Jean-Claude Mazière

Publications (56)196.83 Total impact

• Article: Iron-dependent cell death of hepatocellular carcinoma cells exposed to sorafenib.

  Christophe Louandre, Zakaria Ezzoukhry, Corinne Godin, Jean-Claude Barbare, Jean-Claude Mazière, Bruno Chauffert, Antoine Galmiche
  [show abstract] [hide abstract]
  ABSTRACT: The multi-kinase inhibitor sorafenib is currently the treatment of reference for advanced Hepatocellular Carcinoma (HCC). In the present report, we examined the cytotoxic effects of sorafenib on HCC cells. We report that the depletion of the intracellular iron stores achieved by using the iron chelator deferoxamine (DFX) strikingly protects HCC cells from the cytotoxic effects of sorafenib. The protective effect of the depletion of intracellular iron stores could not be explained by an interference with conventional forms of programmed cell death, such as apoptosis or autophagic cell death. We also found that DFX did not prevent sorafenib from reaching its intracellular target kinases. Instead, the depletion of intracellular iron stores prevented sorafenib from inducing oxidative stress in HCC cells. We examined the possibility that sorafenib might exert a cytotoxic effect that resembles ferroptosis, a form of cell death in which iron-dependent oxidative mechanisms play a pivotal role. In agreement with this possibility, we found that pharmacological inhibitors (ferrostatin-1) and genetic procedures (RNA interference against IREB-2) previously reported to modulate ferroptosis, readily block the cytotoxic effects of sorafenib in HCC cells. Collectively, our findings identify ferroptosis as an effective mechanism for the induction of cell death in HCC. Ferroptosis could potentially become a goal for the medical treatment of HCC, thus opening new avenues for the optimization of the use of sorafenib in these tumours. © 2013 Wiley Periodicals, Inc.
  International Journal of Cancer 03/2013; · 5.44 Impact Factor
• Source

  Available from: Ashraf Rangrez

  Article: Effects of phosphate on vascular function under normal conditions and influence of the uraemic state.

  Isabelle Six, Julien Maizel, Fellype C Barreto, Ashraf Y Rangrez, Sébastien Dupont, Michel Slama, Christophe Tribouilloy, Gabriel Choukroun, Jean Claude Mazière, Stefanie Bode-Boeger, Jan T Kielstein, Tilman B Drüeke, Ziad A Massy
  [show abstract] [hide abstract]
  ABSTRACT: Increased serum phosphorus levels are associated with cardiovascular disease in patients with chronic kidney disease (CKD) and in the general population. High phosphate levels may play a direct role in vascular dysfunction. We investigated here the effects of phosphate loading and of the phosphate binder sevelamer-HCl on vascular function. CKD and non-CKD C57/BL6 mice were used to study the effects of CKD, phosphate, and sevelamer-HCl on vascular function and structure. In vitro, phosphate exhibited a direct vasoconstrictor effect on aortic rings. This effect was smaller in vessels from CKD than non-CKD mice and it was abolished by reactive oxygen species inhibitor dimethylthiourea. A high-phosphate diet (1.3%) increased phenylephrine-induced contraction and lowered acetylcholine-induced relaxation of aortic rings ex vivo, both in non-CKD and CKD mice. It also induced endothelial cell detachment. Sevelamer-HCl exposure in vitro normalized the endothelial dysfunction induced by 3.0 mM phosphate and restored endothelial integrity. Sevelamer-HCl treatment of CKD mice under normal diet (0.65% phosphate) improved the endothelial dysfunction, aortic systolic expansion rate, and pulse wave velocity, and it reduced the endothelial expression of adhesion molecules. Changes in extracellular phosphorus concentrations may directly modulate vascular function and thereby modulate the vascular smooth muscle response to physiological or pathological stimuli in normal and CKD mice. Whether serum phosphorus lowering and/or dietary phosphate restriction can improve arterial function in humans remains to be established.
  Cardiovascular research 07/2012; 96(1):130-9. · 5.80 Impact Factor
• Article: EGFR activation is a potential determinant of primary resistance of hepatocellular carcinoma cells to sorafenib.

