Global ETD Search

1	Interaction of Various Components of Staphylococcus Aureus Pearce, Paul Jones 12 1900 (has links) Previous reports have shown that killed cells of S. aureus potentiate the lethal effect of crude staphylococcal alpha toxin for mice. In the present study this synergistic effect has been demonstrated with highly purified preparations of alpha toxin. Time studies indicate that the active principle does not appear to be released until approximately two hours following administration of the whole cells. Staphylococcus aureus alpha toxin biology
2	A WHOLE CELL BASED BIOSENSOR FOR MONITORING PHYSIOLOGICAL TOXINS AND EARLY SCREENING OF CANCER Ghosh, Gargi 01 January 2008 (has links) Recently a whole cell based biosensor has been developed in our laboratory that consists of a monolayer of human umbilical vein endothelial cells (HUVECs) on the asymmetric cellulose triacetate (CTA) membrane of an ion selective electrode (ISE). When a confluent cell monolayer is formed across the membrane, response from the sensor is inhibited due to inhibited ion transport across the membrane. When the cell based biosensor is exposed to permeability modifying agents, the permeability across the cell monolayer is altered facilitating more ion transport and as a result the response from the sensor increases. This sensor response can be related to the concentration of these agents. One objective of this research was to investigate the ability of the sensor to detect a physiological toxin, alpha toxin from Staphylococcus aureus. Studies demonstrated that the biosensor can detect 0.1ng/ml alpha toxin. Considering the fact that the concentration of this toxin is 100-250 ng/ml in whole blood in humans, this biosensor has the ability to act as the diagnostic tool for staphylococcal diseases. Another part of this research was to investigate the ability of the biosensor to measure angiogenesis by measuring the changes in permeability induced by cytokines such as vascular endothelial growth factor (VEGF), basic fibroblast growth factor (bFGF), hepatocyte growth factor (HGF) and tumor necrosis factor andamp;aacute; (TNF- andamp;aacute;) individually and in combination. The sensor response was then compared with the common in vitro assays for angiogenesis. The study demonstrated that at the concentrations studied the sensor response in the presence of cytokines was much higher than that observed for other angiogenesis assays, thereby bolstering the potential of the biosensor to act as a quick screening tool for angiogenesis. Furthermore, epithelial cell based sensor responses to the same cytokines were compared with the responses from endothelial cell based sensor and the mechanisms behind the increased sensor response were elucidated. Finally, to investigate the ability of the sensor to screen cancer, the biosensor was exposed to the serum from healthy individuals and cancer patients. The results showed that the sensor can distinguish between healthy individuals and cancer patients and the results correlate with the stages of cancer.
3	Role of ROK and PKC in Permeabilized Rabbit Femoral Artery Clelland, Lyndsay Jacquelyn 01 January 2007 (has links) Discoveries made with KCl-induced contractions have elucidated the more complex reactions involved in GPCRs signaling; once the mechanisms of smooth muscle Ca2+ sensitization and desensitization are fully understood, then the development of advanced treatments for vascular disorders such as hypertension, cerebral and coronary vasospasm, and vascular hyporeactivity following hemorrhagic shock may be possible. Studies have shown that KCl-induced contractions induce Ca2+-sensitization. Therefore, we tested the hypothesis that KCl induced Ca2+-sensitization is due to ROK activation by the increase in [Ca2+]i. To test this hypothesis, rabbit femoral arteries were permeabilized with 20µg/ml α-toxin and 1% Triton X-100 and subjected to different calcium concentrations in the presence or absence of various ROK inhibitors. For a comparison we also used various PKC and MLCK inhibitors and repeated these experiments in intact tissues. We found that either [Ca2+]i alone does not directly activate ROK or the permeabilization technique itself disrupts the normal ROK signaling system. Secondary findings revealed that α-toxin activates PKC pathways; in both chemically permeabilized preparations proteases also appear to be activated and MLCK is the primary kinase responsible for contraction. Permeabilized ROK PKC Femoral Artery Smooth Muscle Triton X-100 Alpha Toxin Life Sciences Physiology
