NR1D1 controls skeletal muscle calcium homeostasis through myoregulin repression

The sarcoplasmic reticulum (SR) plays an important role in calcium homeostasis. SR calcium mishandling is described in pathological conditions such as myopathies. Here, we investigated whether the nuclear receptor subfamily 1 group D member (NR1D1, also called REV-ERBα) regulates skeletal muscle SR calcium homeostasis. Our data demonstrate that NR1D1 deficiency in mice impairs SERCA-dependent SR calcium uptake. NR1D1 acts on calcium homeostasis by repressing the SERCA inhibitor myoregulin through direct binding to its promoter. Restoration of myoregulin counteracts the effects of NR1D1 overexpression on SR calcium content. Interestingly, myoblasts from Duchenne myopathy patients display lower NR1D1 expression, whereas pharmacological NR1D1 activation ameliorates SR calcium homeostasis, and improves muscle structure and function in dystrophic mdx/Utr+/- mice. Our findings demonstrate that NR1D1 regulates muscle SR calcium homeostasis, pointing to its therapeutic interest for mitigating myopathy.

Deletion of the nuclear receptor RORα in macrophages does not modify the development of obesity, insulin resistance and NASH

Retinoic acid receptor-related orphan receptor-alpha (RORα) is a transcription factor from the nuclear receptor family expressed by immune cells and involved in the development of obesity, insulin resistance (IR) and non-alcoholic steatohepatitis (NASH). It was recently reported that mice deficient for RORα in macrophages develop more severe NASH upon high fat diet (HFD) feeding due to altered Kupffer cell function. To better understand the role of RORα in obesity and IR, we independently generated a macrophage RORα-deficient mouse line. We report that RORα deletion in macrophages does not impact on HFD-induced obesity and IR. Surprisingly, we did not confirm an effect on NASH development upon HFD feeding nor in the more severe and obesity-independent choline-deficient, L-amino acid-defined diet model. Our results therefore show that RORα deletion in macrophages does not alter the development of obesity and IR and question its role in NASH.

Glycogen Dynamics Drives Lipid Droplet Biogenesis during Brown Adipocyte Differentiation

Browning induction or transplantation of brown adipose tissue (BAT) or brown/beige adipocytes derived from progenitor or induced pluripotent stem cells (iPSCs) can represent a powerful strategy to treat metabolic diseases. However, our poor understanding of the mechanisms that govern the differentiation and activation of brown adipocytes limits the development of such therapy. Various genetic factors controlling the differentiation of brown adipocytes have been identified, although most studies have been performed using in vitro cultured pre-adipocytes. We investigate here the differentiation of brown adipocytes from adipose progenitors in the mouse embryo. We demonstrate that the formation of multiple lipid droplets (LDs) is initiated within clusters of glycogen, which is degraded through glycophagy to provide the metabolic substrates essential for de novo lipogenesis and LD formation. Therefore, this study uncovers the role of glycogen in the generation of LDs.

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Brown adipocytes are functionally differentiated at E17.5 in the mouse embryo

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Lipid droplets are formed within glycogen clusters

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Glycogen production is crucial for lipid droplet biogenesis during BAT differentiation

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Glycophagy-mediated glycogen degradation drives lipid droplet formation

Differential unfolded protein response in skeletal muscle from non-diabetic glucose tolerant or intolerant patients with obesity before and after bariatric surgery

AIMS

Not all people with obesity become glucose intolerant, suggesting differential activation of cellular pathways. The unfolded protein response (UPR) may contribute to the development of insulin resistance in several organs, but its role in skeletal muscle remains debated. Therefore, we explored the UPR activation in muscle from non-diabetic glucose tolerant or intolerant patients with obesity and the impact of bariatric procedures.

METHODS

Muscle biopsies from 22 normoglycemic (NG, blood glucose measured 120 min after an oral glucose tolerance test, G120 < 7.8 mM) and 22 glucose intolerant (GI, G120 between 7.8 and 11.1 mM) patients with obesity were used to measure UPR activation by RTqPCR and western blot. Then, UPR was studied in biopsies from 7 NG and 7 GI patients before and 1 year after bariatric surgery.

RESULTS

Binding immunoglobulin protein (BIP) protein was ~ 40% higher in the GI compared to NG subjects. Contrastingly, expression of the UPR-related genes BIP, activating transcription factor 6 (ATF6) and unspliced X-box binding protein 1 (XBP1u) were significantly lower and C/EBP homologous protein (CHOP) tended to decrease (p = 0.08) in GI individuals. While BIP protein positively correlated with fasting blood glucose (r = 0.38, p = 0.01), ATF6 and CHOP were associated with G120 (r = - 0.38 and r = - 0.41, p < 0.05) and the Matsuda index (r = 0.37 and r = 0.38, p < 0.05). Bariatric surgery improved metabolic parameters, associated with higher CHOP expression in GI patients, while ATF6 tended to increase (p = 0.08).

CONCLUSIONS

CHOP and ATF6 expression decreased in non-diabetic GI patients with obesity and was modified by bariatric surgery. These genes may contribute to glucose homeostasis in human skeletal muscle.

Endoplasmic reticulum stress actively suppresses hepatic molecular identity in damaged liver

Liver injury triggers adaptive remodeling of the hepatic transcriptome for repair/regeneration. We demonstrate that this involves particularly profound transcriptomic alterations where acute induction of genes involved in handling of endoplasmic reticulum stress (ERS) is accompanied by partial hepatic dedifferentiation. Importantly, widespread hepatic gene downregulation could not simply be ascribed to cofactor squelching secondary to ERS gene induction, but rather involves a combination of active repressive mechanisms. ERS acts through inhibition of the liver-identity (LIVER-ID) transcription factor (TF) network, initiated by rapid LIVER-ID TF protein loss. In addition, induction of the transcriptional repressor NFIL3 further contributes to LIVER-ID gene repression. Alteration to the liver TF repertoire translates into compromised activity of regulatory regions characterized by the densest co-recruitment of LIVER-ID TFs and decommissioning of BRD4 super-enhancers driving hepatic identity. While transient repression of the hepatic molecular identity is an intrinsic part of liver repair, sustained disequilibrium between the ERS and LIVER-ID transcriptional programs is linked to liver dysfunction as shown using mouse models of acute liver injury and livers from deceased human septic patients.

Endospanin-2 enhances skeletal muscle energy metabolism and running endurance capacity

Metabolic stresses such as dietary energy restriction or physical activity exert beneficial metabolic effects. In the liver, endospanin-1 and endospanin-2 cooperatively modulate calorie restriction-mediated (CR-mediated) liver adaptations by controlling growth hormone sensitivity. Since we found CR to induce endospanin protein expression in skeletal muscle, we investigated their role in this tissue. In vivo and in vitro endospanin-2 triggers ERK phosphorylation in skeletal muscle through an autophagy-dependent pathway. Furthermore, endospanin-2, but not endospanin-1, overexpression decreases muscle mitochondrial ROS production, induces fast-to-slow fiber-type switch, increases skeletal muscle glycogen content, and improves glucose homeostasis, ultimately promoting running endurance capacity. In line, endospanin-2-/- mice display higher lipid peroxidation levels, increased mitochondrial ROS production under mitochondrial stress, decreased ERK phosphorylation, and reduced endurance capacity. In conclusion, our results identify endospanin-2 as a potentially novel player in skeletal muscle metabolism, plasticity, and function.