  Zakaria Ezzoukhry, Christophe Louandre, Eric Trécherel, Corinne Godin, Bruno Chauffert, Sébastien Dupont, Momar Diouf, Jean-Claude Barbare, Jean-Claude Mazière, Antoine Galmiche
  [show abstract] [hide abstract]
  ABSTRACT: Sorafenib is currently the medical treatment of reference for hepatocellular carcinoma (HCC), but it is not known whether sorafenib is equally active in all HCC. Here, our aim was to explore intrinsic differences in the response of HCC cells to sorafenib, to identify potential mechanisms leading to primary resistance to this treatment. We analyzed a panel of six human HCC cell lines and compared the activity of the main oncogenic kinase cascades, their clonogenic potential, proliferation and apoptosis upon exposure to sorafenib. We report that HCC cells present important differences in their response to sorafenib, and that some cell lines are more resistant to the actions of sorafenib than others. We identify the activated epidermal growth factor receptor (EGFR) as a parameter that promotes the resistance of HCC cells to sorafenib. In resistant cells, the efficacy of sorafenib was increased when EGFR was inhibited, as was demonstrated using two chemical inhibitors (erlotinib or gefitinib), a monoclonal antibody directed against EGFR (cetuximab), and RNA interference directed against EGFR. A combination of EGFR inhibitors and sorafenib affords a better control over HCC proliferation, most likely through an improved blockade of the RAF kinases. Our findings therefore confirm the importance of RAF kinases as therapeutic targets in HCC, and identify EGFR as a determinant of the sensitivity of HCC cells to sorafenib. Our findings bear possible implications for the improvement of the efficacy of sorafenib in HCC, and might be useful for the identification of predictive biomarkers in this context.
  International Journal of Cancer 04/2012; 131(12):2961-9. · 5.44 Impact Factor
• Article: The dependence of α-tocopheroxyl radical reduction by hydroxy-2,3-diarylxanthones on structure and micro-environment.

  Patrice Morlière, Larry K Patterson, Clementina M M Santos, Artur M S Silva, Jean-Claude Mazière, Paulo Filipe, Ana Gomes, Eduarda Fernandes, M Beatriz Q Garcia, René Santus
  [show abstract] [hide abstract]
  ABSTRACT: The flavonoid quercetin is known to reduce the α-tocopheroxyl radical (˙TocO) and reconstitute α-tocopherol (TocOH). Structurally related polyphenolic compounds, hydroxy-2,3-diarylxanthones (XH), exhibit antioxidant activity which exceeds that of quercetin in biological systems. In the present study repair of ˙TocO by a series of these XH has been evaluated using pulse radiolysis. It has been shown that, among the studied XH, only 2,3-bis(3,4-dihydroxyphenyl)-9H-xanthen-9-one (XH9) reduces ˙TocO, though repair depends strongly on the micro-environment. In cationic cetyltrimethylammonium bromide (CTAB) micelles, 30% of ˙TocO radicals are repaired at a rate constant of ~7.4 × 10(6) M(-1) s(-1) by XH9 compared to 1.7 × 10(7) M(-1) s(-1) by ascorbate. Water-soluble Trolox (TrOH) radicals (˙TrO) are restored by XH9 in CTAB (rate constant ~3 × 10(4) M(-1) s(-1)) but not in neutral TX100 micelles where only 15% of ˙TocO are repaired (rate constant ~4.5 × 10(5) M(-1) s(-1)). In basic aqueous solutions ˙TrO is readily reduced by deprotonated XH9 species leading to ionized XH9 radical species (radical pK(a) ~10). An equilibrium is observed (K = 130) yielding an estimate of 130 mV for the reduction potential of the [˙X9,H(+)/XH9] couple at pH 11, lower than the 250 mV for the [˙TrO,H(+)/TrOH] couple. A comparable value (100 mV) has been determined by cyclic voltammetry measurements.
  Organic & Biomolecular Chemistry 03/2012; 10(10):2068-76. · 3.70 Impact Factor
• Article: Upregulation of BAD, a pro-apoptotic protein of the BCL2 family, in vascular smooth muscle cells exposed to uremic conditions.

  Eric Trécherel, Corinne Godin, Christophe Louandre, Joyce Benchitrit, Sabrina Poirot, Jean-Claude Mazière, Ziad A Massy, Antoine Galmiche
  [show abstract] [hide abstract]
  ABSTRACT: Chronic kidney disease (CKD) has recently emerged as a major risk factor for cardiovascular pathology. CKD patients display accelerated atherosclerotic process, leading to circulatory complications. However, it is currently not clear how uremic conditions accelerate atherosclerosis. Apoptosis is an important homeostatic regulator of vascular smooth cells under pathological conditions. In the present study, we explored the regulation of apoptosis in cells of the vascular wall in the uremic context. We analysed the expression and regulation of the proteins of the BCL2 family that play an essential role in apoptosis. Our results, obtained in mice and primary human smooth muscle cells exposed to two uremic toxins, point to the existence of an alteration in expression and function of one pro-apoptotic member of this family, the protein BAD. We explore the regulation of BAD by uremic toxins and report the sensitization of vascular smooth muscle cells to apoptosis upon BAD induction.
  Biochemical and Biophysical Research Communications 12/2011; 417(1):479-83. · 2.48 Impact Factor
• Article: Oxidized low density lipoprotein induces cyclin A synthesis. Involvement of ERK, JNK and NFkappaB.