4	Caracterização de isolados de Clostridium perfringens de ruminantes / Characterization of Clostridium perfringens isolates from ruminants Miyashiro, Simone 18 February 2014 (has links) C. perfringens é uma bactéria anaeróbia presente no intestino delgado do homem e animais em equilíbrio e, sob a ação de alguns fatores predisponentes como mudança brusca de alimentação ou super alimentação, stress no manejo ou alto parasitismo intestinal, há a proliferação do microrganismo com a consequente produção de potentes toxinas que provocam a morte do animal. Dentre as toxinas principais destaca-se a toxina alfa, importante fator de virulência, produzida por todos os tipos de C. perfringens, sendo os pertencentes ao tipo A os maiores produtores. A fim de caracterizar o microrganismo em suspeitas de enterotoxemia em ruminantes, trabalhamos com 61 amostras de intestino delgado de bovinos e 12 de ovinos como grupo estudo e no grupo controle composto de animais hígidos levados ao abate, 73 amostras de intestino delgado de bovinos e 24 de ovinos. Foram realizados procedimentos de isolamento e tipagem molecular de C. perfringens e quantificação celular, detecção molecular da toxina β2, além de avaliações moleculares qualitativa (PCR convencional) e quantitativa (PCR em tempo real) do gene da toxina alfa dos diferentes isolados. Em 29 amostras do grupo estudo bovino (47,54%) e em 4 (33,33%) do grupo estudo ovino isolou-se o microrganismo, em contrapartida no grupo controle bovino não houve isolamento do bacilo e 5 amostras do grupo controle ovino (20,83%) foram positivas. Houve diferença estatisticamente significante somente entre os grupos de bovinos (p<0,05). Todos os isolados (100%) foram classificados como tipo A, e os resultados das quantificações celulares de C. perfringens revelaram que todos os bovinos controle apresentaram <10 UFC/g de conteúdo enquanto que o grupo estudo apresentou mediana de 104 UFC/g com variações de <10 UFC/g até 108 UFC/g. Nos ovinos, a mediana no grupo controle foi 101 UFC/g assim como no grupo estudo, entretanto com clara separação de valores entre os grupos. Tanto na PCR convencional quanto na PCR em tempo real para detecção do RNAm da toxina alfa foi observado limiar de detecção de 102 cópias de cDNA por reação, porém provavelmente devido aos valores das amostras estarem próximos ao limite da sensibilidade analítica da reação, não foi observada boa reprodutibilidade da última. Já na reação molecular convencional, observou-se a presença de detecção de RNAm da toxina alfa em 60,52% dos isolados o que revela alguma diferença da presença do transcrito entre as culturas, já que nas cepas restantes não foi detectada a presença do RNAm em questão. A pesquisa do gene da toxina β2 revelou sua presença em 54,55% dos isolados de C. perfringens corroborando com a afirmativa de que o gene está amplamente distribuído entre os ruminantes. A metodologia aplicada para avaliação da expressão do gene da toxina alfa nos isolados mostrou que há diferenças dos níveis de transcrição porém não permitiu quantificar esses valores. A tipagem molecular corrobora com outros estudos quanto à importância epidemiológica do tipo A nos quadros de enterotoxemia em ruminantes, e os dados da quantificação celular permite-nos concluir que animais sadios possuem um nível basal de C. perfringens <10 UFC/g de conteúdo que não possibilita o seu isolamento. / C. perfringens is an anaerobe present in small intestine of man and animals in equilibrium, and under some predisposing factors such as sudden feeding change or super feeding, rough management or high intestinal parasitism, the microorganism multiplies with the consequent production of potent toxins that can cause animal death. Amongst the main toxins, alpha toxin is an important virulence factor, that is produced by all C. perfringens types, and those belonging to type A are its higher producer. Aiming to characterize the microorganism in ruminants suspect of enterotoxaemia, we evaluated 61 bovine small intestinal samples and 12 sheep small intestines as the study group, and for the control group composed by higid animals led to slaughterhousing, 73 bovine small intestines and 24 ovine samples. We performed microbiological culture and molecular typing of C. perfringens isolates, cellular quantification, molecular detection of 2 toxin, and qualitative and quantitative molecular evaluations of alpha toxin from different isolates by means of conventional PCR and real time PCR, respectively. In 29 samples from the bovine study group (47.54%) and in 4 (33.33%) from ovine study group the microorganism was isolated, however in the bovine control group there was no isolation success and 5 samples from sheep control group (20.83%) were positive. There was statistically significant difference only between bovine groups (p<0,05). All isolates (100%) were classified as type A, and C. perfringens cellular quantification results showed that every control bovine presented <10 CFU/g of intestinal contents while the study group presented a median of 104 CFU/g with