Your search keyword '"attenuated strains"' showing total 26 results

1. Development and Application of Attenuated Plant Viruses as Biological Control Agents in Japan.

Author

Tomitaka, Yasuhiro, Shimomoto, Yoshifumi, Ryang, Bo-Song, Hayashi, Kazusa, Oki, Tomoka, Matsuyama, Momoko, and Sekine, Ken-Taro

Subjects

*PLANT viruses, *BIOLOGICAL pest control agents, *TOBACCO mosaic virus, *MOSAIC diseases, *BIOPESTICIDES, *CUCUMBERS, *TOMATOES, *MOSAIC viruses, *CUCUMBER mosaic virus

Abstract

In 1929, it was reported that yellowing symptoms caused by a tobacco mosaic virus (TMV) yellow mosaic isolate were suppressed in tobacco plants that were systemically infected with a TMV light green isolate. Similar to vaccination, the phenomenon of cross-protection involves a whole plant being infected with an attenuated virus and involves the same or a closely related virus species. Therefore, attenuated viruses function as biological control agents. In Japan, many studies have been performed on cross-protection. For example, the tomato mosaic virus (ToMV)-L11A strain is an attenuated isolate developed by researchers and shows high control efficiency against wild-type ToMV in commercial tomato crops. Recently, an attenuated isolate of zucchini yellow mosaic virus (ZYMV)-2002 was developed and registered as a biological pesticide to control cucumber mosaic disease. In addition, attenuated isolates of pepper mild mottle virus (PMMoV), cucumber mosaic virus (CMV), tobacco mild green mosaic virus (TMGMV), melon yellow spot virus (MYSV), and watermelon mosaic virus (WMV) have been developed in Japan. These attenuated viruses, sometimes called plant vaccines, can be used not only as single vaccines but also as multiple vaccines. In this review, we provide an overview of studies on attenuated plant viruses developed in Japan. We also discuss the application of the attenuated strains, including the production of vaccinated seedlings. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Randomized Controlled Clinical Trial of Nasal Immunization with Live Virulence Attenuated Streptococcus pneumoniae Strains Using Human Infection Challenge.

Author

Hill, Helen, Mitsi, Elena, Nikolaou, Elissavet, Blizard, Annie, Pojar, Sherin, Howard, Ashleigh, Hyder-Wright, Angela, Devin, Jack, Reiné, Jesus, Robinson, Ryan, Solórzano, Carla, Jochems, Simon P., Kenny-Nyazika, Tinashe, Ramos-Sevillano, Elisa, Weight, Caroline M., Myerscough, Chris, McLenaghan, Daniella, Morton, Ben, Gibbons, Emily, and Farrar, Madlen

Subjects

STREPTOCOCCUS pneumoniae, CLINICAL trials, INTRANASAL administration, RANDOMIZED controlled trials, PNEUMOCOCCAL pneumonia, KLEBSIELLA pneumoniae

Abstract

Rationale: Pneumococcal pneumonia remains a global health problem. Pneumococcal colonization increases local and systemic protective immunity, suggesting that nasal administration of live attenuated Streptococcus pneumoniae (Spn) strains could help prevent infections. Objectives: We used a controlled human infection model to investigate whether nasopharyngeal colonization with attenuated S. pneumoniae strains protected against recolonization with wild-type (WT) Spn (SpnWT). Methods: Healthy adults aged 18-50 years were randomized (1:1:1:1) for nasal administration twice (at a 2-wk interval) with saline solution, WT Spn6B (BHN418), or one of two genetically modified Spn6B strains, SpnA1 (Dfhs/piaA) or SpnA3 (DproABC/piaA) (Stage I). After 6months, participants were challenged with SpnWT to assess protection against the homologous serotype (Stage II). Measurements and Main Results: 125 participants completed both study stages per intention to treat. No serious adverse events were reported. In Stage I, colonization rates were similar among groups: SpnWT, 58.1% (18 of 31); SpnA1, 60% (18 of 30); and SpnA3, 59.4% (19 of 32). Anti-Spn nasal IgG levels after colonization were similar in all groups, whereas serumIgG responses were higher in the SpnWT and SpnA1 groups than in the SpnA3 group. In colonized individuals, increases in IgG responses were identified against 197 Spn protein antigens and serotype 6 capsular polysaccharide using a pangenome array. Participants given SpnWT or SpnA1 in Stage I were partially protected against homologous challenge with SpnWT (29% and 30% recolonization rates, respectively) at stage II, whereas those exposed to SpnA3 achieved a recolonization rate similar to that in the control group (50% vs. 47%, respectively). Conclusions: Nasal colonization with genetically modified live attenuated Spn was safe and induced protection against recolonization, suggesting that nasal administration of live attenuated Spn could be an effective strategy for preventing pneumococcal infections. [ABSTRACT FROM AUTHOR]