  Cécile Mazière, Eric Trécherel, Jérôme Ausseil, Christophe Louandre, Jean-Claude Mazière
  [show abstract] [hide abstract]
  ABSTRACT: The cytotoxicity of oxidized LDL (OxLDL) towards different cell types of the arterial wall results in atherosclerotic plaque fissuring or rupture. The effects of OxLDL on cyclins A, E and D1 levels were investigated in human fibroblasts. A 24h incubation with Cu(2+)-oxidized (CuLDL) or monocyte-oxidized LDL (M-LDL), within the range of 10-50μg ApoB/ml, increased the intracellular level of cyclin A, both in the nuclear and in the cytoplasmic fraction. This increase is due to a stimulation of cyclin A mRNA synthesis, and cycloheximide had a preventive effect. The CuLDL-induced rise in cyclin A was accompanied by an augmentation of reactive oxygen species ROS and of lipid peroxidation end products. Furthermore, this effect was reproduced by the lipid extract of CuLDL and prevented by the antioxidant vitamin E, demonstrating the role of oxidized lipids and the involvement of oxidative stress. In addition, the use of specific inhibitors indicated that the increase in cyclin A involved ERK/JNK kinases and NFkappaB transcription factor. The augmentation of cyclin A was observed not only in fibroblasts but also in other cell types such as macrophages, T lymphocytes, endothelial and smooth muscle cells. Since cyclin A has been shown to be involved in cell cycle arrest, the described phenomenon might be related to the harmful effect of OxLDL, leading to plaque rupture.
  Atherosclerosis 06/2011; 218(2):308-13. · 3.79 Impact Factor
• Article: Structure-activity relationships in hydroxy-2,3-diarylxanthone antioxidants. Fast kinetics spectroscopy as a tool to evaluate the potential for antioxidant activity in biological systems.

  Clementina M M Santos, Artur M S Silva, Paulo Filipe, René Santus, Larry K Patterson, Jean-Claude Mazière, José A S Cavaleiro, Patrice Morlière
  [show abstract] [hide abstract]
  ABSTRACT: A structure-activity relationship has been established for eight hydroxy-2,3-diarylxanthones (XH) bearing hydroxy groups on the two aryl rings. One-electron oxidation by superoxide radical-anions (˙O(2)(-)) and ˙Trp radicals as well as reaction with ˙CCl(3)O(2) and ˙CHCl(2)O(2) radicals demonstrates that two OH groups are required for efficient antioxidant reactivity in cetyltrimethylammonium bromide micelles. Hydroxy groups at the meta and para positions on either of the two phenyl rings confer enhanced reactivity, but XH bearing an OH at the para position of either phenyl ring is unreactive. While oxidation is favoured by OH in both meta and para positions of 2-aryl xanthone substituents, addition of a third and/or fourth OH enhances electron-donating capacity. In Cu(2+)-induced lipid peroxidation of human LDL, the lag period preceding the commencement of lipid peroxidation in the presence of XH bearing OH at meta and para positions on the 3-phenyl ring is extended to twice that observed with a comparable concentration of quercetin, a reference antioxidant. These antioxidants are also superior to quercetin in protecting human skin keratinocytes against tert-butylhydroperoxide-induced oxidative stress. While XH antioxidant activity in model biological systems is consistent with the structure-activity relationship, their response is also modulated by the localization of XH and by structural factors.
  Organic & Biomolecular Chemistry 05/2011; 9(10):3965-74. · 3.70 Impact Factor
• Source

  Available from: Olivier Godefroy

  Article: Reduced CSF turnover and decreased ventricular Aβ42 levels are related.

