Analysis of Spleen-Induced Fimbria Production in Recombinant Attenuated Salmonella enterica Serovar Typhimurium Vaccine Strains

Łaniewski, Paweł, Baek, Chang-Ho, Roland, Kenneth L., Curtiss, Roy

22 August 2017

Salmonella enterica serovar Typhimurium genome encodes 13 fimbrial operons. Most of the fimbriae encoded by these operons are not produced under laboratory conditions but are likely to be synthesized in vivo. We used an in vivo expression technology (IVET) strategy to identify four fimbrial operons, agf, saf, sti, and stc that are expressed in the spleen. When any three of these operons were deleted, the strain retained wild-type virulence. However, when all four operons were deleted, the resulting strain was completely attenuated, indicating that these four fimbriae play functionally redundant roles critical for virulence. In mice, oral doses of as low as 1 x 10(5) CFU of the strain with four fimbrial operons deleted provided 100% protection against challenge with 1 x 10(9) CFU of wild-type S. Typhimurium. We also examined the possible effect of these fimbriae on the ability of a Salmonella vaccine strain to deliver a guest antigen. We modified one of our established attenuated vaccine strains, chi 9088, to delete three fimbrial operons while the fourth operon was constitutively expressed. Each derivative was modified to express the Streptococcus pneumoniae antigen PspA. Strains that constitutively expressed saf or stc elicited a strong Th1 response with significantly greater levels of anti-PspA serum IgG and greater protective efficacy than strains carrying saf or stc deletions. The isogenic strain in which all four operons were deleted generated the lowest anti-PspA levels and did not protect against challenge with virulent S. pneumoniae. Our results indicate that these fimbriae play important roles, as yet not understood, in Salmonella virulence and immunogenicity. IMPORTANCE Salmonella enterica is the leading cause of bacterial food-borne infection in the United States. S. Typhimurium is capable of producing up to 13 distinct surface structures called fimbriae that presumably mediate its adherence to surfaces. The roles of most of these fimbriae in disease are unknown. Identifying fimbriae produced during infection will provide important insights into how these bacterial structures contribute to disease and potentially induce protective immunity to Salmonella infection. We identified four fimbriae that are produced during infection. Deletion of all four of these fimbriae results in a significant reduction in virulence. We explored ways in which the expression of these fimbriae may be exploited for use in recombinant Salmonella vaccine strains and found that production of Saf and Stc fimbriae are important for generating a strong immune response against a vectored antigen. This work provides new insight into the role of fimbriae in disease and their potential for improving the efficacy of Salmonella-based vaccines.

Agf

Saf

Stc

Sti

fimbriae

in vivo expression

Antibiotic Independent Approaches to Control Salmonella and Campylobacter in Poultry

Closs, Gary, Jr.

January 2021

No description available.