results ranging from <10 CFU/g to 108 CFU/g. In sheep, the median value in the control group was 101 CFU/g as in the study group, but with a clear division of values between the groups. We observed the threshold detection of 102 cDNA copies per reaction in both conventional and real time PCR reactions for alpha toxin mRNA detection, however since the samples quantification values were close to the analytical sensitivity of the test, we could not observe the reproducibility in the last technique. In the conventional PCR reaction, alpha toxin mRNA was detected in 60.52% of the isolates. This result reveals some difference in the transcript presence among the cultures, since we could not detect the presence of the described mRNA in the other isolates. Beta2 toxin gene was detected in 54.55% of C. perfringens isolates corroborating with the affirmative that this gene is widely distributed among ruminants. The methodology presented herein for the evaluation of alpha toxin gene expression showed that there are differences in the transcription levels, however it didnt allow to quantify these values. Molecular typing results agree with other studies regarding the epidemiological importance of type A in the enterotoxaemia processes in ruminants, and the cellular quantification data allow us to conclude that healthy animals show a basal level of C. perfringens <10 CFU/g of intestinal content that doesnt allow its isolation. Clostridium perfringens Clostridium perfringens Alpha toxin Enterotoxaemia Enterotoxemia Ruminantes Ruminants Toxina alfa
5	A Plant Based Vaccine for Necrotic Enteritis in Chickens January 2018 (has links) abstract: Necrotic enteritis (NE) is caused by type A strains of the bacterium Clostridium perfringens, leading to an estimated 2 billion dollar global economic loss in the poultry industry annually. Traditionally, NE has been effectively controlled by antibiotics added to the diet of poultry. Concerns about increasing antibiotic resistance of poultry and human based pathogens have led to the consideration of alternative approaches for controlling disease, such as vaccination. NE causing strains of C. perfringens produce two major toxins, α-toxin and NetB. Immune responses against either toxin can provide partial protection against NE. We have developed a fusion protein combining a non-toxic carboxy-terminal domain of the α-toxin (PlcC) and an attenuated, mutant form of NetB (NetB-W262A) for use as a vaccine antigen to immunize poultry against NE. We utilized a DNA sequence that was codon-optimized for Nicotiana benthamiana to enable high levels of expression. The 6-His tagged PlcC-NetB fusion protein was synthesized in N. benthamiana using a geminiviral replicon transient expression system. The fusion protein was purified by metal affinity chromatography and used to immunize broiler birds. Immunized birds produced a strong serum IgY response against both the plant produced PlcC-NetB protein and against bacterially produced His-PlcC and His-NetB. However, the PlcC-NetB fusion had antibody titers four times that of the bacterially produced toxoids alone. Immunized birds were significantly protected against a subsequent in-feed challenge with virulent C. perfringens when treated with the fusion protein. These results indicate that a plant-produced PlcC-NetB is a promising vaccine candidate for controlling NE in poultry. / Dissertation/Thesis / Masters Thesis Molecular and Cellular Biology 2018 Microbiology Agriculture Molecular biology alpha toxin Chickens Clostridium perfringens Necrotic enteritis NetB Vaccine
6	Caracterização de isolados de Clostridium perfringens de ruminantes / Characterization of Clostridium perfringens isolates from ruminants Simone Miyashiro 18 February 2014 (has links) C. perfringens é uma bactéria anaeróbia presente no intestino delgado do homem e animais em equilíbrio e, sob a ação de alguns fatores predisponentes como mudança brusca de alimentação ou super alimentação, stress no manejo ou alto parasitismo intestinal, há a proliferação do microrganismo com a consequente produção de potentes toxinas que provocam a morte do animal. Dentre as toxinas principais destaca-se a toxina alfa, importante fator de virulência, produzida por todos os tipos de C. perfringens, sendo os pertencentes ao tipo A os maiores produtores. A fim de caracterizar o microrganismo em suspeitas de enterotoxemia em ruminantes, trabalhamos com 61 amostras de intestino delgado de bovinos e 12 de ovinos como grupo estudo e no grupo controle composto de animais hígidos levados ao abate, 73 amostras de intestino delgado de bovinos e 24 de ovinos. Foram realizados procedimentos de isolamento e tipagem molecular de C. perfringens e quantificação celular, detecção molecular da toxina β2, além de avaliações moleculares qualitativa (PCR convencional) e