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Strategies for the Development of Vaccines for Typhoid Fever, Shigellosis, and Cholera (1989)

MILLER, SAMUEL I. ; MEKALANOS, JOHN J.

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 569 (1989), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Notes: Enteric fevers and diarrheal diseases are major causes of morbidity and mortality throughout the developing world.1 Traditional approaches to the development of vaccines for bacterial diseases include the parenteral injection of purified components or killed organisms.2 These methods require technologically advanced preparation and are relatively expensive despite their proven benefits. Live oral vaccine strains have several advantages over parenteral vaccines: low cost, ease of administration, and simple preparation.The development of live vaccines has been limited by lack of understanding of the pathogenesis of disease on a molecular level. Candidate live vaccine strains require nonrevertable genetic alterations that affect the virulence of the organism, but not its induction of an immune response. Work defining the mechanisms of toxigenesis of Vibrio cholerae has made it possible to create live vaccine strains based on deletion of the toxin genes.3,4 We will discuss below recent studies that have begun to define the molecular basis of Salmonella typhimurium macrophage survival and virulence. This may lead to the development of a live oral Salmonella typhi vaccine that can be used as a carrier for heterologous antigens. This approach has the advantage that immunity to multiple diseases could be generated with a single vaccine strain. Attenuated Salmonella typhi would deliver heterologous antigens directly to the immune effector cell, the macrophage, and generate cell-mediated as well as humoral immune response.5

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1989.tb27365.x

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PmrA–PmrB-regulated genes necessary for 4-aminoarabinose lipid A modification and polymyxin resistance (1998)

Gunn, John S. ; Lim, Kheng B. ; Krueger, Jackie ; [et al.]

Oxford BSL : Blackwell Science Ltd, UK

Molecular microbiology 27 (1998), S. 0

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ISSN: 1365-2958

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology , Medicine

Notes: Antimicrobial peptides are distributed throughout the animal kingdom and are a key component of innate immunity. Salmonella typhimurium regulates mechanisms of resistance to cationic antimicrobial peptides through the two-component systems PhoP–PhoQ and PmrA–PmrB. Polymyxin resistance is encoded by the PmrA–PmrB regulon, whose products modify the lipopolysaccharide (LPS) core and lipid A regions with ethanolamine and add aminoarabinose to the 4′ phosphate of lipid A. Two PmrA–PmrB-regulated S. typhimurium loci (pmrE and pmrF ) have been identified that are necessary for resistance to polymyxin and for the addition of aminoarabinose to lipid A. One locus, pmrE, contains a single gene previously identified as pagA (or ugd ) that is predicted to encode a UDP-glucose dehydrogenase. The second locus, pmrF, is the second gene of a putative operon predicted to encode seven proteins, some with similarity to glycosyltransferases and other complex carbohydrate biosynthetic enzymes. Genes immediately flanking this putative operon are also regulated by PmrA–PmrB and/or have been associated with S. typhimurium polymyxin resistance. This work represents the first identification of non-regulatory genes necessary for modification of lipid A and subsequent antimicrobial peptide resistance, and provides support for the hypothesis that lipid A aminoarabinose modification promotes resistance to cationic antimicrobial peptides.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2958.1998.00757.x

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