Nuclear Receptor Subfamily 1 Group D Member 1 Regulates Circadian Activity of NLRP3 Inflammasome to Reduce the Severity of Fulminant Hepatitis in Mice

BACKGROUND & AIMS

The innate immune system responds not only to bacterial signals, but also to non-infectious danger-associated molecular patterns that activate the NLRP3 inflammasome complex after tissue injury. Immune functions vary over the course of the day, but it is not clear whether these changes affect the activity of the NLRP3 inflammasome. We investigated whether the core clock component nuclear receptor subfamily 1 group D member 1 (NR1D1, also called Rev-erbα) regulates expression, activity of the NLRP3 inflammasome, and its signaling pathway.

METHODS

We collected naïve peritoneal macrophages and plasma, at multiple times of day, from Nr1d1^-/- mice and their Nr1d1^+/+ littermates (controls) and analyzed expression NLRP3, interleukin 1β (IL1B, in plasma), and IL18 (in plasma). We also collected bone marrow-derived primary macrophages from these mice. Levels of NR1D1 were knocked down with small hairpin RNAs in human primary macrophages. Bone marrow-derived primary macrophages from mice and human primary macrophages were incubated with lipopolysaccharide (LPS) to induce expression of NLRP3, IL1B, and IL18; cells were incubated with LPS and adenosine triphosphate to activate the NLRP3 complex. We analyzed caspase 1 activity and cytokine secretion. NR1D1 was activated in primary mouse and human macrophages by incubation with SR9009; some of the cells were also incubated with an NLRP3 inhibitor or inhibitors of caspase 1. Nr1d1^-/- mice and control mice were given intraperitoneal injections of LPS to induce peritoneal inflammation; plasma samples were isolated and levels of cytokines were measured. Nr1d1^-/- mice, control mice, and control mice given injections of SR9009 were given LPS and D-galactosamine to induce fulminant hepatitis and MCC950 to specifically inhibit NLRP3; plasma was collected to measure cytokines and a marker of liver failure (alanine aminotransferase); liver tissues were collected and analyzed by quantitative polymerase chain reaction, immunohistochemistry, and flow cytometry.

RESULTS

In peritoneal macrophages, expression of NLRP3 and activation of its complex varied with time of day (circadian rhythm)-this regulation required NR1D1. Primary macrophages from Nr1d1^-/- mice and human macrophages with knockdown of NR1D1 had altered expression patterns of NLRP3, compared to macrophages that expressed NR1D1, and altered patterns of IL1B and 1L18 production. Mice with disruption of Nr1d1 developed more-severe acute peritoneal inflammation and fulminant hepatitis than control mice. Incubation of macrophage with the NR1D1 activator SR9009 reduced expression of NLRP3 and secretion of cytokines. Mice given SR9009 developed less-severe liver failure and had longer survival times than mice given saline (control).

CONCLUSIONS

In studies of Nr1d1^-/- mice and human macrophages with pharmacologic activation of NR1D1, we found NR1D1 to regulate the timing of NLRP3 expression and production of inflammatory cytokines by macrophages. Activation of NR1D1 reduced the severity of peritoneal inflammation and fulminant hepatitis in mice.

The tumour suppressor CDKN2A/p16INK4a regulates adipogenesis and bone marrow-dependent development of perivascular adipose tissue

The genomic CDKN2A/B locus, encoding p16^INK4a among others, is linked to an increased risk for cardiovascular disease and type 2 diabetes. Obesity is a risk factor for both cardiovascular disease and type 2 diabetes. p16^INK4a is a cell cycle regulator and tumour suppressor. Whether it plays a role in adipose tissue formation is unknown. p16^INK4a knock-down in 3T3/L1 preadipocytes or p16^INK4a deficiency in mouse embryonic fibroblasts enhanced adipogenesis, suggesting a role for p16^INK4a in adipose tissue formation. p16^INK4a-deficient mice developed more epicardial adipose tissue in response to the adipogenic peroxisome proliferator activated receptor gamma agonist rosiglitazone. Additionally, adipose tissue around the aorta from p16^INK4a-deficient mice displayed enhanced rosiglitazone-induced gene expression of adipogenic markers and stem cell antigen, a marker of bone marrow-derived precursor cells. Mice transplanted with p16^INK4a-deficient bone marrow had more epicardial adipose tissue compared to controls when fed a high-fat diet. In humans, p16^INK4a gene expression was enriched in epicardial adipose tissue compared to other adipose tissue depots. Moreover, epicardial adipose tissue from obese humans displayed increased expression of stem cell antigen compared to lean controls, supporting a bone marrow origin of epicardial adipose tissue. These results show that p16^INK4a modulates epicardial adipose tissue development, providing a potential mechanistic link between the genetic association of the CDKN2A/B locus and cardiovascular disease risk.

Rev-erb-α regulates atrophy-related genes to control skeletal muscle mass

The nuclear receptor Rev-erb-α modulates hepatic lipid and glucose metabolism, adipogenesis and thermogenesis. We have previously demonstrated that Rev-erb-α is also an important regulator of skeletal muscle mitochondrial biogenesis and function, and autophagy. As such, Rev-erb-α over-expression in skeletal muscle or its pharmacological activation improved mitochondrial respiration and enhanced exercise capacity. Here, in gain- and loss-of function studies, we show that Rev-erb-α also controls muscle mass. Rev-erb-α-deficiency in skeletal muscle leads to increased expression of the atrophy-related genes (atrogenes), associated with reduced muscle mass and decreased fiber size. By contrast, in vivo and in vitro Rev-erb-α over-expression results in reduced atrogenes expression and increased fiber size. Finally, Rev-erb-α pharmacological activation blocks dexamethasone-induced upregulation of atrogenes and muscle atrophy. This study identifies Rev-erb-α as a promising pharmacological target to preserve muscle mass.

The neuron-derived orphan receptor 1 (NOR1) is induced upon human alternative macrophage polarization and stimulates the expression of markers of the M2 phenotype

BACKGROUND

Atherosclerosis is an inflammatory disease in which macrophages play a crucial role. Macrophages are present in different phenotypes, with at the extremes of the spectrum the classical M1 pro-inflammatory and the alternative M2 anti-inflammatory macrophages. The neuron-derived orphan receptor 1 (NOR1), together with Nur77 and Nurr1, are members of the NR4A orphan nuclear receptor family, expressed in human atherosclerotic lesion macrophages. However, the role of NOR1 in human macrophages has not been studied yet.