  Jean-Marie Serot, Johann Peltier, Antony Fichten, Nelly Ledeme, Anne-Marie Bourgeois, Pierre Jouanny, Patrick Toussaint, Daniel Legars, Olivier Godefroy, Jean-Claude Mazière
  [show abstract] [hide abstract]
  ABSTRACT: The appearance of Aβ42 peptide deposits is admitted to be a key event in the pathogenesis of Alzheimer's disease, although amyloid deposits also occur in aged non-demented subjects. Aβ42 is a degradation product of the amyloid protein precursor (APP). It can be catabolized by several enzymes, reabsorbed by capillaries or cleared into cerebrospinal fluid (CSF). The possible involvement of a decrease in CSF turnover in A4β2 deposit formation is up to now poorly known. We therefore investigated a possible relationship between a reduced CSF turnover and the CSF levels of the A4β2 peptide.To this aim, CSF of 31 patients with decreased CSF turnover were studied. These patients presented chronic hydrocephalus communicating or obstructive, which required surgery (ventriculostomy or ventriculo-peritoneal shunt). Nine subjects had idiopathic normal pressure hydrocephalus (iNPH), and the other 22 chronic hydrocephalus from other origins (oCH).The Aβ42 peptide concentration was measured by an ELISA test in 31 ventricular CSF samples and in 5 lumbar CSF samples from patients with communicating hydrocephalus. The 5 patients with lumbar CSF analysis had similar levels of lumbar and ventricular Aβ42. A significant reduction in Aβ42 ventricular levels was observed in 24 / 31 patients with hydrocephalus. The values were lower than 300 pg/ml in 5 out of 9 subjects with iNPH, and in 15 out of 22 subjects with oCH. The decrease of CSF Aβ42 seems to occur independently of the surgical hydrocephalus aetiology. This suggests that a CSF reduced turnover may play an important role in the decrease of CSF Aβ42 concentration.
  BMC Neuroscience 01/2011; 12:42. · 3.04 Impact Factor
• Article: Evidence for a slow and oxygen-insensitive intra-molecular long range electron transfer from tyrosine residues to the semi-oxidized tryptophan 214 in human serum albumin: its inhibition by bound copper (II).

  Larry K Patterson, Jean-Claude Mazière, David M Bartels, Gordon L Hug, René Santus, Patrice Morlière
  [show abstract] [hide abstract]
  ABSTRACT: A slow, long range electron transfer (SLRET) in human serum albumin (HSA) is observed from an intact tyrosine (Tyr) residue to the neutral tryptophan (Trp) radical (Trp·) generated in pulse radiolysis. This radical is formed, at neutral pH, through oxidation with Br (2) (·-) radical anions of the single Trp 214 present. The SLRET rate constant of ~0.2 s(-1) determined is independent of HSA concentration and radiation dose, consistent with an intra-molecular process. This is the slowest rate constant so far reported for an intra-molecular LRET. In sharp contrast with the LRET reported for other proteins, the SLRET observed here is insensitive to oxygen, suggesting that the oxidized Trp is inaccessible to-or do not react with radiolytically generated O (2) (·-) . In N(2)O-saturated solutions, the SLRET is inhibited by Cu(2+) ions bound to the His 3 residue of the N-terminal group of HSA but it is partially restored in O(2)-saturated solutions.
  Amino Acids 12/2010; 42(4):1269-75. · 3.25 Impact Factor
• Source

  Available from: peerproject.eu

  Article: Oxidized low density lipoprotein inhibits phosphate signaling and phosphate-induced mineralization in osteoblasts. Involvement of oxidative stress.

  Cécile Mazière, Valéry Savitsky, Antoine Galmiche, Cathy Gomila, Ziad Massy, Jean-Claude Mazière
  [show abstract] [hide abstract]
  ABSTRACT: It is well admitted that oxidized LDL (OxLDL) plays a major role in the generation and progression of atherosclerosis. Since atherosclerosis is often accompanied by osteoporosis, the effects of OxLDL on phosphate-induced osteoblast mineralization were investigated. Calcium deposition, expression of osteoblast markers and inorganic phosphate (Pi) signaling were determined under OxLDL treatment. OxLDL, within the range of 10-50 μg protein/ml, inhibited Pi-induced UMR106 rat osteoblast mineralization. In parallel, the expression of Cbfa1/Runx2 transcription factor was decreased, and the intracellular level of the osteoblast marker osteopontin (OPN) was reduced. The extracellular level of another marker, receptor activator of nuclear factor kappa B ligand (RANKL), was also diminished. OxLDL inhibited Pi signaling via ERK/JNK kinases and AP1/CREB transcription factors. OxLDL triggered the generation of reactive oxygen species (ROS), either in the absence or presence of Pi. Furthermore, the effects of OxLDL on Pi-induced mineralization, generation of ROS and extracellular level OPN were reproduced by the lipid extract of the particle, whereas the antioxidant vitamin E prevented them. This work demonstrates that OxLDL, by generation of an oxidative stress, inhibits of Pi signaling and impairs Pi-induced osteoblast differentiation. This highlights the role of OxLDL in bone remodeling and in degenerative disorders other than atherosclerosis, especially in osteoporosis.
  Biochimica et Biophysica Acta 11/2010; 1802(11):1013-9. · 4.66 Impact Factor
• Source

  Available from: cnrs.fr

  Article: Chain-dependent photocytotoxicity of tricationic porphyrin conjugates and related mechanisms of cell death in proliferating human skin keratinocytes.