quantitativa (PCR em tempo real) do gene da toxina alfa dos diferentes isolados. Em 29 amostras do grupo estudo bovino (47,54%) e em 4 (33,33%) do grupo estudo ovino isolou-se o microrganismo, em contrapartida no grupo controle bovino não houve isolamento do bacilo e 5 amostras do grupo controle ovino (20,83%) foram positivas. Houve diferença estatisticamente significante somente entre os grupos de bovinos (p<0,05). Todos os isolados (100%) foram classificados como tipo A, e os resultados das quantificações celulares de C. perfringens revelaram que todos os bovinos controle apresentaram <10 UFC/g de conteúdo enquanto que o grupo estudo apresentou mediana de 104 UFC/g com variações de <10 UFC/g até 108 UFC/g. Nos ovinos, a mediana no grupo controle foi 101 UFC/g assim como no grupo estudo, entretanto com clara separação de valores entre os grupos. Tanto na PCR convencional quanto na PCR em tempo real para detecção do RNAm da toxina alfa foi observado limiar de detecção de 102 cópias de cDNA por reação, porém provavelmente devido aos valores das amostras estarem próximos ao limite da sensibilidade analítica da reação, não foi observada boa reprodutibilidade da última. Já na reação molecular convencional, observou-se a presença de detecção de RNAm da toxina alfa em 60,52% dos isolados o que revela alguma diferença da presença do transcrito entre as culturas, já que nas cepas restantes não foi detectada a presença do RNAm em questão. A pesquisa do gene da toxina β2 revelou sua presença em 54,55% dos isolados de C. perfringens corroborando com a afirmativa de que o gene está amplamente distribuído entre os ruminantes. A metodologia aplicada para avaliação da expressão do gene da toxina alfa nos isolados mostrou que há diferenças dos níveis de transcrição porém não permitiu quantificar esses valores. A tipagem molecular corrobora com outros estudos quanto à importância epidemiológica do tipo A nos quadros de enterotoxemia em ruminantes, e os dados da quantificação celular permite-nos concluir que animais sadios possuem um nível basal de C. perfringens <10 UFC/g de conteúdo que não possibilita o seu isolamento. / C. perfringens is an anaerobe present in small intestine of man and animals in equilibrium, and under some predisposing factors such as sudden feeding change or super feeding, rough management or high intestinal parasitism, the microorganism multiplies with the consequent production of potent toxins that can cause animal death. Amongst the main toxins, alpha toxin is an important virulence factor, that is produced by all C. perfringens types, and those belonging to type A are its higher producer. Aiming to characterize the microorganism in ruminants suspect of enterotoxaemia, we evaluated 61 bovine small intestinal samples and 12 sheep small intestines as the study group, and for the control group composed by higid animals led to slaughterhousing, 73 bovine small intestines and 24 ovine samples. We performed microbiological culture and molecular typing of C. perfringens isolates, cellular quantification, molecular detection of 2 toxin, and qualitative and quantitative molecular evaluations of alpha toxin from different isolates by means of conventional PCR and real time PCR, respectively. In 29 samples from the bovine study group (47.54%) and in 4 (33.33%) from ovine study group the microorganism was isolated, however in the bovine control group there was no isolation success and 5 samples from sheep control group (20.83%) were positive. There was statistically significant difference only between bovine groups (p<0,05). All isolates (100%) were classified as type A, and C. perfringens cellular quantification results showed that every control bovine presented <10 CFU/g of intestinal contents while the study group presented a median of 104 CFU/g with results ranging from <10 CFU/g to 108 CFU/g. In sheep, the median value in the control group was 101 CFU/g as in the study group, but with a clear division of values between the groups. We observed the threshold detection of 102 cDNA copies per reaction in both conventional and real time PCR reactions for alpha toxin mRNA detection, however since the samples quantification values were close to the analytical sensitivity of the test, we could not observe the reproducibility in the last technique. In the conventional PCR reaction, alpha toxin mRNA was detected in 60.52% of the isolates. This result reveals some difference in the transcript presence among the cultures, since we could not detect the presence of the described mRNA in the other isolates. Beta2 toxin gene was detected in 54.55% of C. perfringens isolates corroborating with the affirmative that this gene is widely distributed among ruminants. The methodology presented herein for the evaluation of alpha toxin gene expression showed that there are differences in the transcription levels, however it didnt allow to quantify these values. Molecular typing results agree with other studies regarding the epidemiological importance of type A in the enterotoxaemia processes in ruminants, and the cellular quantification data allow us to conclude that healthy animals show a basal level of C. perfringens <10 CFU/g of intestinal content that doesnt allow its isolation. Clostridium perfringens Enterotoxemia Ruminantes Toxina alfa Clostridium perfringens Alpha toxin Enterotoxaemia Ruminants