Food Science

Microbiology

probiotics

peptides

vaccines

Salmonella

Campylobacter

poultry

chickens

pre-harvest

antibiotic independent

antimicrobial peptides

chickens

C jejuni

Autolytische Salmonellen als Vektoren für die orale genetische Vakzinierung

Lößner, Holger

27 November 2003

Die Entwicklung einer mukosal verabreichbaren, effektiven DNA-Vakzine gegen Infektionskrankheiten oder Tumorerkrankungen auf der Basis invasiver attenuierter Bakterien ist eine vielversprechende Alternative zu bisherigen parenteralen Strategien der genetischen Vakzinierung. Innerhalb dieser Arbeit wurden Salmonellen-Impfstämme für die orale Übertragung eines eukaryontischen Expressionsplasmids mit dem kleinen Oberflächenantigen des Hepatitis-B-Virus (HBsAg) als Modellantigen optimiert. Die kontinuierliche Sezernierung von Plasmiden als filamentöse Phagenpartikel wurde als ein erster Ansatz getestet, um mit lebenden Bakterien eine DNA-Vakzine innerhalb infizierter Zellen freizusetzen. Die Salmonellen-vermittelte Phagensekretion in der Wirtszelle ist jedoch nicht effizient genug, die Expression des Transgens zu vermitteln. Alternativ wurde ein Ansatz gewählt, durch eine spontan induzierte Lyse der Impfbakterien, Plasmid-DNA in die Wirtszelle zu übertragen. Dazu wurde ein neuartiges bakterielles Autolysesystem etabliert, basierend auf einem Zwei-Phasen-Expressionssystem und von Bakteriophagen abgeleiteten Lysedeterminanten. Dieses System ermöglicht erstmals die kontinuierliche Freisetzung von Plasmid-DNA und Proteinen aus einzelnen, lysierenden Salmonellen innerhalb einer sonst gesunden bakteriellen Gesamtpopulation. Innerhalb infizierter COS7-Zellen führt die Freisetzung des porenformierenden Proteins Listeriolysin O durch autolytische Salmonellen zur Zerstörung der Vakuole, in der die Impfbakterien replizieren, und erleichtert somit den Transfer der Plasmid-DNA aus den Bakterien in das Zytoplasma der Wirtszelle. Die Lysedeterminante und die eukaryontische Expressionskassette für HBsAg wurden auf einem Plasmid kombiniert, sowie eine Kassette zur konstitutiven Expression des Histon-ähnlichen Proteins aus Thermotoga maritima (TmHU) in ein solches Konstrukt integriert. TmHU stabilisiert die Plasmiderhaltung unter nicht selektiven Bedingungen und besitzt das Potential, die Effizienz der DNA-Translokation innerhalb der Wirtszelle zu erhöhen. Durch die orale Gabe optimierter autolytischer Impfbakterien konnte eine potente HBsAg-spezifische Antikörperantwort sowie eine zytotoxische zelluläre Antwort induziert werden. Bereits die einmalige Gabe der autolytischen Bakterien induzierte eine höhere antigenspezifische Antikörperantwort, als die herkömmliche intramuskuläre DNA-Vakzine. Das im Rahmen dieser Arbeit entwickelte Konzept autolytischer Salmonellen stellt also eine neuartige, effiziente Strategie für den mukosalen DNA-Transfer dar. Die Übertragung des Konzeptes der Autolyse auf andere bakterielle Trägersysteme ist möglich und kann zur Erweiterung des Anwendungspektrums bakterieller Vektoren beitragen. / The development of an effective mucosal DNA vaccine against infectious diseases or tumors based on invasive attenuated bacteria is a very promising alternative to common parenteral routes of genetic vaccination. This work aimed at the optimization of Salmonella vaccine strains for the oral delivery of an eukaryotic expression plasmid encoding the small Hepatitis B Virus surface antigen (HBsAg), here used as model antigen. The continuous secretion of plasmids as filamentous phage particles was first tested as a mean for the delivery of the DNA vaccine by living bacteria inside infected host cells. However, Salmonella-mediated phage secretion inside cells did not suffice for the induction of transgene expression. As alternative approach, inducible spontanous lysis of bacteria was used to mediate the release of plasmid DNA into host cells. For this purpose a novel bacterial autolytic system was established on the basis of a two-phase expression system and lysis determinants derived from bacteriophages. This system allows for the first time the continuous release of plasmid DNA and proteins from only few lysing Salmonella within an otherwise healthy bacterial population. Inside COS7 cells the release of the pore-forming protein listeriolysin O by autolytic Salmonella mediates the destruction of the Salmonella-harbouring vacuole, thereby facilitating the transfer of plasmid DNA from bacteria into the host cell cytoplasm. The lysis determinant was combined with the eukaryotic expression cassette for HBsAg on one plasmid. In addition, a cassette for the constitutive expression of TmHU, a histon-like protein derived from Thermotoga maritima, was integrated in such vector. TmHU stabilizes the plasmid propagation in the absence of selective pressure and has the potential to increase the efficiency of plasmid translocation inside the host cell. The oral administration of the optimized autolytic bacteria stimulated a potent HBsAg-specific antibody response as well as a cytotoxic cellular response. Already a single inoculation of the oral vaccine induced a higher specific antibody response than the conventional intramuscular DNA vaccine. Therefore the concept of autolytic Salmonella carrier strains developed in this work constitutes a novel efficient strategy for mucosal DNA delivery. The transfer of this concept to other bacterial carriers is possible and may widen the application field for bacterial vectors.

Attenuierte Salmonellen

Autolyse

Filamentöse Bakteriophagen

HBsAg

Listeriolysin O

Orale DNA-Vakzine

Plasmid-DNA-Transfer

TmHU

Zwei-Phasen-Expressionssystem

attenuated Salmonella

autolysis

filamentous bacteriophage

HBsAg

listeriolysin O

oral DNA vaccine

plasmid DNA transfer

TmHU

two-phase expression system

570 Biowissenschaften, Biologie

32 Biologie

WF 7500

XD 3300

ddc:570