  João Nuno Silva, Antoine Galmiche, João P C Tomé, Agnès Boullier, Maria G P M S Neves, Eduarda M P Silva, Jean-Claude Capiod, José A S Cavaleiro, René Santus, Jean-Claude Mazière, Paulo Filipe, Patrice Morlière
  [show abstract] [hide abstract]
  ABSTRACT: Photodynamic therapy (PDT) is a poor treatment option for nodular basal cell carcinomas and squamous cell carcinomas. As a result, the search for new photosensitizers with better effectiveness is of current interest. The photocytotoxicity of conjugates (P-R) of a water-soluble tri-cationic porphyrin (P-H) having similar efficiency of production of singlet oxygen, the PDT cytotoxin, has been assessed in vitro. Links between uptake, intracellular localization, photooxidative stress, photocytotoxicity and ability to induce programmed cell death are established. Conjugates bearing methyl (P-Me), Di-O-isopropylidene-(-d-galactopyranosyl (P-OGal) or N,N'-dicyclohexylureidooxycarbonyl (P-DDC) chains are efficiently taken-up by proliferating NCTC 2544 keratinocytes. The relative order of photocytotoxicity is P-OGal >P-DDC=P-Me≫P-H. The photocytotoxic potential of P-Me, P-OGal and P-DDC equals that of endogenous protoporphyrin IX induced by δ-aminolevulinic acid or its esters, the pro-drugs currently employed for PDT of skin lesions. Microfluorometry shows that P-Me, P-OGal, and P-DDC localize in endocytotic or pinocytotic vesicles but not in mitochondria or nucleus. Absence of annexin V binding, caspase activation or chromatin condensation suggests that cell photosensitization by P-R does not induce apoptosis. On the other hand, P-OGal photocytotoxicity correlates with appearance of multiple vesicles that have hallmarks of autophagy compartments, being decorated with the marker LC3 in cells transfected with an expression vector encoding GFP-LC3. p38 and JNK phosphorylation and inhibition of ERK1/2 phosphorylation suggest close relationship between mortality of NCTC 2544 keratinocytes and MAPK pathway impairment. Given their potentially easy formulation, water-soluble P-R are promising powerful photosensitizers for PDT of skin lesions.
  Biochemical pharmacology 11/2010; 80(9):1373-85. · 4.25 Impact Factor
• Article: BAD, a proapoptotic member of the BCL2 family, is a potential therapeutic target in hepatocellular carcinoma.

  Antoine Galmiche, Zakaria Ezzoukhry, Catherine François, Christophe Louandre, Charles Sabbagh, Eric Nguyen-Khac, Véronique Descamps, Nathalie Trouillet, Corinne Godin, Jean-Marc Regimbeau, Jean-Paul Joly, Jean-Claude Barbare, Gilles Duverlie, Jean-Claude Mazière, Denis Chatelain
  [show abstract] [hide abstract]
  ABSTRACT: Proteins of the BCL2 family are key regulators of apoptosis. Their expression levels are frequently altered in cancers, enabling tumor cells to survive. To gain insight into the pathogenesis of hepatocellular carcinoma (HCC), we performed a comprehensive survey of the expression of the members of the BCL2 family in samples obtained from surgically resected HCCs. Here, we report the occurrence of a new molecular anomaly, consisting of a strong reduction in the expression of the proapoptotic protein BAD in HCC compared with surrounding nontumoral tissue. We investigate the function of BAD in a panel of HCC cell lines. Using gene overexpression and RNA interference, we show that BAD is involved in the cytotoxic effects of sorafenib, a multikinase blocker, which is currently the sole therapeutic drug effective for the treatment of HCC. Finally, we report that ABT-737, a compound that interacts with proteins of the BCL2 family and exhibits a BAD-like reactivity, sensitizes HCC cells toward sorafenib-induced apoptosis. Collectively, our findings indicate that BAD is a key regulator of apoptosis in HCC and an important determinant of HCC cell response to sorafenib.
  Molecular Cancer Research 08/2010; 8(8):1116-25. · 4.29 Impact Factor
• Article: Oxidized low-density lipoprotein increases osteopontin expression by generation of oxidative stress.

