectivites: progrès thérapeutiques et place de la biothérapie [Connective tissue diseases: news in therapy, role of biologics agents].

Systemic lupus erythematosus and primary Sjögren's syndrom are the two major connective tissue diseases. A better knowledge of their physiopathology allows us today to propose an adapted therapy. Moreover progress concerns the oldest treatment, hydroxychloroquine, and biotherapy. Hydroxychloroquine is still an actual treatment for lupus, its positive effects are better understood today. Nevertheless it does not seem to be efficient to treat primitive Sjögren. Biotherapy targeting B lymphocytes seems efficient in these two connective tissue diseases. Anti TNF therapy is not recommended and seems to induce connective tissue diseases. The real news is the recent approval and reimbursement in Switzerland of the new drug belimumab (Benlysta) in case of moderate lupus.

Segmental copy number variation shapes tissue transcriptomes.

Copy number variation (CNV) is a key source of genetic diversity, but a comprehensive understanding of its phenotypic effect is only beginning to emerge. We have generated a CNV map in wild mice and classical inbred strains. Genome-wide expression data from six major organs show not only that expression of genes within CNVs tend to correlate with copy number changes, but also that CNVs influence the expression of genes in their vicinity, an effect that extends up to half a megabase. Genes within CNVs show lower expression and more specific spatial expression patterns than genes mapping elsewhere. Our analyses reveal differential constraint on copy number changes of genes expressed in different tissues. Dosage alterations of brain-expressed genes are less frequent than those of other genes and are buffered by tighter transcriptional regulation. Our study provides initial evidence that CNVs shape tissue transcriptomes on a global scale.