Etude de la topologie de la protéine constitutive des particules subvirales HBSAG de l'hépatite B

Doctorat en Sciencesinfo:eu-repo/semantics/nonPublishe

Etude de la topologie de la protéine constitutive des particules subvirales HBSAG de l'hépatite B

Doctorat en Sciencesinfo:eu-repo/semantics/nonPublishe

Characterization of the HBsAg particle lipid membrane.

HBsAg particles are highly immunogenic and have been shown to be a suitable support for the presentation of foreign epitopes. More information about the topology of the HBsAg protein is a prerequisite to any rational attempt to replace the region of this protein with foreign epitopes without modifying the assembly of the particles. This topology and, more precisely, the mode of interaction of the HBsAg protein with the lipid will depend on the lipid organization in the particle envelope. Nothing is known concerning the lipid organization of HBsAg particles. The only available information concerns their lipid composition. Phospholipase D hydrolysis of HBsAg particles was used here to determine whether the particles were surrounded with a lipid monolayer or bilayer. The lipid fluidity within the particle envelope was evaluated by fluorescence polarization measurements. The data strongly suggest that the HBsAg particle membrane is organized as a discontinuous rigid bilayer of lipids interacting with protein aggregates.Journal Articleinfo:eu-repo/semantics/publishe

Proposition of a three-dimensional representation of the constitutive protein of the hepatitis B surface antigen particles.

Hepatitis B surface antigen particles are composed of the major viral envelope protein, the S protein, embedded into a lipid shell. The description of the folding of this protein within the particle membrane could provide helpful information for replacing surface-exposed protein domains by foreign sequences without destabilizing the particle structure. Since the crystallization of the protein in its lipid environment remains inaccessible in the near future, alternative approaches had to be envisaged. We combine here the available experimental structural and topological data with a conformational procedure to identify membrane-associated domains of the HBsAg protein and to propose a three-dimensional description of their assembly within the particle membrane. The proposed protein structure is composed of four membrane-spanning helices and an amphipatic helix located on the inner surface membrane. The transmembrane helices are assembled into a highly hydrophobic complex in which no access to the water environment is allowed. The approach could be extended to other membrane-associated proteins.Journal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe

Secondary and tertiary structure changes of reconstituted P-glycoprotein. A Fourier transform attenuated total reflection infrared spectroscopy analysis.

The structure of purified P-glycoprotein functionally reconstituted into liposomes was investigated by attenuated total reflection Fourier transform infrared spectroscopy. A quantitative evaluation of the secondary structure and a kinetic of 2H/H exchange of the P-glycoprotein were performed both in the presence and in the absence of MgATP, MgATP-verapamil, and MgADP. This approach was previously shown to be a useful tool to detect tertiary structure changes resulting from the interaction between a protein and its specific ligands, as established for the Neurospora crassa H+-ATPase. 2H/H exchange measurements provided evidence that a large fraction of the P-glycoprotein is poorly accessible to the aqueous medium. Addition of MgATP induced an increased accessibility to the solvent of a population of amino acids, while addition of MgATP-verapamil resulted in a subtraction of a part of the protein from access to the aqueous solvent. No significant changes were observed upon addition of MgADP or verapamil alone. The secondary structure of P-glycoprotein was not affected by addition of ligands. The variations observed in the 2H/H exchange rate when P-glycoprotein interacted with the above ligands therefore represented tertiary structure changes. Fluorescence quenching experiments confirmed that MgATP-induced changes are to be found in the tertiary structure of the enzyme.Journal Articleinfo:eu-repo/semantics/publishe

Ligand-mediated tertiary structure changes of reconstituted P-glycoprotein. A tryptophan fluorescence quenching analysis.