  Cécile Mazière, Cathy Gomila, Jean-Claude Mazière
  [show abstract] [hide abstract]
  ABSTRACT: Osteopontin (OPN) is an important mediator of inflammation and is involved in the generation of atherosclerotic lesions. Oxidized LDL (OxLDL) increased the intracellular and secreted levels of OPN in rat smooth muscle cells in a dose- and time-dependent manner. Experiments with kinase inhibitors demonstrated that this effect was mediated by ERK and JNK, but not p38. OxLDL induced oxidative stress, measured by the intracellular levels of reactive oxygen species (ROS) and lipid peroxidation products. The increase in OPN levels was reproduced by the lipid extract of the particle and prevented by the antioxidant vitamin E. Furthermore, ROS generated by UVA irradiation or treatment with pro-oxidant compounds such as buthionine sulfoximine or H(2)O(2) also enhanced intracellular and secreted OPN. Finally, OxLDL also augmented OPN levels in other cell types such as fibroblasts, keratinocytes, and endothelial cells. This work demonstrates the role of OxLDL in the expression of the OPN gene and further highlights the role of oxidative stress in the regulation of this cytokine. This might be related to the proinflammatory effects of OxLDL in the initiation and progression of atherosclerotic plaque.
  Free radical biology & medicine 03/2010; 48(10):1382-7. · 5.42 Impact Factor
• Article: Oxidized low density lipoprotein decreases Rankl-induced differentiation of osteoclasts by inhibition of Rankl signaling.

  Cécile Mazière, Loïc Louvet, Cathy Gomila, Said Kamel, Ziad Massy, Jean-Claude Mazière
  [show abstract] [hide abstract]
  ABSTRACT: The role of OxLDL in the generation and progression of atherosclerosis is well admitted. In addition, it is well known that atherosclerosis is often accompanied by perturbations in bone remodeling, resulting in osteoporosis. In the current studies, the effect of Cu(2+)-oxidized LDL (OxLDL) on RANKL-induced RAW264.7 mouse monocytes-macrophages differentiation to osteoclasts and on RANKL signaling pathway was investigated. OxLDL, within the range of 10-50 microg protein/ml, prevented RANKL-induced generation of multinucleated osteoclast-like cells and RANKL-induced tartrate resistant acid phosphatase (TRAP) activity. OxLDL also prevented the RANKL-induced phosphorylation of ERK, p38 and JNK kinases, together with the RANKL-induced DNA binding activities of NFkappaB and NFAT transcription factors. Concomitantly, OxLDL enhanced RANKL-induced generation of reactive oxygen species in a dose-dependent manner. The antioxidant glutathione (GSH) prevented whereas the prooxidant compound buthionine-sulfoximine (BSO) enhanced the effect of OxLDL on RANKL-induced oxidative stress and RANKL-induced differentiation. Finally, OxLDL also prevented RANKL-induced TRAP activity and RANKL-induced bone resorbing activity of human peripheral blood mononuclear cells. These results demonstrate that OxLDL, by generation of an intracellular oxidative stress, prevents the differentiation of osteoclasts by inhibition of RANKL signaling pathway. This might be related to the fact that atherosclerosis is accompanied by perturbations in bone and vascular remodeling, leading to osteoporosis and vascular calcification.
  Journal of Cellular Physiology 10/2009; 221(3):572-8. · 3.87 Impact Factor
• Article: Tricationic porphyrin conjugates: evidence for chain-structure-dependent relaxation of excited singlet and triplet States.

  João Nuno Silva, Francisco Bosca, João P C Tomé, Eduarda M P Silva, Maria G P M S Neves, José A S Cavaleiro, Larry K Patterson, Paulo Filipe, Jean-Claude Mazière, René Santus, Patrice Morlière
  [show abstract] [hide abstract]
  ABSTRACT: Conjugates of 5-(4-carboxyphenyl)-10,15,20-tris(4-methylpyridinium-4-yl)porphyrin (P-H) are promising photoactive agents for medical applications. As their ultimate efficacy will depend on the behavior of initial excited states, photophysical parameters have been determined with conventional steady-state absorption and fluorescence as well as time-resolved femto- and nanosecond spectroscopies. The fluorescence quantum yield of P-H and P-H conjugated to uncharged groups increases from approximately 0.03 in pH 7 buffer to approximately 0.05 in Triton X100 micelles (TX100) and in ethanol and to 0.12 in sodium dodecyl sulfate (SDS) micelles. Corresponding (1)S(1) lifetimes are approximately 5-10 ns. In buffer, an equilibrium between P-H monomers and small-size aggregates is observed. Conjugation with poly-S-lysine (P-(Lys)(n)) results in fluorescence quenching in all solvents. Structural reorganization of conjugates bearing a Di-O-isopropylidene-alpha-d-galactopyranosyl or a alpha/beta-d-galactopyranosyl group occurs in ethanol (k approximately 0.15 ps(-1)) after (1)S(1) state solvation (approximately 700 fs). Relaxation of bulky P-(Lys)(n) polypeptide chains takes place on a longer time scale in all solvents (k <or= 0.01 ps(-1)) with enhanced internal conversion. Triplet state ((3)T(1)) transient spectra of all derivatives in PBS, SDS, TX100, and ethanol exhibit a strong absorbance with a broad maximum in the 460-475 nm region and minor maxima at approximately 540, 630, and 690 nm. In ethanol, energy transfer from the P-H (3)T(1) state to beta-carotene provides an estimate of epsilon approximately 40,000 M(-1) cm(-1) at 460 nm for the P-H (3)T(1) state. Using triplet meso-tetraphenylporphyrin as an actinometer, the P-H triplet quantum yield (Phi(T)) is estimated to be approximately 0.50 in all solvents. This high Phi(T) leads to effective singlet oxygen production in buffered solutions.
  The Journal of Physical Chemistry B 10/2009; 113(52):16695-704. · 3.70 Impact Factor
• Source

  Available from: Michel Brazier

  Article: Oligogalacturonic acid inhibit bone resorption and collagen degradation through its interaction with type I collagen.

