Publications by authors named "Sarah L Draper"

Eliciting an antihapten antibody response to vaccination typically requires the use of constructs where multiple copies of the hapten are covalently attached to a larger carrier molecule. The carrier is required to elicit T cell help via presentation of peptide epitopes on major histocompatibility complex (MHC) class II molecules; as such, attachment to full-sized proteins, alone or in a complex, is generally used to account for the significant MHC diversity in humans. While such carrier-based vaccines have proven extremely successful, particularly in protecting against bacterial diseases, they can be challenging to manufacture, and repeated use can be compromised by pre-existing immunity against the carrier.

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Background & Aims: Liver diseases resulting from chronic HBV infection are a significant cause of morbidity and mortality. Vaccines that elicit T-cell responses capable of controlling the virus represent a treatment strategy with potential for long-term effects. Here, we evaluated vaccines that induce the activity of type I natural killer T (NKT) cells to limit viral replication and license stimulation of conventional antiviral T-cells.

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mRNA vaccines have recently generated significant interest due to their success during the COVID-19 pandemic. Their success is due to advances in mRNA design and encapsulation into ionizable lipid nanoparticles (iLNPs). This has highlighted the potential for the use of mRNA-iLNPs in other settings such as cancer, gene therapy, or vaccines for different infectious diseases.

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Malaria is caused by Plasmodium species transmitted by Anopheles mosquitoes. Following a mosquito bite, Plasmodium sporozoites migrate from skin to liver, where extensive replication occurs, emerging later as merozoites that can infect red blood cells and cause symptoms of disease. As liver tissue-resident memory T cells (Trm cells) have recently been shown to control liver-stage infections, we embarked on a messenger RNA (mRNA)-based vaccine strategy to induce liver Trm cells to prevent malaria.

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Synthetic vaccines that induce T cell responses to peptide epitopes are a promising immunotherapy for both communicable and noncommunicable diseases. Stimulating strong and sustained T cell responses requires antigen delivery to appropriately activated antigen presenting cells (APCs). One way this can be accomplished is by chemically conjugating immunogenic peptide epitopes with α-galactosylceramide (α-GalCer), a glycolipid that acts as an immune adjuvant by inducing stimulatory interactions between APCs and type I natural killer T (NKT) cells.

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Self-adjuvanting vaccines consisting of peptide epitopes conjugated to immune adjuvants are a powerful way of generating antigen-specific immune responses. We previously showed that a -derived peptide conjugated to a rearranged form of α-galactosylceramide (α-GalCer) could stimulate liver-resident memory T (T) cells that were effective killers of liver-stage ANKA (Pba)-infected cells. To investigate if similar or even superior T responses can be induced by modifying the α-GalCer adjuvant, we created new conjugate vaccine cadidates by attaching an immunogenic -derived peptide antigen to 6″-substituted α-GalCer analogues.

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Nuclear magnetic resonance (NMR) spectroscopy is a powerful technique well known for its ability to elucidate structures and analyse mixtures and its quantitative nature. However, the cost and maintenance of high field NMR instruments prevent its widespread use by forensic chemists. The introduction of benchtop NMR spectrometers to the market operating at 40-80 MHz have a small footprint, are easy to use and cost much less than high field instruments, which makes them well suited to meet the needs of forensic chemists.

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Liver resident-memory CD8 T cells (T cells) can kill liver-stage -infected cells and prevent malaria, but simple vaccines for generating this important immune population are lacking. Here, we report the development of a fully synthetic self-adjuvanting glycolipid-peptide conjugate vaccine designed to efficiently induce liver T cells. Upon cleavage in vivo, the glycolipid-peptide conjugate vaccine releases an MHC I-restricted peptide epitope (to stimulate -specific CD8 T cells) and an adjuvant component, the NKT cell agonist α-galactosylceramide (α-GalCer).

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Article Synopsis
  • Researchers extracted and analyzed polysaccharides from feijoa fruit, finding their composition typical of eudicotyledon cell walls, mainly consisting of pectic and hemicellulosic polysaccharides.
  • A variety of Bacteroides species were tested for their ability to grow using these polysaccharide extracts, leading to five classifications based on their substrate preferences.
  • The study revealed that while many Bacteroides species could utilize pectic polysaccharides, growth on hemicellulose was limited, showcasing their differential ability to break down these carbohydrates, which may affect the human gut microbiota's structure and function.
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