OBJECTIVES

To determine the expression and the functions of NOR1 in human alternative macrophages.

METHODS AND RESULTS

In vitro IL-4 polarization of primary monocytes into alternative M2 macrophages enhances NOR1 expression in human but not in mouse macrophages. Moreover, NOR1 expression is most abundant in CD68+MR+ alternative macrophage-enriched areas of human atherosclerotic plaques in vivo. Silencing NOR1 in human alternative macrophages decreases the expression of several M2 markers such as the Mannose Receptor (MR), Interleukin-1 Receptor antagonist (IL-1Ra), CD200 Receptor (CD200R), coagulation factor XIII A1 polypeptide (F13A1), Interleukin 10 (IL-10) and the Peroxisome Proliferator-Activated Receptor (PPAR)γ. Bioinformatical analysis identified F13A1, IL-1Ra, IL-10 and the Matrix Metalloproteinase-9 (MMP9) as potential target genes of NOR1 in human alternative macrophages. Moreover, expression and enzymatic activity of MMP9 are induced by silencing and repressed by NOR1 overexpression in M2 macrophages.

CONCLUSIONS

These data identify NOR1 as a transcription factor induced during alternative differentiation of human macrophages and demonstrate that NOR1 modifies the alternative macrophage phenotype.

Genome-wide gene expression profiling to predict resistance to anthracyclines in breast cancer patients

Validated biomarkers predictive of response/resistance to anthracyclines in breast cancer are currently lacking. The neoadjuvant Trial of Principle (TOP) study, in which patients with estrogen receptor (ER)–negative tumors were treated with anthracycline (epirubicin) monotherapy, was specifically designed to evaluate the predictive value of topoisomerase II-alpha (TOP2A) and develop a gene expression signature to identify those patients who do not benefit from anthracyclines. Here we describe in details the contents and quality controls for the gene expression and clinical data associated with the study published by Desmedt and colleagues in the Journal of Clinical Oncology in 2011 (Desmedt et al., 2011). We also provide R code to easily access the data and perform the quality controls and basic analyses relevant to this dataset.

Rev-erb-α modulates skeletal muscle oxidative capacity by regulating mitochondrial biogenesis and autophagy

The nuclear receptor Rev-erb-α modulates hepatic lipid and glucose metabolism, adipogenesis and the inflammatory response in macrophages. We show here that Rev-erb-α is highly expressed in oxidative skeletal muscle and plays a role in mitochondrial biogenesis and oxidative function, in gain- and loss-of function studies. Rev-erb-α-deficiency in skeletal muscle leads to reduced mitochondrial content and oxidative function, resulting in compromised exercise capacity. This phenotype was recapitulated in isolated fibers and in muscle cells upon Rev-erbα knock-down, while Rev-erb-α over-expression increased the number of mitochondria with improved respiratory capacity. Rev-erb-α-deficiency resulted in deactivation of the Stk11–Ampk–Sirt1–Ppargc1-α signaling pathway, whereas autophagy was up-regulated, resulting in both impaired mitochondrial biogenesis and increased clearance. Muscle over-expression or pharmacological activation of Rev-erb-α increased respiration and exercise capacity. This study identifies Rev-erb-α as a pharmacological target which improves muscle oxidative function by modulating gene networks controlling mitochondrial number and function.

Peroxisome proliferator-activated receptor-γ activation induces 11β-hydroxysteroid dehydrogenase type 1 activity in human alternative macrophages

OBJECTIVE

11β-Hydroxysteroid dehydrogenase type 1 (11β-HSD1) catalyzes the intracellular reduction of inactive cortisone to active cortisol, the natural ligand activating the glucocorticoid receptor (GR). Peroxisome proliferator- activated receptor-γ (PPARγ) is a nuclear receptor controlling inflammation, lipid metabolism, and the macrophage polarization state. In this study, we investigated the impact of macrophage polarization on the expression and activity of 11β-HSD1 and the role of PPARγ therein.

METHODS AND RESULTS

11β-HSD1 gene expression is higher in proinflammatory M1 and anti-inflammatory M2 macrophages than in resting macrophages, whereas its activity is highest in M2 macrophages. Interestingly, PPARγ activation induces 11β-HSD1 enzyme activity in M2 macrophages but not in resting macrophages or M1 macrophages. Consequently, human M2 macrophages displayed enhanced responsiveness to the 11β-HSD1 substrate cortisone, an effect amplified by PPARγ induction of 11β-HSD1 activity, as illustrated by an increased expression of GR target genes.

CONCLUSION

Our data identify a positive cross-talk between PPARγ and GR in human M2 macrophages via the induction of 11β-HSD1 expression and activity.

Control of gene expression by the retinoic acid-related orphan receptor alpha in HepG2 human hepatoma cells

Retinoic acid-related Orphan Receptor alpha (RORα; NR1F1) is a widely distributed nuclear receptor involved in several (patho)physiological functions including lipid metabolism, inflammation, angiogenesis, and circadian rhythm. To better understand the role of this nuclear receptor in liver, we aimed at displaying genes controlled by RORα in liver cells by generating HepG2 human hepatoma cells stably over-expressing RORα. Genes whose expression was altered in these cells versus control cells were displayed using micro-arrays followed by qRT-PCR analysis. Expression of these genes was also altered in cells in which RORα was transiently over-expressed after adenoviral infection. A number of the genes found were involved in known pathways controlled by RORα, for instance LPA, NR1D2 and ADIPOQ in lipid metabolism, ADIPOQ and PLG in inflammation, PLG in fibrinolysis and NR1D2 and NR1D1 in circadian rhythm. This study also revealed that genes such as G6PC, involved in glucose homeostasis, and AGRP, involved in the control of body weight, are also controlled by RORα. Lastly, SPARC, involved in cell growth and adhesion, and associated with liver carcinogenesis, was up-regulated by RORα. SPARC was found to be a new putative RORα target gene since it possesses, in its promoter, a functional RORE as evidenced by EMSAs and transfection experiments. Most of the other genes that we found regulated by RORα also contained putative ROREs in their regulatory regions. Chromatin immunoprecipitation (ChIP) confirmed that the ROREs present in the SPARC, PLG, G6PC, NR1D2 and AGRP genes were occupied by RORα in HepG2 cells. Therefore these genes must now be considered as direct RORα targets. Our results open new routes on the roles of RORα in glucose metabolism and carcinogenesis within cells of hepatic origin.

PPARβ/δ activation induces enteroendocrine L cell GLP-1 production

BACKGROUND & AIMS

Glucagon-like peptide (GLP)-1, an intestinal incretin produced by L cells through proglucagon processing, is secreted after nutrient ingestion and acts on endocrine pancreas beta cells to enhance insulin secretion. Peroxisome proliferator-activated receptor (PPAR) β/δ is a nuclear receptor that improves glucose homeostasis and pancreas islet function in diabetic animal models. Here, we investigated whether PPARβ/δ activation regulates L cell GLP-1 production.

