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AIMS: We evaluated the potential of a nanoparticle (NP) delivery system to improve methods of delivery of candidate peptide-based vaccines for Paratuberculosis in cattle. METHODS AND RESULTS: Peptides derived from Mycobacterium avium subsp. paratuberculosis (Map), and the pro-inflammatory monophosphoryl lipid A (MPLA) were incorporated in polymeric NPs based on poly (d,l-lactide-co-glycolide) (PLGA). The PLGA/MPLA NPs carriers were incubated with macrophages to examine their effects on survival and function. PLGA/MPLA NPs, with and without Map antigens, are efficiently phagocytized by macrophages with no evidence of toxicity. PLGA/MPLA NP formulations did not alter the level of expression of MHC I or II molecules. Expression of TNFα and IL12p40 was increased in Map-loaded NPs. T-cell proliferation studies using a model peptide from Anaplasma marginale demonstrated that a CD4 T-cell recall response could be elicited with macrophages pulsed with the peptide encapsulated in the PLGA/MPLA NP. CONCLUSIONS: These findings indicate PLGA/MPLA NPs can be used as a vehicle for delivery and testing of candidate peptide-based vaccines. SIGNIFICANCE AND IMPACT OF THE STUDY: These results will assist on more in depth studies on PLGA NP delivery systems that may lead to the development of a peptide-based vaccine for cattle.

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In this study, we demonstrate that the mechanism by which Staphylococcus aureus induces apoptosis in bovine mammary epithelial (MAC-T) cells involves caspases 8 and 3, two key components of a proteolytic cascade leading to apoptosis. In addition, internalized S. aureus induces expression of the inflammatory cytokines tumor necrosis factor alpha and interleukin-1beta by MAC-T cells. These data suggest that the internalization of S. aureus could induce specific cellular responses in vivo that may ultimately impact the course of infection.

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Staphylococcus aureus isolates from bovine and ovine species produce unique molecular variants of type C staphylococcal enterotoxin (SEC). The SEC animal variants have greater than 98% amino acid sequence identity with SEC1, a human-associated SEC. The two SEC animal variants have been designated SEC(bovine) and SEC(ovine) according to their corresponding host species. We showed previously that these toxins induce quantitatively different levels of T-cell stimulation in several animal species. The present study compared the abilities of these closely related host-specific SEC variants to stimulate Vbeta-bearing T cells from bovine and human donors. All three toxins expanded human T cells bearing T-cell receptor Vbeta elements (huVbeta) 3, 12, 13.2, 14, 15, 17, and 20. However, SEC1 resulted in greater expansion of hyVbeta12 than either SEC(bovine) or SEC(ovine). In addition, bovine T cells proliferate in a Vbeta-dependent manner in response to these superantigens (SAgs). All three toxins induced the proliferation of bovine T cells bearing the previously sequenced Vbeta element (boVbeta) from the bovine T-cell clone BTB13 (boVbetaBTB13). SEC1 and SEC(ovine) also were able to induce proliferation of bovine T cells bearing boVbetaBTB35, which SEC(bovine) failed to stimulate. The species-specific differences in T-cell proliferation exhibited by these closely related SEC variants may reflect the evolutionary adaptation of S. aureus, presumably to increase its host range by the manipulation of the immune system in a host-specific manner.

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The type C staphylococcal enterotoxins (SECs) are a group of highly conserved proteins with substantial antigenic cross-reactivity. Although Staphylococcus intermedius and coagulase-positive species of staphylococci are reported to produce SEC and other SEs, toxins produced by species other than Staphylococcus aureus have not been previously characterized. In this study we report the molecular, biological, and immunological properties of the canine SEC (SECcanine) expressed by pathogenic isolates of S. intermedius. The mature form of SECcanine has 239 amino acid residues and a pI of 7.0. Typical of the SEs, purified SECcanine induces an emetic response in monkeys and the proliferation of T cells in a Vbeta-dependent manner. Although SECcanine has >95% sequence identity to previously described SEC variants, its sequence is most related to SEC2 and SEC3. In contrast to the sequence similarity, the Vbeta profile induced by SECcanine is typical of that induced by SEC1. This result is likely explained by the conservation of a cysteine residue at position 26 in SECcanine; residues at this position have been previously shown to determine subtype-dependent differences in T-cell receptor interactions of other SEs. Overall, these results show that superantigen toxins produced by the multiple members of the genus Staphylococcus are highly conserved in respect to biological and structural properties. Further, the frequent association of SECcanine with pyoderma in dogs supports the notion that the toxins are important for staphylococcal survival and pathogenesis.