  Jean-Marc Lion, Romuald Mentaverri, Stéphanie Rossard, Nathalie Jullian, Bernard Courtois, Josiane Courtois, Michel Brazier, Jean-Claude Mazière, Said Kamel
  [show abstract] [hide abstract]
  ABSTRACT: In this study, we showed that oligogalacturonic acid (OGA) purified from flax pectin inhibit in vitro osteoclastic bone resorption in a dose-dependent manner. The OGA inhibitory effect was neither linked to an effect on osteoclast apoptosis, nor to an inhibition of cathepsin K activity. By means of an in vitro collagen degradation assay we demonstrated that OGA prevented triple-helical type I collagen cleavage by cathepsin K in a dose and chain length dependent manner. This inhibition was not restricted to cathepsin K, since collagenolytic activity of other lysosomal cysteine proteases, such as cathepsin B and cathepsin L, as well as matrixmetalloproteinases such as MMP-9 were also inhibited. Interestingly, using non-collagen substrates we demonstrated that OGA does not inhibit the proteolytic activity of cathepsin B and L, suggesting that OGA inhibits collagen degradation without affecting the lysosomal cysteine enzyme proteolytic activity. Finally, preliminary study using surface plasmon resonance (SPR) showed that OGA binds to type I collagen but not to albumin, consistent with a specific effect on collagen. These results suggest that the observed inhibition of collagen degradation by OGA may be due to its ability to bind to the collagen molecule. By masking the collagen surface, OGA may render the collagen cleavage site less accessible to enzymes and thus prevent its enzymatic degradation.
  Biochemical pharmacology 08/2009; 78(12):1448-55. · 4.25 Impact Factor
• Article: Mechanisms of aortic and cardiac dysfunction in uremic mice with aortic calcification.

  Julien Maizel, Isabelle Six, Michel Slama, Christophe Tribouilloy, Henry Sevestre, Sabrina Poirot, Philippe Giummelly, Jeffrey Atkinson, Gabriel Choukroun, Michel Andrejak, Said Kamel, Jean Claude Mazière, Ziad A Massy
  [show abstract] [hide abstract]
  ABSTRACT: Chronic renal failure (CRF) is associated with cardiac dysfunction and increased aortic stiffness. The mechanisms involved are not clearly understood. We examined changes over time in cardiac and aortic function in a murine CRF model. Eight-week-old mice were randomly assigned to 1 of 4 groups: wild-type non-CRF, wild-type CRF, apolipoprotein E knockout non-CRF, and apolipoprotein E knockout CRF. Echocardiography was performed and blood samples were taken at baseline and after 6 and 10 weeks of CRF. Vascular reactivity and adhesion molecule expression were studied after 6 and 10 weeks of CRF. Left ventricular hypertrophy, altered left ventricular relaxation, and increased aortic stiffness were observed after 6 weeks of CRF and persisted after 10 weeks. The 4 groups of mice did not significantly differ in terms of arterial blood pressure and aortic structure. The degree of vascular calcification and serum total cholesterol concentration were higher in the CRF groups than in the non-CRF groups. These changes, however, could not explain the cardiac and vascular differences seen in the 2 CRF groups. In contrast, alterations in vascular reactivity, the upregulation of adhesion molecule expression, and CRF status were significantly associated with these changes. In a mouse model of CRF, left ventricular hypertrophy, cardiac diastolic dysfunction, and increased aortic stiffness were not related to structural changes in the aorta (including aortic calcification) or high serum cholesterol levels. However, cardiac and aortic abnormalities were associated with the extent of subendothelial dysfunction and the severity of CRF.
  Circulation 01/2009; 119(2):306-13. · 14.74 Impact Factor
• Article: Activation of transcription factors and gene expression by oxidized low-density lipoprotein.