Ligand-dependent changes in accessibility of purified P-glycoprotein, functionally reconstituted in liposomes, were investigated by fluorescence measurements. Trp quenching experiments provided evidence that P-glycoprotein adopts different tertiary structures upon binding of drug substrates in the absence and presence of MgATP and its nonhydrolyzable analog, MgATPgammaS. Five anthracycline derivatives were tested as drug substrates: daunorubicin, 4'-epi-doxorubicin, iododoxorubicin, 4-demethoxy-daunorubicin, and methoxy-morpholino-doxorubicin. Among them, daunorubicin and 4'-epi-doxorubicin have been shown to be rejected outside the multidrug-resistant cells, whereas the three others have been shown to accumulate in multidrug-resistant cells overexpressing P-glycoprotein and therefore retain their cytotoxic activity. A small conformational change was associated with nucleotide binding and amplified after nucleotide hydrolysis. Different conformational states were adopted by P-glycoprotein upon the addition of the anthracycline derivatives in the absence and presence of MgATP or MgATPgammaS. These conformational changes are shown to be related to the nature of the antitumor agents and more precisely to their capacity to accumulate in resistant cells. These data also suggest that the cytotoxicity of iododoxorubicin and 4-demethoxy-daunorubicin is related to the fact they are not transported by P-glycoprotein. On the contrary, methoxy-morpholino-doxorubicin cytotoxicity may be explained in terms of its rapid reincorporation into the plasma membrane after being transported by P-glycoprotein.Journal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe

The topology of the S protein in the yeast-derived hepatitis B surface antigen particles.

Hepatitis B surface antigen particles are highly immunogenic and have been shown to provide a suitable support for the presentation of foreign epitopes. More information about the topology of their constitutive protein, the S (small envelope) protein, is a prerequisite to any rational attempt to replace region of this protein with foreign epitopes without modifying the assembly of the particle. The topology of the S protein within the lipid membrane was investigated here by combining extensive proteolysis of the external protein domains with proteinase K and (FTIR-ATR). The proteolytic hydrolysis of the S protein and the identification of the digestion products allowed characterization of the membrane-protected regions of the protein. FTIR spectra of the digested hepatitis B particles revealed that the peptides associated with the particles are rich in alpha-helix structure. The kinetic of 2H/H exchange provided evidence that a large fraction of the native S protein is poorly accessible to the aqueous medium.Journal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe

Insulin increases the sensitivity of tumors to irradiation: involvement of an increase in tumor oxygenation mediated by a nitric oxide-dependent decrease of the tumor cells oxygen consumption

The effects of insulin on tumor oxygenation, perfusion, oxygen consumption,and radiation sensitivity were studied on two different mouse tumor models (TLT, a liver tumor, and FSAII, a fibrosarcoma). Anesthetized mice were infused with insulin i.v. at a rate of 16 milliUnits/kg/min for 25 min. Local tumor oxygenation measurements were carried out using two independent techniques: electron paramagnetic resonance oximetry and a fiber-optic device (OxyLite). Two complementary techniques were also used to assess the blood flow inside the tumor: a laser Doppler system (OxyFlo) and contrast-enhanced magnetic resonance imaging. The oxygen consumption rate of tumor cells after in vivo insulin infusion was measured using high frequency electron paramagnetic resonance oximetry. To know if insulin was able to enhance radiation-induced tumor regrowth delay, tumor-bearing mice were treated with 16 Gy of 250 kV radiation dose after insulin infusion. We provide evidence that insulin increases the local pressure of oxygen of tumors (from 0-3 mm Hg to 8-11 mm Hg) as well as the tumor response to irradiation (increasing regrowth delay by a factor of 2.11). We found that the insulin-induced increase of tumor pressure of oxygen: (a) is not caused by an increase in the tumor blood flow, which is even decreased after insulin infusion; (b) is because of a decrease in the tumor cell oxygen consumption (in vivo insulin consumed oxygen three times slower than control cells); and (c) is inhibited by a nitric oxide (NO) synthase inhibitor, Nomega-nitro-L-arginine methyl ester, when injected i.p. at 15 micromol/kg(-1), 1 h before insulin infusion. We demonstrate by immunoblotting that the NO pathway involves a phosphorylation of endothelial NO synthase and showed a concomitant increase in the cyclic GMP tumor level. These findings provide unique insights into biological processes in tumors, new possible management for treating cancer patients, and raise major questions about the role of insulin secretion (fasting status and diabetes) in the clinical response of tumors to radiation therapy