Ag@AgI, core@shell structure in agarose matrix as hybrid: synthesis, characterization, and antimicrobial activity.

A novel in situ core@shell structure consisting of nanoparticles of Ag (Ag Nps) and AgI in agarose matrix (Ag@AgI/agarose) has been synthesized as a hybrid, in order to have an efficient antibacterial agent for repetitive usage with no toxicity. The synthesized core@shell structure is very well characterized by XRD, UV-visible, photoluminescence, and TEM. A detailed antibacterial studies including repetitive cycles are carried out on Gram-negative Escherichia coli (E. coli) and Gram-positive Staphylococcus aureus (S. aureus) bacteria in saline water, both in dark and on exposure to visible light. The hybrid could be recycled for the antibacterial activity and is nontoxic toward human cervical cancer cells (HeLa cells). The water insoluble Ag@AgI in agarose matrix forms a good coating on quartz, having good mechanical strength. EPR and TEM studies are carried out on the Ag@AgI/agarose and the bacteria, respectively, to elucidate a possible mechanism for killing of the bacteria.

Anti-amyloidogenic property of leaf aqueous extract of Caesalpinia crista.

Amyloid beta (Abeta) is the major etiological factor implicated in Alzheimer's disease (AD). Abeta(42) self-assembles to form oligomers and fibrils via multiple aggregation process. The recent studies aimed to decrease Abeta levels or prevention of Abeta aggregation which are the major targets for therapeutic intervention. Natural products as alternatives for AD drug discovery are a current trend. We evidenced that Caesalpinia crista leaf aqueous extract has anti-amyloidogenic potential. The studies on pharmacological properties of C. crista are very limited. Our study focused on ability of C. crista leaf aqueous extract on the prevention of (i) the formation of oligomers and aggregates from monomers (Phase I: Abeta(42)+extract co-incubation); (ii) the formation of fibrils from oligomers (Phase II: extract added after oligomers formation); and (iii) dis-aggregation of pre-formed fibrils (Phase III: aqueous extract added to matured fibrils and incubated for 9 days). The aggregation kinetics was monitored using thioflavin-T assay and transmission electron microscopy (TEM). The results showed that C. crista aqueous extract could able to inhibit the Abeta(42) aggregation from monomers and oligomers and also able to dis-aggregate the pre-formed fibrils. The study provides an insight on finding new natural products for AD therapeutics.

Garlic extract exhibits antiamyloidogenic activity on amyloid-beta fibrillogenesis: relevance to Alzheimer's disease.

Alzheimer's disease is characterized pathologically by the deposition of amyloid plaques. Fibrillar Abeta is the principal component of amyloid plaques in the brain of AD patients. The prevention of Abeta aggregation or dissolution of fibrillar Abeta has clinical significance. The present communication examined in vitro the antiamyloidogenic properties of garlic extract. The effects of aqueous garlic extract (both fresh and boiled) on Abeta aggregation and defibrillation were studied by thioflavin-T based fluorescence assay, transmission electron microscopy and SDS-polyacrylamide gel electrophoresis. The aqueous fresh garlic extract not only inhibited Abeta fibril formation in a concentration and time dependent manner but was also able to defibrillate Abeta preformed fibrils. The maximum defibrillization was observed after 2-3 days of incubation. The boiled aqueous garlic extract also retained its antiamyloidogenic activity. This indicated that antiamyloidogenic activity of garlic extract is non-enzymatic, i.e. proteases present in garlic did not degrade Abeta in solution. However, the fibril degrading ability of boiled garlic extract was significantly lost. The findings suggest that consumption of garlic may lead to inhibition of Abeta aggregation in human brain.

Studies on the role of amino acid stereospecificity in amyloid beta aggregation.

Amyloid beta (Abeta) deposition and neurodegeneration are the two related events in the pathogenesis of Alzheimer's disease. Several factors modulate the conformation and physical properties of Abeta, which in turn affects its biological functions. Among these, age-dependent changes in the stereospecificity of the amino acids comprising Abeta is one such factors. In the present study, we investigated the aggregation property of Abeta as a function of the stereospecificity of amino acids comprising the peptide. We carried out our study by comparing the physical properties of Abeta(1-40) all-L and Abeta(1-40) all-D enantiomers using various biophysical techniques. These results indicated that the aggregation and folding parameters of Abeta are stereospecific and the aggregation property strongly depends upon the amino acid sequence and their stereospecificity. This may possibly help to understand the stereospecific role of amino acids comprising Abeta in its aggregation and its relevance to neurodegeneration.