METHODS

Proglucagon regulation and GLP-1 release were evaluated in murine GLUTag and human NCI-H716 L cells and in vivo using wild-type, PPARβ/δ-null, and ob/ob C57Bl/6 mice treated with the PPARβ/δ synthetic agonists GW501516 or GW0742.

RESULTS

PPARβ/δ activation increased proglucagon expression and enhanced glucose- and bile acid-induced GLP-1 release by intestinal L cells in vitro and ex vivo in human jejunum. In vivo treatment with GW0742 increased proglucagon messenger RNA levels in the small intestine in wild-type but not in PPARβ/δ-deficient mice. Treatment of wild-type and ob/ob mice with GW501516 enhanced the increase in plasma GLP-1 level after an oral glucose load and improved glucose tolerance. Concomitantly, proglucagon and GLP-1 receptor messenger RNA levels increased in the small intestine and pancreas, respectively. Finally, PPARβ/δ agonists activate the proglucagon gene transcription by interfering with the β-catenin/TCF-4 pathway.

CONCLUSIONS

Our data show that PPARβ/δ activation potentiates GLP-1 production by the small intestine. Pharmacologic targeting of PPARβ/δ is a promising approach in the treatment of patients with type 2 diabetes mellitus, especially in combination with dipeptidyl peptidase IV inhibitors.

The farnesoid X receptor regulates adipocyte differentiation and function by promoting peroxisome proliferator-activated receptor-gamma and interfering with the Wnt/beta-catenin pathways

The bile acid receptor farnesoid X receptor (FXR) is expressed in adipose tissue, but its function remains poorly defined. Peroxisome proliferator-activated receptor-γ (PPARγ) is a master regulator of adipocyte differentiation and function. The aim of this study was to analyze the role of FXR in adipocyte function and to assess whether it modulates PPARγ action. Therefore, we tested the responsiveness of FXR-deficient mice (FXR(-/-)) and cells to the PPARγ activator rosiglitazone. Our results show that genetically obese FXR(-/-)/ob/ob mice displayed a resistance to rosiglitazone treatment. In vitro, rosiglitazone treatment did not induce normal adipocyte differentiation and lipid droplet formation in FXR(-/-) mouse embryonic fibroblasts (MEFs) and preadipocytes. Moreover, FXR(-/-) MEFs displayed both an increased lipolysis and a decreased de novo lipogenesis, resulting in reduced intracellular triglyceride content, even upon PPARγ activation. Retroviral-mediated FXR re-expression in FXR(-/-) MEFs restored the induction of adipogenic marker genes during rosiglitazone-forced adipocyte differentiation. The expression of Wnt/β-catenin pathway and target genes was increased in FXR(-/-) adipose tissue and MEFs. Moreover, the expression of several endogenous inhibitors of this pathway was decreased early during the adipocyte differentiation of FXR(-/-) MEFs. These findings demonstrate that FXR regulates adipocyte differentiation and function by regulating two counteracting pathways of adipocyte differentiation, the PPARγ and Wnt/β-catenin pathways.

Visfatin is induced by peroxisome proliferator-activated receptor gamma in human macrophages

Obesity is a low-grade chronic inflammatory disease associated with an increased number of macrophages (adipose tissue macrophages) in adipose tissue. Within the adipose tissue, adipose tissue macrophages are the major source of visfatin/pre-B-cell colony-enhancing factor/nicotinamide phosphoribosyl transferase. The nuclear receptor peroxisome proliferator-activated receptor gamma (PPARgamma) exerts anti-inflammatory effects in macrophages by inhibiting cytokine production and enhancing alternative differentiation. In this study, we investigated whether PPARgamma modulates visfatin expression in murine (bone marrow-derived macrophage) and human (primary human resting macrophage, classical macrophage, alternative macrophage or adipose tissue macrophage) macrophage models and pre-adipocyte-derived adipocytes. We show that synthetic PPARgamma ligands increase visfatin gene expression in a PPARgamma-dependent manner in primary human resting macrophages and in adipose tissue macrophages, but not in adipocytes. The threefold increase of visfatin mRNA was paralleled by an increase of protein expression (30%) and secretion (30%). Electrophoretic mobility shift assay experiments and transient transfection assays indicated that PPARgamma induces visfatin promoter activity in human macrophages by binding to a DR1-PPARgamma response element. Finally, we show that PPARgamma ligands increase NAD(+) production in primary human macrophages and that this regulation is dampened in the presence of visfatin small interfering RNA or by the visfatin-specific inhibitor FK866. Taken together, our results suggest that PPARgamma regulates the expression of visfatin in macrophages, leading to increased levels of NAD(+).

Predicting the efficacy of anthracyclines in breast cancer (BC) patients: Results of the neoadjuvant TOP trial

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Background: Anthracycline-based regimens are among the most active and used chemotherapies in BC. Here, we report the results of the prospective TOP trial ( NCT00162812 ) which was specifically designed to identify markers of response/resistance to preoperative epirubicin (100 mg/m2 q2 or q3wks) in estrogen receptor-negative (ER-) BC patients. Methods: Using pre-epirubicin biopsies, we analyzed TOP2A by fluorescence in situ hybridization (Abbott triple probe) and by immunohistochemistry (KiS1) and generated gene expression profiles (HG133Plus2.0). We used publicly available gene expression data from the BIG1–00, trial (EORTC-10094), which compared in a preoperative setting an anthracycline-based (A) to a taxane-based (T) regimen, to validate some of our results. Results: 149 patients were included in the TOP trial and 14.5% had a complete pathological response (pCR). TOP2A amplification (11% of the cases) was exclusively observed in HER-2 amplified cases (33% of the cases), and was highly predictive of pCR (k = 0.35, p = 0.0002 - half of the patients with TOP2A amplification experienced pCR). Neither the protein levels nor the mRNA levels were predictive of pCR. Chromosome17 (Ch17) polysomy was observed in 68% of the samples and was not associated with pCR. TOP2A gene expression module (made of genes located closely to TOP2A), was predictive of response both in the HER-2+ patients of the TOP trial and in the ER-/HER-2+ of the BIG1–00 patients treated with A but not with T [Area Under the Curve (AUC): 0.86 (p = 0.00001) in TOP trial and 0.81 (p = 0.0005) in A-arm BIG1–00 trial]. Stroma expression module defined previously was associated with pCR in both trials (TOP and in the ER- BIG1–00 patients treated with A but not with T, especially in HER-2- patients [AUC: 0.31 (p = 0.01) in TOP trial and 0.33 (p = 0.02) in A-arm/BIG1–00 trial]. Conclusions: This trial, which is the first to prospectively evaluate the predictive value of TOP2A, supports TOP2A gene amplification as predictive marker of response. Ch17 polysomy, observed in ∼2/3 of these ER- patients, was not predictive of response. Finally, our results suggest that gene expression modules also predict relative response/resistance to anthracyclines, both in HER-2+ and HER-2- patients.