7	Investigation of Alpha-Toxin Secretions in Biofilm Conditioned Medium as a Potential Pro-Inflammatory Disruptor to Macrophages Rogers, Tara Marie 29 May 2019 (has links) No description available. Biology Biomedical Research Cellular Biology Immunology Microbiology Molecular Biology Staphylococcus aureus Biofilm Staphylococcus aureus biofilm Alpha-toxin Macrophage Inflammation
8	The Interactions of Clostridium Perfringens With Phagocytic Cells O'Brien, David Kenneth 24 April 2003 (has links) Clostridium perfringens is the most common cause of gas gangrene (clostridial myonecrosis), a disease that begins when ischemic tissues become contaminated with C. perfringens. C. perfringens quickly multiplies in ischemic tissues and spreads to healthy areas, leading to high levels of morbidity and mortality. As a species, the bacterium can synthesize thirteen different toxins. The alpha toxin (PLC) and perfringolysin O (PFO) are thought to be important virulence factors in gangrene. We wished to understand how C. perfringens is capable of avoiding killing by the host immune system, and determine if PLC and PFO play a role in this avoidance. We found C. perfringens was not killed by J774-33 cells or mouse peritoneal macrophages under aerobic or anaerobic conditions. Using electron microscopy, we showed that C. perfringens could escape the phagosome of J774-33 and mouse peritoneal macrophages. We believe the ability of C. perfringens to survive in the presence of macrophages is due to its ability to escape the phagosome. Using a variety of inhibitors of specific receptors, we identified those used by J774-33 cells to phagocytose C. perfringens. The scavenger receptor, mannose receptor(s), and complement receptor (CR3) were involved in the phagocytosis of C. perfringens. To determine if PFO or PLC were involved in the ability of C. perfringens to survive in the presence of macrophages, we constructed C. perfringens strains lacking these toxins. The ability of C. perfringens to survive in the presence of J774-33 cells is dependent on PFO, while survival in mouse peritoneal macrophages is dependent on PFO and PLC. The ability of C. perfringens to escape the phagosome of J774-33 cells and mouse peritoneal macrophages is mediated by either PFO or PLC. Using a mouse model, we found that PFO and PLC were necessary for C. perfringens to survive in vivo using infectious doses 1000 times lower than those required to initiate a gangrene infection. We propose that PFO and PLC play a critical role in the survival of C. perfringens during the early stages of gangrene infections, when phagocytic cells are present and bacterial numbers are low. / Ph. D. Clostridium perfringens phagosome alpha-toxin LAMP-1 polymorphonuclear leukocytes anaerobe macrophage receptors lysosome theta-toxin phagocytosis macrophages
9	Detecção dos genes das toxinas alfa, beta e épsilon de Clostridium perfringens isolados a partir de amostras clínicas de bovinos pela reação em cadeia da polimerase / Detection of alpha, beta and epsilon toxin genes of Clostridium perfringens isolated from cattle?s clinical samples by polimerase chain reaction Penha, Marcelo De Luca 06 April 2004 (has links) O Clostridium perfringens é um microrganismo anaeróbio que está presente no solo e no trato intestinal dos mamíferos. Provoca intoxicação alimentar nos seres humanos, doenças enterotoxêmicas nos animais domésticos e gangrena gasosa em ambos os grupos. O C. perfringens é classificado em cinco tipos (A, B, C, D e E) mediante a produção de quatro toxinas principais (alfa, beta, épsilon e iota). Neste trabalho foi possível padronizar a técnica de PCR para detectar a presença dos genes cpa, cpb e etx a partir de culturas de C. perfringens. A sensibilidade analítica da técnica de PCR a partir de culturas de C. perfringens foi de 2,27 ng/µL para o gene cpa, 22,7 pg/µL para o gene cpb e 22,7 pg/µL para o gene etx. A pesquisa dos genes cpa, cpb e etx partir de 35 amostras de C. perfringens isoladas de bovinos revelou que 16 (45,7%) eram do tipo A; 18 (51,4%) eram do tipo C e 1 (2,9%) era do tipo B. Não foi observada nenhuma amostra do tipo D. A metodologia de PCR revelou-se útil na tipificação de amostras de C. perfringens isoladas de bovinos, contribuindo para o diagnóstico