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The beta-toxins produced by Staphylococcus aureus and Staphylococcus intermedius were purified to homogeneity from culture supernatants. Although the toxin from S. aureus has been throughly studied, less is known about its unique counterpart from S. intermedius. This is the first reported purification and analysis of the S. intermedius beta-toxin. Both toxins have similar enzymatic properties, belong to the class of neutral sphingomyelinases C, and have a high specificity for sphingomyelin. They also hydrolyze lysophosphatidylcholine at a much slower rate, but have no activity toward phosphatidylcholine, phosphatidylethanolamine, or phosphatidylserine. The kinetic parameters determined for both proteins (apparent Km 1.4 mM, Vmax 100 mmol/min/microg protein) are identical. Despite these similarities, the size and amino acid composition of the two beta-toxins differ. Molecular mass values, determined by electrophoresis and gel filtration, indicate that the both enzymes are single polypeptides. The decrease in sphingomyelinase activity of S. aureus beta-toxin upon pretreatment with dithiothreitol (DTT) indicates the presence of a disulfide bond in the protein. In contrast, DTT has no effect on the enzymatic activity of S. intermedius beta-toxin. This observation is consistent with the absence of detectable cysteine residue in the protein. N-terminal amino acid sequences determined for the first 19 residues of both beta-toxins also differ, only nine of the first 19 residues are identical. Further evidence that the two proteins differ was obtained by immunological analysis which demonstrated crossreactivity but a lack of identity.

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The goal of this study was to investigate the molecular interaction between superantigens and the T-cell receptor (TCR). Using a quantitative polymerase chain reaction (PCR) to assess T-cell proliferation profiles, we found that SEB, SEC1, SEC2 and SEC3 expanded human T cells bearing V beta 3, V beta 12, V beta 13.2, V beta 14, V beta 15, V beta 17 and V beta 20. SEC2 and SEC3 have the additional ability to expand T cells bearing V beta 13.1, and their expansion of V beta 3 was markedly reduced compared to SEB and SEC1. Based on the activity of SEC1 mutants containing single amino acid substitutions, we concluded that the differential abilities of these native toxins to stimulate V beta 3 and V beta 13.1 was determined by the residue in position 26, located in the base of the SEC alpha 3 cavity. The SEC1 mutant, in which Val in position 26 was substituted with the analogous SEC2/SEC3 residue (Tyr), generated a V beta expansion profile that was indistinguishable from those generated by SEC2 and SEC3. Using these findings, the co-ordinates of a recently reported murine TCR beta-chain crystal structure, and other documented information, we propose a compatible molecular model for the interaction of SEC3 with the T-cell receptor. In this model complex, the complementarity-determining regions (CDRs) 1 and 2 and the hypervariable loop 4 of the V beta element contact SEC3 predominantly through residues in the alpha 3 cavity of the toxin. CDR3 of the beta chain is not involved in any toxin contacts. The proposed model not only includes contacts identified in previous mutagenesis studies, but is also consistent with the ability of tyrosine and valine in position 26 to differentially affect the expansion of V beta s 3 and 13.1 by the SEC superantigens.

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A patient with streptococcal toxic shock-like syndrome (TSLS) caused by Streptococcus agalactiae (group B Streptococcus) is described. The patient had all of the defining criteria for toxic shock syndrome (TSS), including fever, hypotension, erythematous rash, desquamation, and involvement of multiple organs. Neither Staphylococcus aureus nor group A streptococci were recovered, but vaginal and urine cultures yielded group B streptococci. The group B streptococcal isolate gave negative results in antibody tests for the production of TSS toxin 1, staphylococcal enterotoxins, and streptococcal scarlet fever toxins. However, the strain produced a novel pyrogenic toxin. This toxin, purified from culture fluids by ethanol precipitation, isoelectric focusing, and reverse-phase high-pressure liquid chromatography, had a molecular weight of 12,000 and an isoelectric point of approximately 7.0. The purified toxin was pyrogenic in rabbits, enhanced the susceptibility of the animals to lethal endotoxin shock, and caused the proliferation of rabbit splenocytes; these properties define pyrogenic toxins. When given to three rabbits via a subcutaneous miniosmotic pump, the toxin caused TSS-like symptoms ending in death. Three additional group B streptococcal strains from patients with TSLS were tested and were found to produce a toxin with similar properties.

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Toxic shock syndrome toxin (TSST) 1 was purified from ovine (TSST-ovine) and bovine (TSST-bovine) mastitis-associated Staphylococcus aureus. These toxins were previously reported to have molecular weights identical to that of human TSST-1. However, TSST-ovine was reported as having an isoelectric point (pI) of 8.5, whereas TSST-bovine has the same pI (7.2) as TSST-1. Nucleotide sequence analysis revealed that TSST-bovine was identical to TSST-1 and that TSST-ovine had 14 nucleotide differences that changed 9 amino acid residues. Only 1 nucleotide difference, at position 514, was predicted to cause an amino acid charge difference, as glutamic acid at position 132 of TSST-1 was changed to lysine in TSST-ovine. Like TSST-1, TSST-ovine was mitogenic, but unlike TSST-1, it was not pyrogenic, was unable to enhance endotoxic shock, and was unable to induce TSS in a rabbit model. Also, TSST-ovine was less reactive to certain monoclonal antibodies raised against TSST-1.