No significant financial relationships to disclose.

Inhibition of adipocyte differentiation by RORalpha

Here we show that gene expression of the nuclear receptor RORalpha is induced during adipogenesis, with RORalpha4 being the most abundantly expressed isoform in human and murine adipose tissue. Over-expression of RORalpha4 in 3T3-L1 cells impairs adipogenesis as shown by the decreased expression of adipogenic markers and lipid accumulation, accompanied by decreased free fatty acid and glucose uptake. By contrast, mouse embryonic fibroblasts from staggerer mice, which carry a mutation in the RORalpha gene, differentiate more efficiently into mature adipocytes compared to wild-type cells, a phenotype which is reversed by ectopic RORalpha4 restoration.

Regulation of bile acid synthesis by the nuclear receptor Rev-erbalpha

BACKGROUND & AIMS

Conversion into bile acids represents an important route to remove excess cholesterol from the body. Rev-erbalpha is a nuclear receptor that participates as one of the clock genes in the control of circadian rhythmicity and plays a regulatory role in lipid metabolism and adipogenesis. Here, we investigate a potential role for Rev-erbalpha in the control of bile acid metabolism via the regulation of the neutral bile acid synthesis pathway.

METHODS

Bile acid synthesis and CYP7A1 gene expression were studied in vitro and in vivo in mice deficient for or over expressing Rev-erbalpha.

RESULTS

Rev-erbalpha-deficient mice display a lower synthesis rate and an impaired excretion of bile acids into the bile and feces. Expression of CYP7A1, the rate-limiting enzyme of the neutral pathway, is decreased in livers of Rev-erbalpha-deficient mice, whereas adenovirus-mediated hepatic Rev-erbalpha overexpression induces its expression. Moreover, bile acid feeding resulted in a more pronounced suppression of hepatic CYP7A1 expression in Rev-erbalpha-deficient mice. Hepatic expression of E4BP4 and the orphan nuclear receptor small heterodimer partner (SHP), both negative regulators of CYP7A1 expression, is increased in Rev-erbalpha-deficient mice. Promoter analysis and chromatin immunoprecipitation experiments demonstrated that SHP and E4BP4 are direct Rev-erbalpha target genes. Finally, the circadian rhythms of liver CYP7A1, SHP, and E4BP4 messenger RNA levels were perturbed in Rev-erbalpha-deficient mice.

CONCLUSIONS

These data identify a role for Rev-erbalpha in the regulatory loop of bile acid synthesis, likely acting by regulating both hepatic SHP and E4BP4 expression.

The nuclear receptor Rev-erbalpha is a liver X receptor (LXR) target gene driving a negative feedback loop on select LXR-induced pathways in human macrophages

A role of the nuclear receptor Rev-erbalpha in the regulation of transcription pathways involving other nuclear receptors is emerging. Indeed, Rev-erbalpha is a negative regulator of transcription by binding to overlapping response elements shared with various nuclear receptors, including the peroxisome proliferator-activated receptors and the retinoid-related orphan receptor alpha (RORalpha). Here, we show that Rev-erbalpha is expressed in primary human macrophages and that its expression is induced by synthetic ligands for the liver X receptors (LXRs), which control cholesterol homeostasis, inflammation, and the immune response in macrophages. LXRalpha binds to a specific response element in the human Rev-erbalpha promoter, thus inducing Rev-erbalpha transcriptional expression. Interestingly, Rev-erbalpha does not influence basal or LXR-regulated cholesterol homeostasis. However, Rev-erbalpha overexpression represses the induction of toll-like receptor (TLR)-4 by LXR agonists, whereas Rev-erbalpha silencing by short interfering RNA results in enhanced TLR-4 expression upon LXR activation. Electrophoretic mobility shift, chromatin immunoprecipitation, and transient transfection experiments demonstrate that Rev-erbalpha represses human TLR-4 promoter activity by binding as a monomer to a RevRE site overlapping with the LXR response element site in the TLR-4 promoter. These data identify Rev-erbalpha as a new LXR target gene, inhibiting LXR-induction of TLR-4 in a negative transcriptional feedback loop, but not cholesterol homeostasis gene expression.

Induction of CXCR2 receptor by peroxisome proliferator-activated receptor gamma in human macrophages

OBJECTIVE

Macrophages play a central role in the immune response against infectious organisms. Once activated, macrophages secrete proinflammatory cytokines and chemokines. Interleukin (IL)-8 and related CXC chemokines play a role in the recruitment and activation of phagocytes acting through CXCR1 and CXCR2 receptors. The nuclear receptor peroxisome proliferator-activated receptor (PPAR) gamma exerts antiinflammatory properties in macrophages, by inhibiting cytokine and CC chemokine production. In this study, we investigated whether PPAR-gamma also plays a role in the regulation of the CXC chemokine pathway.

METHODS AND RESULTS

Synthetic PPAR-gamma ligands increase CXCR2 but not CXCR1 gene expression in a PPAR-gamma-dependent manner in primary human macrophages in vitro and in atherosclerotic plaques in vivo. The increase of CXCR2 mRNA was paralleled by an increase in membrane protein expression. EMSA, ChIP, and transient transfection assays indicate that PPAR-gamma activates the CXCR2 promoter by binding to a PPAR response element (PPRE). Finally, human macrophages acquire responsiveness to the CXCR2 ligands (IL-8 and Grobeta), as measured by superoxide anion production, after induction of CXCR2 expression by PPAR-gamma ligands.

CONCLUSIONS

Our results provide a novel mechanism via which PPAR-gamma can enhance the immune response in human macrophages.

The farnesoid X receptor induces fetuin-B gene expression in human hepatocytes

FXR (farnesoid X receptor), a nuclear receptor activated by BAs (bile acids), is a key factor in the regulation of BA, lipid and carbohydrate metabolism. The recent development of synthetic FXR agonists and knockout mouse models has accelerated the discovery of FXR target genes. In the present study, we identify human fetuin-B as a novel FXR target gene. Treatment with FXR agonists increased fetuin-B expression in human primary hepatocytes and in the human hepatoma HepG2 cell line. In contrast, fetuin-B expression was not responsive to FXR agonist treatment in murine primary hepatocytes. Fetuin-B induction by FXR agonist was abolished upon FXR knockdown by siRNA (small interfering RNA). In addition to the previously described P1 promoter, we show that the human fetuin-B gene is also transcribed from an alternative promoter, termed P2. Transcription via the P2 promoter was induced by FXR agonist treatment, whereas P1 promoter activity was not sensitive to FXR agonist treatment. Two putative FXR-response elements [IR-1 (inverted repeat-1)] were identified in the region -1.6 kb upstream of the predicted P2 transcriptional start site. Both motifs bound FXR-RXR (retinoid X receptor) complexes in vitro and were activated by FXR in transient transfection reporter assays. Mutations in the IR-1 sites abolished FXR-RXR binding and activation. Taken together, these results identify human fetuin-B as a new FXR target gene in human hepatocytes.

