Stephen P. Cape scite author profile

In primary (light chain-associated) amyloidosis, immunoglobulin light chains deposit as amyloid fibrils in vital organs, especially the kidney. Because the kidney contains high concentrations of urea that can destabilize light chains as well as solutes such as betaine and sorbitol that serve as protein stabilizers, we investigated the effects of these solutes on in vitro amyloid fibril formation and thermodynamic stability of light chains. Two recombinant light chain proteins, one amyloidogenic and the other nonamyloidogenic, were used as models. For both light chains, urea enhanced fibril formation by reducing the nucleation lag time and diminished protein thermodynamic stability. Conversely, betaine or sorbitol increased thermodynamic stability of the proteins and partially inhibited fibril formation. These solutes also counteracted urea-induced reduction in protein thermodynamic stability and accelerated fibril formation. Betaine was more effective than sorbitol. A model is presented to explain how the thermodynamic effects of the solutes on protein state equilibria can alter nucleation lag time and, hence, fibril formation kinetics. Our results provide evidence that renal solutes control thermodynamic and kinetic stability of light chains and thus may modulate amyloid fibril formation in the kidney.

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Successful respiratory immunization with dry powder live-attenuated measles virus vaccine in rhesus macaques

Lin

Griffin

Rota³

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

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Measles remains an important cause of childhood mortality worldwide. Sustained high vaccination coverage is the key to preventing measles deaths. Because measles vaccine is delivered by injection, hurdles to high coverage include the need for trained medical personnel and a cold chain, waste of vaccine in multidose vials and risks associated with needle use and disposal. Respiratory vaccine delivery could lower these barriers and facilitate sustained high coverage. We developed a novel single unit dose, dry powder live-attenuated measles vaccine (MVDP) for respiratory delivery without reconstitution. We tested the immunogenicity and protective efficacy in rhesus macaques of one dose of MVDP delivered either with a mask or directly intranasal with two dry powder inhalers, PuffHaler and BD Solovent. MVDP induced robust measles virus (MeV)-specific humoral and T-cell responses, without adverse effects, which completely protected the macaques from infection with wild-type MeV more than one year later. Respiratory delivery of MVDP was safe and effective and could aid in measles control.aerosol delivery | protective immunity | multifunctional T cells | antibody avidity M easles is a highly contagious viral disease. Before the availability of measles virus (MeV) vaccines, more than 130 million cases and 7-8 million deaths occurred annually. Intensive immunization efforts with the live attenuated measles vaccine (LAMV) given by injection have resulted in substantial decreases in global measles disease. However, with an estimated 164,000 deaths in 2008 (1), measles continues to be an important cause of child mortality, especially in less-developed regions of the world. The key to prevention of measles is achieving and sustaining high levels of population immunity through vaccination, and substantial challenges for high coverage remain in many countries. Some of the challenges to providing a first dose of measles vaccine to at least 95% of each birth cohort, plus a second dose to older children, are related to the method of vaccine delivery.Measles vaccine is given by injection, and this creates hurdles to sustained high coverage in many developing countries. First, there is often a shortage of the trained personnel needed for sterile reconstitution and safe injection of vaccine. Second, in most developing countries, lyophilized vaccine is in 5-10 dose vials that, after reconstitution, lose 30-50% potency in an hour at 37°C (2), so unused doses must be discarded. Third, contaminated needles and syringes create risks for transmitting bloodborne disease and require safe disposal.As a potential improvement, respiratory delivery of reconstituted liquid LAMV has been studied for more than three decades (3) but has never been licensed or widely used. Aerosol administration of aqueous vaccine is highly effective in boosting preexisting antibody and holds promise for use in older children (4-11), but primary humoral and cellular immune responses vary with the age of vaccinees (12-15).We have developed a dry powder formulation of ...

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Stabilization of measles virus for vaccine formulation

et al. 2008

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An attenuated live measles virus (MV) was characterized by several biophysical methods as a function of temperature and pH. Following a method developed previously, the resultant light scattering and spectroscopic data were synthesized into an empirical phase diagram that visually and simultaneously represents the entire data set. Using this empirically-based phase diagram, screening assays were developed to identify potential vaccine stabilizers. Various compounds are shown by these assays to inhibit the temperature-induced aggregation of viral particles, and also to protect the integrity of the viral envelope. Accelerated stability assays show that, upon thermal challenge, MV formulated with these excipients retains its infectivity to a significant extent. Thus, the enhanced physical stability produced by this method is shown to protect the biological activity of this important but labile vaccine.

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Stephen P. Cape

Counteracting Effects of Renal Solutes on Amyloid Fibril Formation by Immunoglobulin Light Chains

Successful respiratory immunization with dry powder live-attenuated measles virus vaccine in rhesus macaques

Stabilization of measles virus for vaccine formulation

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