  Cécile Mazière, Jean-Claude Mazière
  [show abstract] [hide abstract]
  ABSTRACT: It is well recognized that oxidized LDL (OxLDL) plays a crucial role in the initiation and progression of atherosclerosis. Many biological effects of OxLDL are mediated through signaling pathways, especially via the activation of transcription factors, which in turn stimulate the expression of genes involved in the inflammatory and oxidative stress response or in cell cycle regulation. In this review, we will discuss the various transcription factors activated by OxLDL, the studied cell types, the active compounds of the OxLDL particle, and the downstream genes when identified. Identification of the transcription factors and some of the downstream genes regulated by OxLDL has helped us understand the molecular mechanism involved in generation of the atherosclerotic plaque.
  Free radical biology & medicine 12/2008; 46(2):127-37. · 5.42 Impact Factor
• Article: The alkyl chain length of 3-alkyl-3',4',5,7-tetrahydroxyflavones modulates effective inhibition of oxidative damage in biological systems: illustration with LDL, red blood cells and human skin keratinocytes.

  Paulo Filipe, Artur M S Silva, Raquel S G R Seixas, Diana C G A Pinto, Alvaro Santos, Larry K Patterson, João N Silva, José A S Cavaleiro, João P Freitas, Jean-Claude Mazière, René Santus, Patrice Morlière
  [show abstract] [hide abstract]
  ABSTRACT: It is shown that the relationship between the alkyl chain length of 3-alkyl-3',4',5,7 tetrahydroxyflavones (FnH) bearing alkyl chains of n=1, 4, 6, 10 carbons and their capacity to counter oxidative damage varies markedly with the nature of the biological system. In Cu(2+)-induced lipid peroxidation of low-density lipoprotein (LDL), the less hydrophobic short-chain F1H and F4H are probably located in the outer layer of LDL and parallel the reference flavonoid antioxidant, quercetin (Q) as effective inhibitors of lipid peroxidation. A marked inhibition of haemolysis induced in red blood cells (RBC) suspensions by the membrane-permeant oxidant, tert-butylhydroperoxide (t-BuOOH), is observed with F4H and F6H present at concentration in the micromolar range. However, F10H the most hydrophobic FnH is even more effective than Q against both haemolysis and lipid peroxidation as measured by malondialdehyde (MDA) equivalents. In oxidation of RBC by H(2)O(2,) at least 50 times more F6H and F10H than by t-BuOOH are required to only partly inhibit haemolysis and MDA production. The F1H, F4H and Q are found rather inactive under these conditions. At concentrations in the micromolar range, a marked protection against the cytotoxic effects of the t-BuOOH-induced oxidative stress in human skin NCTC 2544 keratinocytes is also exhibited by the four FnH antioxidants and is comparable to that of Q. Thus, the four FnH species under study may be considered as potent antioxidants which manifest complementary anti-oxidative actions in biological systems of markedly different complexity.
  Biochemical pharmacology 12/2008; 77(6):957-64. · 4.25 Impact Factor
• Article: One-electron reduction of superoxide radical-anions by 3-alkylpolyhydroxyflavones in micelles. Effect of antioxidant alkyl chain length on micellar structure and reactivity.

  Artur M S Silva, Paulo Filipe, Raquel S G R Seixas, Diana C G A Pinto, Larry K Patterson, Gordon L Hug, José A S Cavaleiro, Jean-Claude Mazière, René Santus, Patrice Morlière
  [show abstract] [hide abstract]
  ABSTRACT: In micellar solutions, one-electron reduction of *O2(-) radical-anions by 3-alkylpolyhydroxyflavones (FnH) with alkyl chains of n = 1, 4, 6, 10 carbons produces phenoxyl radicals ( (*Fn) identical to those obtained by one-electron oxidation by *Br2(-) radical-anions or by repair of tryptophan radicals. In cetyltrimethylammonium bromide (CTAB), F1H localizes in the Stern layer, and alkyl chains of other FnH solubilize in the hydrophobic interior, interacting with cetyl tails. This interaction produces more compact micelles with lower intramicellar fluidity, as suggested by the increase in the pseudo-first-order rate constant of *Fn formation ( k 1) from approximately 390 s (-1) for n = 1 to 610 s (-1) for n = 10, leading to an intramicellar bimolecular rate constant of 1 x 10 (5) M (-1) s (-1). Additionally, *F1 and *F4 decay by intermicellar bimolecular reaction (2 k = 20 and 2 x 10 (5) M (-1) s (-1), respectively) whereas other *Fn radicals are stable over seconds due to increased localization with regards to the Stern layer. In contrast, the thick uncharged hydrophilic palisade layer and the compact hydrophobic core of Triton X100 micelles are responsible for a much higher microviscosity resulting in a decrease in k 1 from approximately 15.6 s (-1) for n = 1 to 9.6 s (-1) for n = 10.
  The Journal of Physical Chemistry B 09/2008; 112(37):11456-61. · 3.70 Impact Factor