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Glycerol monolaurate (GML) is a naturally occurring surfactant that has potential use as an additive to tampons and wound dressings to reduce the incidence of certain bacterial toxin-mediated illnesses. In vitro studies were undertaken to evaluate the effect of GML on the growth of and toxin production by potentially pathogenic bacteria. GML inhibited the growth of clinical isolates of group A, B, F, and G streptococci at concentrations of 10 to 20 micrograms/ml. Exotoxin production, including that of pyrogenic exotoxins and hemolysins, was reduced by concentrations of GML that were below those inhibitory for growth as well as growth inhibitory. The growth of Staphylococcus aureus strains from patients with toxic shock syndrome and scalded skin syndrome was inhibited or delayed in the presence of 100 to 300 micrograms of GML per ml. Growth inhibition by GML could be overcome by the production of lipase. S. aureus elaboration of hemolysin, toxic shock syndrome toxin 1, and exfoliative toxin A was inhibited at GML concentrations below those necessary to inhibit growth. Results similar to those for S. aureus were obtained in tests of S. hominis. Escherichia coli growth and Salmonella minnesota growth were unaffected by GML, but an S. minnesota Re mutant was susceptible to growth-inhibitory activity. Endotoxin release into the medium from E. coli cells was also unaffected by GML, but the release or activity of E. coli hemolysin was increased by GML. Streptococcal pyrogenic endotoxin A production by an E. coli clone was not affectd by GML. These studies indicate that GML is effective in blocking or delaying the production of exotoxins by pathogenic gram-positive bacteria.

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In staphylococcal toxic shock syndrome, hypotension and shock due to capillary leak may rapidly lead to death of the host. To investigate its pathogenesis, the cytotoxic effects of toxic shock syndrome toxin 1 (TSST-1) on porcine aortic endothelial cells (PAEC) were examined in vitro. TSST-1 killed PAEC (as measured by 51Cr release) in a dose- and time-dependent fashion and was blocked by anti-TSST-1 antibodies. Receptor-mediated endocytosis may be critical for the cytotoxic effects of TSST-1, as killing was inhibited by cold (4 degrees C) and by addition of chloroquine and methylamine. Furthermore, calcium and oxygen appeared necessary for TSST-1 effects on PAEC. Membrane receptor binding studies indicated PAEC bind TSST-1 with high affinity (Kd = 5.7 x 10(-7) M) and had 2.2 x 10(4) receptors/cell. Last, as measured by 125I-labeled albumin flux in a transendothelial permeability model, TSST-1 enhanced the permeability of PAEC monolayers in a dose- and time-dependent manner.

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Toxic shock syndrome toxin 1 (TSST-1) and streptococcal pyrogenic exotoxin A (SPE A) belong to a family of pyrogenic toxins produced by Staphylococcus aureus and Streptococcus pyogenes, respectively. Both toxins are responsible for causing toxic shock syndrome (TSS) and related illnesses, clinically characterized by multiorgan involvement. The most severe TSS symptom is acute hypotension and shock after the initial febrile response. In this study, we examined possible mechanisms of shock development in TSS, particularly the role of T-cell proliferation, endotoxin enhancement by toxins, and capillary leakage. American Dutch belted rabbits, with subcutaneously implanted miniosmotic pumps filled with either TSST-1 or SPE A, served as the animal model. For both TSST-1 and SPE A-treated rabbits, administration of cyclosporin A prevented toxin-induced T-cell proliferation but failed to protect the rabbits. Polymyxin B treatment of rabbits, to neutralize endogenous endotoxin, partially protected rabbits from challenge with either exotoxin; two of six rabbits survived on day 2 when treated with only TSST-1, whereas six of six animals survived after challenge with TSST-1 and polymyxin B. Similarly, with SPE A-treated rabbits, only 1 of 10 animals without polymyxin B treatment survived on day 8, but 4 of 6 rabbits survived on day 8 when given polymyxin B. Fluid replacement was successful in preventing lethality. Twelve of 14 rabbits survived when given TSST-1 with fluid, and all rabbits treated with SPE A and fluid survived. Finally, by using miniosmotic pumps, staphylococcal exfoliative toxin A and concanavalin A were administered to rabbits in an attempt to induce lethality. These two T-cell mitogens caused T-cell proliferation but failed to induce lethality in rabbits. The data suggest that toxin interactions causing vascular leakage and to some extent endotoxin enhancement are of major importance in development of hypotension and shock in TSS. It appears that T-cell proliferation may not contribute significantly to the induction of shock and death.

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