ovalbumin and stearic-acid

Tuberculosis, aggravated by drug-resistant strains and HIV co-infection of the causative agent Mycobacterium tuberculosis, is a global problem that affects millions of people. With essential immunoregulatory roles, phosphatidylinositol mannosides are among the cell-envelope components critical to the pathogenesis and survival of M. tuberculosis inside its host. Here we report the first synthesis of the highly complex tetraacylated phosphatidylinositol hexamannoside (Ac2PIM6), having stearic and tuberculostearic acids as lipid components. Our effort makes use of stereoelectronic and steric effects to control the regioselective and stereoselective outcomes and minimize the synthetic steps, particularly in the key desymmetrization and functionalization of myo-inositol. A short synthesis of tuberculostearic acid in six steps from the Roche ester is also described. Mice exposed to the synthesized Ac2PIM6 exhibit increased production of interleukin-4 and interferon-γ, and the corresponding adjuvant effect is shown by the induction of ovalbumin- and tetanus toxoid-specific antibodies.

Topics: Acylation; Adjuvants, Immunologic; Animals; Bacterial Proteins; Cell Wall; Interferon-gamma; Interleukin-4; Mannosides; Mice; Mycobacterium tuberculosis; Ovalbumin; Phosphatidylinositols; Stearic Acids; Tetanus Toxoid

In this communication, the surface activity of the ovalbumin (OVA) at the air/water interface was studied to establish the nature of the interaction with the stearic acid (SA) monolayer, based on Langmuir-Blodgett (LB) technique. The interaction was monitored by studying the time (t) variation of surface pressure (pi) at constant area (A). The growth of pi with time indicates a positive association between the SA and the OVA molecules. The surface compressibility analysis has been performed to specify the phase transition of OVA-SA mixed monolayer. Incorporation/association of OVA within the SA monolayer led to noteworthy changes in surface compressibility and was surface pressure as well as protein concentration dependent. Both the hydrophobic and the Vander wall type interactions are found to be responsible for the association. The quenching of tyrosine band in tryptophan excitation spectrum is observed in steady-state fluorescence spectroscopy. This suggests that the tyrosine is the probable binding site with SA. Due to incorporation of SA, the energy transfer from tyrosine to tryptophan is hindered. At higher pressure, OVA tend to squeeze out from the SA monolayer. The high-resolution field emission scanning electron microscope (FE-SEM) image confirms this observation. Aggregated protein structure observed at high pressure indicates unfolding of protein.

Topics: Biofilms; Kinetics; Membranes, Artificial; Ovalbumin; Stearic Acids

In this communication we demonstrated the incorporation of water-soluble surface-active protein OVA within an insoluble cationic ODA monolayer and compared with zwitterionic (DPPC) and anionic (SA) monolayer. The incorporation of OVA is found to be more in ODA as compared to that of DPPC and SA. The kinetics of protein adsorption in lipid monolayer gives the idea that unfolding of OVA is less in case of DPPC than SA and ODA. The pi-A isotherm and compressibility study gives the information about the different states of the protein-lipid mixed monolayer. At higher pressure, OVA tend to squeeze out from the lipids monolayer. High-resolution field emission scanning electron microscope (FE-SEM) images confirm this observation. The surface morphology of DPPC-OVA LB film is far better than ODA-OVA and SA-OVA LB film. OVA forms large irregular aggregates on SA and ODA monolayer. Fluorescence study reveals that protein structure is perturbed more in SA and ODA system compared to that of DPPC. The overall results indicate that DPPC monolayer is better to get protein lipid mixed film than SA and ODA monolayer.

Topics: 1,2-Dipalmitoylphosphatidylcholine; Adsorption; Amines; Animals; Cations; Chemical Phenomena; Chemistry, Physical; Hydrogen-Ion Concentration; Microscopy, Electron, Scanning; Ovalbumin; Pressure; Spectrometry, Fluorescence; Stearic Acids; Surface Properties

The tableting characteristics of micro-aggregated egg albumin particles containing paracetamol were evaluated and compared with non-micro-encapsulated paracetamol and coagulated egg albumin particles. Mean yield pressure values of micro-aggregated egg albumin particles containing paracetamol and coagulated egg albumin particles were 30.5 and 49.3 MPa, respectively, which were lower than the mean yield pressure obtained for paracetamol (97.5 MPa). Paracetamol tablets obtained with micro-aggregated egg albumin particles did not show the capping characteristic of conventional paracetamol tablets. Crushing strength of paracetamol tablets obtained with egg micro-aggegated particles was similar to that obtained using paracetamol granulated with povidone and gelatin as binders at 3 and 6% (w/w) concentrations. Drug release from the paracetamol tablets depends on the choice of excipients. Crospovidone showed good protective characteristics for the tableting of micro-aggregated particles. Crushing strength of paracetamol tablets formed from egg albumin-coated particles could be increased using crospovidone or microcrystalline cellulose as fillers and was decreased by the use of magnesium stearate. Nevertheless, magnesium stearate was useful to decrease the ejection force.

Topics: Acetaminophen; Delayed-Action Preparations; Drug Compounding; Drug Delivery Systems; Excipients; Microscopy, Electron, Scanning; Ovalbumin; Pressure; Protein Denaturation; Stearic Acids; Tablets