[Vertical reduction mammaplasty for gigantomastia with massive fibroadenomatosis: a case report]

Vertical reduction mammaplasty is one of the most debated << short-scar >> breast reduction technique. Advantages and drawbacks of the technique are discussed; most of the authors do not accept it as the technique of choice for high glandular resection weights. In our case report we achieve it for a resection weight up to two kilograms with an areolar transposition distance of more than ten centimetres. We show that it is reasonable to realize it dealing with gigantomastia. The massive fibroadenomatosis is observed following immunosuppressive treatment for kidney transplantation. Cyclosporine intake, even sporadic, is at the origin of the growth of these multiple, bilateral and large fibroadenomas. Drug-induced cytokines stimulate their development.

Acute antiinflammatory properties of statins involve peroxisome proliferator-activated receptor-alpha via inhibition of the protein kinase C signaling pathway

Statins are inhibitors of 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase used in the prevention of cardiovascular disease (CVD). In addition to their cholesterol-lowering activities, statins exert pleiotropic antiinflammatory effects, which might contribute to their beneficial effects not only on CVD but also on lipid-unrelated immune and inflammatory diseases, such as rheumatoid arthritis, asthma, stroke, and transplant rejection. However, the molecular mechanisms involved in these antiinflammatory properties of statins are unresolved. Here we show that the peroxisome proliferator-activated receptor (PPAR) alpha mediates antiinflammatory effects of simvastatin in vivo in models of acute inflammation. The inhibitory effects of statins on lipopolysaccharide-induced inflammatory response genes were abolished in PPARalpha-deficient macrophages and neutrophils. Moreover, simvastatin inhibited PPARalpha phosphorylation by lipopolysaccharide-activated protein kinase C (PKC) alpha. A constitutive active form of PKCalpha inhibited nuclear factor kappaB transrepression by PPARalpha whereas simvastatin enhanced transrepression activity of wild-type PPARalpha, but not of PPARalpha mutated in its PKC phosphorylation sites. These data indicate that the acute antiinflammatory effect of simvastatin occurs via PPARalpha by a mechanism involving inhibition of PKCalpha inactivation of PPARalpha transrepression activity.

Transcriptional Regulation of Apolipoprotein A5 Gene Expression by the Nuclear Receptor RORα

Objective— The newly identified apolipoprotein A5 ( APOA5 ), selectively expressed in the liver, is a crucial determinant of plasma triglyceride levels. Because elevated plasma triglyceride concentrations constitute an independent risk factor for cardiovascular diseases, it is important to understand how the expression of this gene is regulated. In the present study, we identified the retinoic acid receptor-related orphan receptor-α (RORα) as a regulator of human APOA5 gene expression.

Methods and Results— Using electromobility shift assays, we first demonstrated that RORα1 and RORα4 proteins can bind specifically to a direct repeat 1 site present at the position −272/−260 in the APOA5 gene promoter. In addition, using transient cotransfection experiments in HepG2 and HuH7 cells, we demonstrated that both RORα1 and RORα4 strongly increase APOA5 promoter transcriptional activity in a dose-dependent manner. Finally, adenoviral overexpression of hRORα in HepG2 cells led to enhanced hAPOA5 mRNA accumulation. We show that the homologous region in mouse apoa5 promoter is not functional. Moreover, we show that in staggerer mice, apoa5 gene is not affected by RORα.

Conclusions— These findings identify RORα1 and RORα4 as transcriptional activators of human APOA5 gene expression. These data suggest an additional important physiological role for RORα in the regulation of genes involved in lipid homeostasis and probably in the development of atherosclerosis.

Different short- and long-term effects of resveratrol on nuclear factor-kappaB phosphorylation and nuclear appearance in human endothelial cells

BACKGROUND

Resveratrol (a naturally occurring phytoalexin found in grapes and wine) has cardiovascular protective effects that suggest the antiatherogenic (ie, antiinflammatory) activities of the compound on endothelial cells.

OBJECTIVE

The antiinflammatory activity of resveratrol could be mediated by its interference with nuclear factor-kappaB (NF-kappaB)-dependent transcription. Thus, we studied the in vitro influence of physiologic concentrations of resveratrol (<or= 1 micromol/L) on the NF-kappaB signaling pathway after tumor necrosis factor alpha (TNF-alpha) stimulation of endothelial cells.

DESIGN

The effects of a 30-min (acute) and an overnight incubation of resveratrol on the nuclear appearance of p50-NF-kappaB and p65-NF-kappaB on serine and tyrosine phosphorylation of the inhibitory subunit kappaB alpha (IkappaBalpha), cytoplasmic concentrations of IkappaBalpha, NF-kappaB phosphorylation or nitrosylation, the reduction of the mitotic inhibitor p21, and the activation of peroxisome proliferator-activated receptor alpha were evaluated.

RESULTS

The nuclear appearance of p50-NFkappaB and p65-NFkappaB acutely induced by TNF-alpha was not modified by resveratrol but was increased after overnight incubation with resveratrol alone or in combination with TNF-alpha. Acute treatment with resveratrol did not modify TNF-alpha-induced cytoplasmic IkappaBalpha serine phosphorylation but did increase IkappaBalpha tyrosine phyophorylation. Resveratrol increased the tyrosine phosphorylation (but not nitrosylation) of immunoprecipitated NF-kappaB, did not decrease cellular p21, and did not increase peroxisome proliferator-activated receptor alpha activity.

CONCLUSIONS

Acute resveratrol treatment does not inhibit the nuclear appearance of NF-kappaB in human umbilical vein endothelial cells, but overnight treatment does. The increase in tyrosine phosphorylation of IkappaBalpha, p50-NF-kappaB, and p65-NF-kappaB suggests the involvement of such alterations in the modulation of NF-kappaB transcription activity.

The UDP-glucuronosyltransferase 1A9 enzyme is a peroxisome proliferator-activated receptor alpha and gamma target gene

Peroxisome proliferator-activated receptor (PPAR) alpha and gamma are ligand-activated transcription factors belonging to the nuclear receptor family. PPAR alpha mediates the hypolipidemic action of the fibrates, whereas PPAR gamma is a receptor for the antidiabetic glitazones. In the present study, the UDP-glucuronosyltransferase (UGT) 1A9 enzyme is identified as a PPAR alpha and PPAR gamma target gene. UGTs catalyze the glucuronidation reaction, which is a major pathway in the catabolism and elimination of numerous endo- and xenobiotics. Among the UGT1A family enzymes, UGT1A9 metabolizes endogenous compounds, including catecholestrogens, and xenobiotics, such as fibrates and to a lesser extent troglitazone. Treatment of human hepatocytes and macrophages and murine adipocytes with activators of PPAR alpha or PPAR gamma resulted in an enhanced UGT1A9 expression and activity. In addition, disruption of the PPAR alpha gene in mice completely abolished the PPAR alpha agonist-induced UGT1A9 mRNA and activity levels. A PPAR response element was identified in the promoter of UGT1A9 at positions -719 to -706 bp by transient transfection and electromobility shift assays. Considering the role of UGT1A9 in catecholestrogen metabolism, PPAR alpha and PPAR gamma activation may contribute to the protection against genotoxic catecholestrogens by stimulating their inactivation in glucuronide derivatives. Furthermore, since UGT1A9 is involved in the catabolism of fibrates, these results suggest that PPAR alpha and PPAR gamma may control the intracellular level of active fibrates.

