Small molecule induced toxic human-IAPP species characterized by NMR.

In this study, the effect of CurDAc, a water-soluble curcumin derivative, on the formation and stability of amyloid fibers is revealed. CurDAc interaction with amyloid is structurally selective, which is reflected in a strong interference with hIAPP aggregation while showing weaker interactions with human-calcitonin and amyloid-β in comparison. Remarkably, CurDAc also exhibited potent fiber disaggregation for hIAPP generating a toxic oligomeric species.

High-Throughput Screening at the Membrane Interface Reveals Inhibitors of Amyloid-β.

Aggregation and the formation of oligomeric intermediates of amyloid-β (Aβ) at the membrane interface of neuronal cells are implicated in the cellular toxicity and pathology of Alzheimer's disease. Small molecule compounds have been shown to suppress amyloid aggregation and cellular toxicity, but often the presence of a lipid membrane negates their activity. A high-throughput screen of 1800 small molecules was performed to search for membrane active inhibitors, and 21 primary hits were discovered.

High-resolution probing of early events in amyloid-β aggregation related to Alzheimer's disease.

In Alzheimer's disease (AD), soluble oligomers of amyloid-β (Aβ) are emerging as a crucial entity in driving disease progression as compared to insoluble amyloid deposits. The lacuna in establishing the structure to function relationship for Aβ oligomers prevents the development of an effective treatment for AD. While the transient and heterogeneous properties of Aβ oligomers impose many challenges for structural investigation, an effective use of a combination of NMR techniques has successfully identified and characterized them at atomic-resolution.

Zinc boosts EGCG's hIAPP amyloid Inhibition both in solution and membrane.

Amyloid aggregation of human islet amyloid polypeptide (hIAPP) is linked to insulin-producing islet cell death in type II diabetes. Previous studies have shown that zinc (Zn(II)) and insulin, co-secreted with hIAPP, have an inhibition effect on hIAPP aggregation. Lipid membranes have also been shown to significantly influence the aggregation kinetics of hIAPP.

Alzheimer's amyloid-beta intermediates generated using polymer-nanodiscs.

Polymethacrylate-copolymer (PMA) encased lipid-nanodiscs (∼10 nm) and macro-nanodiscs (>15 nm) are used to study Aβ1-40 aggregation. We demonstrate that PMA-nanodiscs form a ternary association with Aβ and regulate its aggregation kinetics by trapping intermediates. Results demonstrating the reduced neurotoxicity of nanodisc-bound Aβ oligomers are also reported.

hIAPP forms toxic oligomers in plasma.

In diabetes, hyperamylinemia contributes to cardiac dysfunction. The interplay between hIAPP, blood glucose and other plasma components is, however, not understood. We show that glucose and LDL interact with hIAPP, resulting in β-sheet rich oligomers with increased β-cell toxicity and hemolytic activity, providing mechanistic insights for a direct link between diabetes and cardiovascular diseases.

Real-time monitoring of the aggregation of Alzheimer's amyloid-β viaH magic angle spinning NMR spectroscopy.

Proton magic-angle-spinning NMR used for real-time analysis of amyloid aggregation reveals that mechanical rotation of Aβ monomers increases the rate of formation of aggregates, and that the increasing lag-time with peptide concentration suggests the formation of growth-incompetent species. EGCG's ability to shift off-pathway aggregation is also demonstrated.

Formation of pH-Resistant Monodispersed Polymer-Lipid Nanodiscs.

Polymer lipid nanodiscs are an invaluable system for structural and functional studies of membrane proteins in their near-native environment. Despite the recent advances in the development and usage of polymer lipid nanodisc systems, lack of control over size and poor tolerance to pH and divalent metal ions are major limitations for further applications. A facile modification of a low-molecular-weight styrene maleic acid copolymer is demonstrated to form monodispersed lipid bilayer nanodiscs that show ultra-stability towards divalent metal ion concentration over a pH range of 2.

Developing a Gel-Based Sensor Using Crystal Morphology Prediction.

The stimuli-responsive nature of molecular gels makes them appealing platforms for sensing. The biggest challenge is in identifying an appropriate gelator for each specific chemical or biological target. Due to the similarities between crystallization and gel formation, we hypothesized that the tools used to predict crystal morphologies could be useful for identifying gelators.

Understanding foot-and-mouth disease virus transmission biology: identification of the indicators of infectiousness.

The control of foot-and-mouth disease virus (FMDV) outbreaks in non-endemic countries relies on the rapid detection and removal of infected animals. In this paper we use the observed relationship between the onset of clinical signs and direct contact transmission of FMDV to identify predictors for the onset of clinical signs and identify possible approaches to preclinical screening in the field. Threshold levels for various virological and immunological variables were determined using Receiver Operating Characteristic (ROC) curve analysis and then tested using generalized linear mixed models to determine their ability to predict the onset of clinical signs.

IL-6 production following vaccination in pigs--an additional immune response parameter for assessing FMD vaccine efficacy?

Foot-and-mouth disease vaccine potency testing involving live virus challenge can be problematical in pigs. Alternative methods of assessing vaccine efficacy are therefore desirable. Here we investigate the link between IL-6 in blood at time of challenge and protection against challenge by carrying out statistical analyses utilising data from six separate potency tests performed in swine with the aim of assessing whether IL-6 could be exploited as an additional parameter for confirming vaccine efficacy in pigs.

Longevity of protection in cattle following immunisation with emergency FMD A22 serotype vaccine from the UK strategic reserve.

To determine the longevity of protective immunity following a single administration of emergency vaccine, and establish whether the immune response could be enhanced by increasing the antigen payload even further, cattle were vaccinated with an A22 Iraq vaccine containing either 1x antigen payload (field dose) or 5x antigen payload. Six months post-immunisation all cattle received a homologous virus challenge. The magnitude of the virus neutralising antibody response elicited was consistent with the response to similarly formulated A serotype vaccines with a PD(50) greater than 32.

Experimental evaluation of foot-and-mouth disease vaccines for emergency use in ruminants and pigs: a review.

Changes to foot-and-mouth disease (FMD) control policies since 2001 mean that emergency vaccination must be considered more readily as a control measure in the future. Since field application of vaccine for emergency use has only rarely been applied, the effectiveness of single dose administration, as a control measure in an outbreak situation, is poorly understood. In this review we consider all the available experimental data from studies utilizing either experimental or readily available, commercially produced vaccines, in order to assess their likely effectiveness as an additional means of controlling FMD transmission and spread in an emergency.

Further evaluation of higher potency vaccines for early protection of cattle against FMDV direct contact challenge.

The effect of administering higher payload FMD vaccines 10 days prior to severe direct contact challenge on protection from clinical disease and sub-clinical infection was investigated in cattle using two antigen payloads (single strength and 10-fold). Regardless of antigen payload, vaccination was shown to significantly reduce the number of clinically infected animals, and significantly reduce virus excretion shortly after challenge, when compared with the unvaccinated group (P<0.05).

Secretory IgA as an indicator of oro-pharyngeal foot-and-mouth disease virus replication and as a tool for post vaccination surveillance.

A serotype-specific ELISA was developed to detect foot-and-mouth disease virus (FMDV) specific IgA antibody in the saliva of cattle, and the method was evaluated for its feasibility in detecting serotype O FMDV carrier animals, particularly amongst vaccinated cattle that had subsequently become sub-clinically infected. For this purpose, saliva samples were collected from naïve cattle (n = 173), FMDV challenged cattle (n = 10), FMDV vaccinated cattle (n = 40) and FMDV vaccinated-and-challenged cattle (n = 40). A subset of 29 cattle was sampled for 105-168 days after challenge.