Donna L. Montgomery scite author profile

Cytotoxic T lymphocytes (CTLs) specific for conserved viral antigens can respond to different strains of virus, in contrast to antibodies, which are generally strain-specific. The generation of such CTLs in vivo usually requires endogenous expression of the antigen, as occurs in the case of virus infection. To generate a viral antigen for presentation to the immune system without the limitations of direct peptide delivery or viral vectors, plasmid DNA encoding influenza A nucleoprotein was injected into the quadriceps of BALB/c mice. This resulted in the generation of nucleoprotein-specific CTLs and protection from a subsequent challenge with a heterologous strain of influenza A virus, as measured by decreased viral lung titers, inhibition of mass loss, and increased survival.

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A Novel Staphylococcus aureus Vaccine: Iron Surface Determinant B Induces Rapid Antibody Responses in Rhesus Macaques and Specific Increased Survival in a Murine S. aureus Sepsis Model

Kuklin

et al. 2006

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Staphylococcus aureus is a major cause of nosocomial infections worldwide, and the rate of resistance to clinically relevant antibiotics, such as methicillin, is increasing; furthermore, there has been an increase in the number of methicillin-resistant S. aureus community-acquired infections. Effective treatment and prevention strategies are urgently needed. We investigated the potential of the S. aureus surface protein iron surface determinant B (IsdB) as a prophylactic vaccine against S. aureus infection. IsdB is an iron-sequestering protein that is conserved in diverse S. aureus clinical isolates, both methicillin resistant and methicillin sensitive, and it is expressed on the surface of all isolates tested. The vaccine was highly immunogenic in mice when it was formulated with amorphous aluminum hydroxyphosphate sulfate adjuvant, and the resulting antibody responses were associated with reproducible and significant protection in animal models of infection. The specificity of the protective immune responses in mice was demonstrated by using an S. aureus strain deficient for IsdB and HarA, a protein with a high level of identity to IsdB. We also demonstrated that IsdB is highly immunogenic in rhesus macaques, inducing a more-than-fivefold increase in antibody titers after a single immunization. Based on the data presented here, IsdB has excellent prospects for use as a vaccine against S. aureus disease in humans.Staphylococcus aureus is a gram-positive bacterium that is notable for the frequency and severity of infections that it causes in hospitalized patients. These infections range from localized skin infections to bacteremia and septic shock. In the past 20 years there has been a dramatic increase in the incidence of nosocomial staphylococcal infections; this increase parallels the increased use of intravascular devices and invasive procedures. S. aureus has been identified as one of the three most frequent nosocomial pathogens and is responsible for approximately 25% of the 2 million nosocomial infections reported in the United States each year (38, 39). A second trend has been the increase in the incidence of methicillin-resistant S. aureus, largely due to selective antibiotic pressure. Resistant strains were initially identified in tertiary care hospitals but have been increasingly reported among infections in the community (25, 30). Resistance to methicillin is often accompanied by resistance to other antibiotics; a CDC survey showed that the proportion of methicillin-resistant isolates which were susceptible only to vancomycin rose from 22.8% to 56. 2% from 1987 to 1997 (18). More recently, S. aureus strains with intermediate susceptibility or resistance to vancomycin have been reported (11,24,36). Infections caused by multidrug-resistant S. aureus limit therapeutic options, and they may be associated with higher mortality and higher costs than infections caused by susceptible staphylococci. There is clearly a need for new treatment and prevention strategies.In an immunological survey of S. aureus su...

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Preclinical efficacy of a prototype DNA vaccine: Enhanced protection against antigenic drift in influenza virus

Donnelly

Friedman

Martinez

et al. 1995

Nat Med

297

129

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Vaccination with plasmid DNA expression vectors encoding foreign proteins elicits antibodies and cell-mediated immunity and protects against disease in animal models. We report a comparison of DNA vaccines, using contemporary human strains of virus, and clinically licensed (inactivated virus or subvirion) vaccines in preclinical animal models, to better predict their efficacy in humans. Influenza DNA vaccines elicited antibodies in both non-human primates and ferrets and protected ferrets against challenge with an antigenically distinct epidemic human influenza virus more effectively than the contemporary clinically licensed vaccine. These studies demonstrate that DNA vaccines may be more effective, particularly against different strains of virus, than inactivated virus or subvirion vaccines.

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Heterologous and Homologous Protection Against Influenza A by DNA Vaccination: Optimization of DNA Vectors

Montgomery¹,

Shiver²,

Leander³

et al. 1993

DNA and Cell Biology

250

128

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We have recently shown that direct injection of DNA can be an effective vaccine strategy eliciting both humoral and cell-mediated immune responses. Vectors were designed specifically for vaccination by direct DNA injection and refined to improve plasmid production in Escherichia coli. The vectors consist of a pUC-19 backbone with the cytomegalovirus (CMV) IE1 enhancer, promoter, and intron A transcription regulatory elements and the BGH polyadenylation sequences driving the expression of the reporter gene CAT or influenza A nucleoprotein (NP) or hemagglutinin (HA). The respective vectors expressed high levels of chloramphenicol acetyltransferase (CAT) and NP in tissue culture, and yielded 14-15 mg of purified plasmid per liter of Escherichia coli culture. Immunization of mice with the NP and HA expression vectors resulted in protection from subsequent lethal challenges of influenza using either heterologous or homologous strains, respectively.

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Sequence of the gene for iso-l-cytochrome c in saccharomyces cerevisiae

Smith

Leung

Gillam

et al. 1979

Cell

349

110

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