Trisomy 16 as the sole anomaly in hematological malignancies. Three new cases and a short review

We report on three cases, two with myelodysplastic syndrome (MDS) and one with acute lymphoblastic leukemia (ALL), displaying trisomy 16 as the sole cytogenetic anomaly. In none of these cases was a concomitant inv(16)(p13q22) detected by fluorescence in situ hybridization (FISH) or reverse transcription polymerase chain reaction (RT-PCR). Summarizing the literature, only six other cases cytogenetically characterized by an isolated trisomy 16 have been reported in hematological malignancies. These patients had either MDS, acute myeloblastic leukemia (AML), myelofibrosis, or ALL. All but one of these cases were aged less than 50.

Complications and hospitalisation--duration after chemoembolisation for liver metastases

In a retrospective study, all patients of the hemato-oncology department of the Centre Hospitalier who were treated from 1988 to 1997 by chemoembolisation for liver metastases were analysed for treatment-related hospitalisation duration, side effects and complications, in order to assess the treatment burden. Major side-effects were: pain in 17 of 29 patients, nausea in 8, vomiting in 7, persistent hickup in 3, fever in 12, a temporary confusional state in 4 patients. 1 patient experienced syncope, 2 patients developed homolateral pleral effusions, 1 patient suffered transient supraventricular arrhythmias. Major complications included 1 hemoperitoneum (under anticoagulant therapy), 1 hemorrhagic gastritis, 1 acute cholecystitis due to inflammatory tumoral choledochal obstruction and one iatrogenous acute pancreatic ischemic necrosis. Two patients died of post-embolic acute hepatic insufficiency, one 10 days, one 41 days after the last treatment session). In summary, chemo-embolisation of liver metastases is a complication-burdened treatment in a strictly palliative setting with inestimable efficacy. The treatment modalities have to be discussed with the patient beforehand and preferably in controlled study setting. Large randomised trials may indicate patients' subgroups for benefit.

MLL amplification in myeloid leukemias: A study of 14 cases with multiple copies of 11q23

We here report the clinical, cytogenetic, fluorescence in situ hybridization (FISH), and Southern blot data on 14 patients with a myeloid malignancy and structural aberration of chromosome band 11q23 associated with overrepresentation or amplification of the MLL gene. The number of copies of MLL varied from three (two cases) to a cluster consisting of multiple hybridization spots. Together with previous reports, available data indicate that amplification of 11q23/MLL is a recurrent genetic change in myeloid malignancy. It affects mainly elderly patients and is often associated with dysplastic bone marrow changes or with complex karyotypic aberrations, suggestive of genotoxic exposure. It is associated with a poor prognosis. In addition, FISH analysis of nine cases with additional 11q probes showed that the overrepresented chromosomal region is generally not restricted to MLL, and Southern blot analysis indicated that amplification does not involve a rearranged copy of this gene. The significance of MLL amplification and the mechanisms by which it could play a role in leukemogenesis and/or disease progression remain to be elucidated.

Clinical benefit from erythropoietin

Advances continue in erythropoietin biology, and additional data reviewed here have recently become available on complex feedback mechanisms describing the interrelations of hypoxia and its effects on anemia and tumor behavior (eg, apoptosis, angiogenesis). In addition to biology, other clinically relevant data in oncology are included and an attempt is made to identify patients who are most likely to benefit from treatment. The latter aspects will better define the profile of the target patient, probably prevent overtreatment, and improve cost-benefit ratios. Interesting data on radiotherapy results improved by increasing tissue hemoglobin have been published but will need further confirmation.

Evaluation of effect of charge and lipid coating on ability of 60-nm nanoparticles to cross an in vitro model of the blood-brain barrier

A cell culture model of the blood-brain barrier (BBB) consisting of a coculture of bovine brain capillary endothelial cells and rat astrocytes has been used to examine the ability of 60-nm nanoparticles with different physicochemical characteristics to cross the BBB. Neutral, anionic, and cationic nanoparticles were made from crosslinked malto-dextrins derivatized or not (neutral) with phosphates (anionic), quaternary ammoniums (cationic) ligands. Then, these particles were coated or not with a lipid bilayer made of dipalmitoyl phosphatidyl choline and cholesterol. Lipid coating of ionically charged nanoparticles was able to increase BBB crossing 3- or 4-fold compared with uncoated particles, whereas coating of neutral particles did not significantly alter their permeation characteristics across the endothelial cell monolayer. Lipid-coated nanoparticles were nontoxic toward BBB integrity, and crossed the BBB by transcytosis without any degradation. Furthermore, a 27-fold increase in albumin transport was observed when albumin had previously been loaded in the cationic lipid-coated nanoparticles. The influence of red blood cells was studied; a marked inhibition of the transport was observed, probably due to strong interaction between nanoparticles and red blood cells.

[Spontaneous regression of pulmonary metastases in renal cancer]

Spontaneous regression of lung-metastases in kidney cancer (a case report) A case is reported of a 56-year old woman with renal cell carcinoma operated and treated adjuvantly for a year with Interferon alpha. Ten months thereafter the patient had histologically proven a large pulmonary metastatic disease that regressed spontaneously. Duration of the spontaneous remission was 8 months.

Inhibition of P-glycoprotein: rapid assessment of its implication in blood-brain barrier integrity and drug transport to the brain by an in vitro model of the blood-brain barrier

PURPOSE

The objective of this work was to assess, in vitro, the passage of P-glycoprotein dependent drugs across brain capillary endothelial cells, when these drugs are associated with a reversing agent.

METHODS

An in vitro model of the blood-brain barrier consisting of a coculture of brain capillary endothelial cells and astrocytes was used.

RESULTS

We demonstrate that P-glycoprotein expression is upregulated by the presence of astrocytes. Uptake in the cells and transport across endothelial cell monolayers of vincristine, cyclosporin A and doxorubicin were studied. Using S9788 or verapamil as reversing agents, we found an increase in vincristine transport across the endothelial cell monolayers. On the other hand, the association of S9788 or verapamil with cyclosporin A failed to increase the transport of this drug. An increase in the transport of doxorubicin from luminal to abluminal compartment was also observed, due to endothelial cell monolayer breakdown.

CONCLUSIONS

Using this model, it is possible to predict the passage of a P-glycoprotein dependent drug to the brain or its sequestration in brain capillary endothelial cells when this drug is associated with a reversing agent, or its toxicity on the blood-brain barrier integrity.