dessa bacteriose neste país, eliminando as dificuldades de tipificação oriundas do alto custo e da indisponibilidade de anti-soros para a tipificação pela reação de soroneutralização e evitando a utilização de animais de laboratório. / Clostridium perfringens is an anaerobic micro-organism that is present in the soil and gastrointestinal tract of mammals. It causes food poisoning in humans, enterotoxemic diseases in domestic animals and gas gangrene in both. C. perfringens is classified into five types (A, B, C, D and E) according to the production of four major toxins (alpha, beta, epsilon and iota). In this trial was possible to standardize the PCR?s technique to detect cpa, cpb and etx genes from cultures of C. perfringens. PCR?s analythical sensibility was 2.27 ng/µL for cpa gene, 22.7 pg/µL for cpb gene and 22.7 pg/µL for etx gene. The research of cpa, cpb and etx genes from 35 samples of C. perfringens isolated from cattle reveals that 16 (45.7%) were classified as type A, 18 (51.4%) as type C and 1 (2.9%) as type B. No sample of type D was observed. PCR?s technique reveals to be usefull to typify samples of C. perfringens isolated from cattle, contributing to diagnose of this bacterial disease in this country and solving typifing problems represented by the high costs of the process and by the lack of antiserum that is required to typify the micro-organism by seroneutralization. PCR?s technique avoid the use of laboratory animals, too. Clostridium Clostridium Alpha toxin Beta toxin Epsilon toxin Polymerase chain reaction Reação em cadeia da polimerase Toxina alfa Toxina beta Toxina épsilon
10	The development of live vectored vaccines targeting the alpha-toxin of Clostridium perfringens for the prevention of necrotic enteritis in poultry Gatsos, Xenia, xgatsos@optusnet.com.au January 2007 (has links) The Ñ-toxin of Clostridium perfringens is a toxin involved in numerous diseases of humans and agriculturally important animals. One of these diseases is necrotic enteritis (NE), a sporadic enteric disease which affects avian species world-wide. This study involved the inactivation of alpha-toxin (Ñ-toxin) for use as a potential vaccine candidate to combat NE in chickens, and other diseases caused by C. perfringens type A. During the course of this research a number of Ñ-toxin recombinant proteins were developed through molecular inactivation of the Ñ-toxin gene, plc. Proteins plc316 and plc204 were developed by the deletion of the first three and seven Ñ-helices of the N-terminal domain respectively. These deletions resulted in proteins which were unstable in solution, constantly aggregated into insoluble masses and elicited lower overall antibody responses when administered to mice. A third protein, plcInv3 was developed from the deletion of part of the catalytic domain of the Ñ-toxin. PlcInv3 was highly soluble and upon immunisation of mice elicited a significant antibody response which was also capable of protecting mice against a live challenge of C. perfringens. The fourth and final protein developed was plc104. The smallest of the recombinant Ñ-toxin proteins, it consisted entirely of the C-terminal domain of Ñ-toxin. Its small size did not affect its ability to induce a strong antibody response when administered to mice, the antibodies of which were also protective during a challenge with C. perfringens. STM1, an attenuated strain of S. Typhimurium was used in the development of a vectored vaccine for the expression and oral delivery of plcInv3 and plc104 within the mouse host. The proteins were expressed within STM1 from expression plasmids containing the in vivo inducible promoters PhtrA and PpagC. A measurable humoral immune response against Ñ-toxin was absent following three oral vaccinations with the vectored vaccines, although, cytokine profiling of splenocytes from vaccinated mice revealed an increase in the number of interleukin-4 (IL-4)secreting cells and the lack of interferon-gamma (IFN-×) secreting cells. This indicated the stimulation of a T-helper type 2 (TH2) immune response which also lead to partial protection against a live C. perfringens challenge. This study demonstrates the feasibility of using STM1 as a carrier for the in vivo expression of the C. perfringens Ñ-toxin recombinant proteins plcInv3 and plc104. It is the first study to express C. perfringens antigens within an attenuated strain of S. Typhimurium, STM1.The partial protection of mice immunised with these vaccines indicates there is potential for this vectored vaccine system to be used in the protection of diseases caused by the Ñ-toxin of C. perfringens. Clostridium perfringens phospholipase C alpha toxin immunisation gas gangrene necrotic enteritis Salmonella Typhimurium STM1 antibodies humoral immunity TH2 toxoid recombinant vaccine

Search results