Effect of the hydrocarbon chain and polymethylene spacer lengths on gene transfection efficacies of gemini lipids based on aromatic backbone.

Design, syntheses, and gene delivery efficacies of fifteen novel gemini (dimeric) and three monomeric cationic lipids anchored on an aromatic backbone have been described. Each new lipid has been used for liposome formation, and optimal formulations were used to determine the structure-activity correlation of the gene transfection efficacies of these lipids in HeLa and HT1080 cells. The results of the present investigation bring out the effect of hydrocarbon chain lengths and the length of the spacer between the headgroups on gene transfection efficiencies of the cationic gemini lipids based on aromatic backbone. The lipids bearing n-C 14H 29 hydrocarbon chain lengths have been found to be the best transfecting agents compared to their counterparts with n-C 16H 33 and n-C 12H 25 chains in HeLa cells. On the other hand, in HT1080 cells, the lipids based on n-C 12H 25 and n-C 14H 29 chains were found to be more potent transfecting agents than lipids possessing n-C 16H 33 chains. Transmission electron microscopy examination revealed the existence of spherical lipid-DNA complexes.

Copper- and iron-induced differential fibril formation in alpha-synuclein: TEM study.

alpha-Synuclein filaments are the central component of intracytoplasmic inclusion bodies characteristic of Parkinson's disease (PD) and related disorders. Metals are the significant etiological factors in PD, and their interaction with alpha-synuclein affect dramatically the kinetics of fibrillation. Currently, we have investigated the influence of Cu(II) and Fe(III) on alpha-synuclein fibril formation. Cu(II) and Fe(III) selectively and differentially induced the formation of discrete alpha-synuclein fibrillar species. Transmission electron microscopy was used to monitor the aggregation state of alpha-synuclein (wild-type, A30P, A53T, and E46K) after 60h with stirring at 37 degrees C in the presence and absence of metal ions. Cu(II) has induced thin long network-like fibrils with the wild-type of alpha-synuclein, while the mutant, showed amorphous aggregates with no fibrillar forms. Fe(III) induced short and thick fibrils with both wild and mutant forms and were similar to alpha-synuclein fibrils incubated without metal ion. The present study illustrates the metal-specific fibril morphology, and has relevance in understanding the role of metals in neurodegeneration.

Germ cell-specific localization of immunoreactive riboflavin carrier protein in the male golden hamster: appearance during spermatogenesis and role in sperm function.

Riboflavin carrier protein (RCP) is a phosphoglycoprotein (37 kDa) that is well studied in chicken. An immunologically cross-reacting protein was identified in mammals and active immunization of male rats and bonnet monkeys with chicken RCP lead to an approximately 80% reduction in fertility. However, the physiological mechanism responsible for inhibition of male fertility has not been investigated. Moreover, information on the cell type-specific localization and the origin of immunoreactive RCP during spermatogenesis is extremely limited. Hence, studies were carried out to determine the pattern of expression of immunoreactive RCP during spermatogenesis and its role in sperm function in the golden hamster. Immunoreactive RCP was germ cell-specific, found to be associated with the acrosome-organizing region of early spermatids and showed interesting patterns of immunolocalization during late stages of spermiogenesis. Mature spermatozoa exhibited acrosome-specific localization, mainly in the peri-acrosomal membrane. The immunoreactive protein was undetectable in (non)gonadal somatic cells tested. The protein had a molecular mass of 45-55 kDa and was biosynthesized by round spermatids. The acrosome-specific localization of immunoreactive RCP was unchanged during capacitation, but it was substantially lost during acrosome reaction. Functional studies indicated that treatment of spermatozoa with anti-RCP antibodies did not have any effect on either capacitation or acrosome reaction, but markedly reduced the rate of sperm penetration into zona-free hamster oocytes. These results show the existence of male germ cell-specific immunoreactive RCP, having a potential role in sperm-egg interaction in hamsters. Also the pattern of immunoreactive-RCP localization makes it an ideal marker to monitor development of acrosome in mammalian spermatozoa.

Hydrophobic Pockets in a Nonpolymeric Aqueous Gel: Observation of such a Gelation Process by Color Change.

Efficient gelation of aqueous fluids by a novel tripodal trischolamide generates chiral hydrophobic pockets in the gel network. A yellow to green color change (see absorbance spectra) in the presence of bromophenol blue (BPBH) indicates the formation of the gel. The bound (anionic) dye (BPB- ) shows induced circular dichroism, which is indicative of a chiral environment.