Phase I/II clinical trial of epirubicin and paclitaxel followed by granulocyte colony-stimulating factor in a 2-week schedule in patients with advanced or metastatic breast cancer

Anthracyclines and taxanes are the most potent cytotoxic agents available for treating breast cancer. With combined therapy (either epirubicin or doxorubicin with paclitaxel [Taxol; Bristol-Myers Squibb Company, Princeton, NJ]), response rates of 70% to 90% have been reported. To achieve a maximal dose intensity per week, we decided to combine epirubicin 100 mg/m2 with escalating doses of paclitaxel, at successive dose levels of 135, 150, 165, and 180 mg/m2 in a 2-week schedule, with administration of subcutaneous granulocyte colony-stimulating factor 5 microg/kg from days 2 through 10. To date, 16 patients have been included, with six patients treated at level 1 (100/135 mg/m2 epirubicin/paclitaxel), four at level 2 (100/150 mg/m2), four at level 3 (100/165 mg/m2), and two at level 4 (100/180 mg/m2). The median age of all subjects is 55 years (range, 41 to 65 years). Five patients had received chemotherapy in the adjuvant setting. Of 79 treatment courses, 78 are evaluable for toxicity. The mean number of courses per patient is six (range, two to six courses). At dose level 1, one episode of febrile neutropenia with grade 4 thrombocytopenia occurred. No grade 4 extrahematologic adverse event has been noted so far. At dose level 2, we achieved a dose intensity per week of epirubicin 50 mg/m2 and paclitaxel 75 mg/m2, as expected. At dose level 3, the dose intensity per week was 47.5 mg/m2 and 78.8 mg/m2, respectively (expected 50 and 82.5 mg/m2). The current response rate, evaluated in 14 of 16 patients, is four complete remissions and eight partial remissions, for an overall response rate of 85%. Two patients had stable disease. Granulocyte colony-stimulating factor following epirubicin/paclitaxel on a 2-week schedule permits a very high dose intensity per week for both drugs and produces a high response rate in patients with advanced or metastatic breast cancer.

[New diagnostic approaches to deep venous thrombosis]

This review summarizes a number of recent articles reconsidering the use of phlebography as the golden standard for deep venous thrombosis. Compression ultrasound and color-coded duplex doppler seem to be reasonably sensitive to provide safety in detecting lower limb thrombosis while less invasive. A clinical risk factor panel may further enhance diagnostic security.

Genital ulceration revealing a primary cutaneous anaplastic lymphoma

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Multidrug resistance: molecular and clinical aspects

Clinical drug resistance, a common and compromising side-effect during anticancer chemotherapy, is an acquired cellular resistance simultaneously to several cytotoxic drugs. Expression of the multidrug resistance gene (mdr) is one of the most-studied potential underlying mechanisms. The human mdr gene family encompasses two homologous members, the first of which, called the mdr1 gene, is the best-characterized so far. The human mdr1 gene has been shown to encode a membrane P-170 glycoprotein that, on the basis of its structure, is considered to act as a drug-efflux pump excreting various drugs from cells. The human mdr1 gene is thus a major regulated gene playing an important role in the molecular mechanism of multidrug resistance. Its bipartite structure of two similarly organized halves is explained by a gene fusion event during evolution. However, the clinical significance of this particular feature, if it seemed obvious in the 1980s as a factor producing chemoresistance, is currently revised-being a marker of tumor aggressiveness rather than the cause of drug resistance.

Epirubicin cardiotoxicity: a study comparing low- with high-dose-intensity weekly schedules

Epirubicin is one of the less cardiotoxic alternatives to doxorubicin. We were interested in studying the cardiotoxic effect of the total cumulative dose, and weekly schedules of low compared to high dose intensity. Fifty-seven patients were treated with different epirubicin-containing regimens. We confirm the classical notion that total cumulative doses of less than 600 mg/m2 do not induce significant cardiotoxicity, whereas doses above 600 mg/m2 are associated with a trend towards cardiotoxicity. Patients receiving a high weekly dose intensity (> 40 mg/m2), however, did have a significantly lower incidence of cardiotoxicity than those receiving a low dose intensity per week (< 40 mg/m2) (22.8% versus 50%; P < 0.05). We identified the association of a dose intensity of more than 40 mg m-2/ week-1 and a cumulative dose of 400-899 mg/m2 or a dose intensity of less that 40 mg m-2/week-1 and a cumulative dose of less than 400 mg/m2 to have the lowest incidence rate of cardiotoxicity. We conclude from this study that epirubicin in weekly schedules of high dose intensity is not more cardiotoxic than in weekly schedules of low dose intensity.

Rapid quantification of alpha-tocopherol in plasma and low- and high-density lipoproteins

We have developed two methods for measuring the alpha-tocopherol content in plasma and lipoproteins (LDL and HDL). In procedure 1, plasma or lipoproteins are deproteinized with ethanol containing delta-tocopherol as internal standard and then extracted with hexane or ethyl acetate. The organic layer is removed and evaporated, and the residue is redissolved in methanol and injected into a reversed-phase HPLC. In procedure 2, plasma or lipoproteins are diluted in a methanol and ethanol mixture containing the same internal standard. The solution is vortex-mixed, centrifuged, and directly injected into the column. The tocopherols are eluted with an isocratic methanol mobile phase at a flow rate of 1 mL/min and detected by fluorescence (lambda(exc)= 295 nm, lambda(em)= 330nm). Recoveries are approximately 100% in both cases. Between-run CVs were 8.39% for procedure 1 and 6.55% for procedure 2. Small sample requirement, simplicity of sample preparation, short assay time, and good reproducibility make procedure 2 ideal for clinical or research use. This method was applied to determination of alpha-tocopherol in plasma of patients whose diet was supplemented with alpha-tocopherol and in LDL and HDL.

Rapid quantification of alpha-tocopherol in plasma and low- and high-density lipoproteins

We have developed two methods for measuring the alpha-tocopherol content in plasma and lipoproteins (LDL and HDL). In procedure 1, plasma or lipoproteins are deproteinized with ethanol containing delta-tocopherol as internal standard and then extracted with hexane or ethyl acetate. The organic layer is removed and evaporated, and the residue is redissolved in methanol and injected into a reversed-phase HPLC. In procedure 2, plasma or lipoproteins are diluted in a methanol and ethanol mixture containing the same internal standard. The solution is vortex-mixed, centrifuged, and directly injected into the column. The tocopherols are eluted with an isocratic methanol mobile phase at a flow rate of 1 mL/min and detected by fluorescence (lambda(exc)= 295 nm, lambda(em)= 330nm). Recoveries are approximately 100% in both cases. Between-run CVs were 8.39% for procedure 1 and 6.55% for procedure 2. Small sample requirement, simplicity of sample preparation, short assay time, and good reproducibility make procedure 2 ideal for clinical or research use. This method was applied to determination of alpha-tocopherol in plasma of patients whose diet was supplemented with alpha-tocopherol and in LDL and HDL.