Published

2023

3. Development and Application of Attenuated Plant Viruses as Biological Control Agents in Japan

Author

Yasuhiro Tomitaka, Yoshifumi Shimomoto, Bo-Song Ryang, Kazusa Hayashi, Tomoka Oki, Momoko Matsuyama, and Ken-Taro Sekine

Subjects

cross-protection, attenuated strains, plant vaccine, Microbiology, QR1-502

Abstract

In 1929, it was reported that yellowing symptoms caused by a tobacco mosaic virus (TMV) yellow mosaic isolate were suppressed in tobacco plants that were systemically infected with a TMV light green isolate. Similar to vaccination, the phenomenon of cross-protection involves a whole plant being infected with an attenuated virus and involves the same or a closely related virus species. Therefore, attenuated viruses function as biological control agents. In Japan, many studies have been performed on cross-protection. For example, the tomato mosaic virus (ToMV)-L11A strain is an attenuated isolate developed by researchers and shows high control efficiency against wild-type ToMV in commercial tomato crops. Recently, an attenuated isolate of zucchini yellow mosaic virus (ZYMV)-2002 was developed and registered as a biological pesticide to control cucumber mosaic disease. In addition, attenuated isolates of pepper mild mottle virus (PMMoV), cucumber mosaic virus (CMV), tobacco mild green mosaic virus (TMGMV), melon yellow spot virus (MYSV), and watermelon mosaic virus (WMV) have been developed in Japan. These attenuated viruses, sometimes called plant vaccines, can be used not only as single vaccines but also as multiple vaccines. In this review, we provide an overview of studies on attenuated plant viruses developed in Japan. We also discuss the application of the attenuated strains, including the production of vaccinated seedlings.

Published

2024

4. Inoculation with ASFV-Katanga-350 Partially Protects Pigs from Death during Subsequent Infection with Heterologous Type ASFV-Stavropol 01/08.

Author

Vlasov, Mikhail E., Sindryakova, Irina P., Kudrjashov, Dmitry A., Morgunov, Sergey Y., Kolbasova, Olga L., Lyska, Valentina M., Zhivoderov, Sergey P., Pivova, Elena Y., Balyshev, Vladimir M., Sereda, Alexey D., and Kolbasov, Denis V.

Subjects

*AFRICAN swine fever virus, *SWINE, *POSTMORTEM changes, *VACCINATION, *VIRAL DNA

Abstract

African swine fever virus (ASFV) is an extremely genetically and phenotypically heterogeneous pathogen. Previously, we have demonstrated that experimental inoculation of pigs with an attenuated strain, Katanga-350 (genotype I, seroimmunotype I) (ASFV-Katanga-350), can induce protective immunity in 80% of European domestic pigs against the homologous virulent European strain Lisbon-57. At least 50% of the surviving pigs received protection from subsequent intramuscular infection with a heterologous virulent strain, Stavropol 01/08 (genotype II, seroimmunotype VIII) (ASFV-Stavropol 01/08). In this study, we assessed clinical signs, the levels of viremia, viral DNA, anti-ASFV antibodies and post-mortem changes caused by subsequent intramuscular injection with ASFV-Katanga-350 and heterologous ASFV-Stavropol 01/08. Inoculation of pigs with the ASFV-Katanga-350 did not protect animals from the disease in the case of the subsequent challenged ASFV-Stavropol 01/08. However, 40% of pigs were protected from death. Moreover, the surviving animals showed no pathomorphological changes or the presence of an infectious virus in the organs after euthanasia at 35 days post challenging. The ability/inability of attenuated strains to form a certain level of protection against heterologous isolates needs a theoretical background and experimental confirmation. [ABSTRACT FROM AUTHOR]

Published

2023

5. Immunobiological Characteristics of the Attenuated African Swine Fever Virus Strain Katanga-350.

Author

Sereda, Alexey D., Vlasov, Mikhail E., Koltsova, Galina S., Morgunov, Sergey Y., Kudrjashov, Dmitry A., Sindryakova, Irina P., Kolbasova, Olga L., Lyska, Valentina M., Koltsov, Andrei Y., Zhivoderov, Sergey P., Pivova, Elena Y., Baluishev, Vladimir M., Gogin, Andrey E., and Kolbasov, Denis V.

Subjects

*AFRICAN swine fever virus, *CLASSICAL swine fever, *AFRICAN swine fever, *POSTMORTEM changes, *INTRAMUSCULAR injections, *VIRAL DNA, *WILD boar

Abstract

The African swine fever virus (ASFV) is the cause of a recent pandemic that is threatening the global pig industry. The virus infects domestic and wild pigs and manifests with a variety of clinical symptoms, depending on the strain. No commercial vaccine is currently available to protect animals from this virus, but some attenuated and recombinant live vaccine candidates might be effective against the disease. This article describes the immunobiological characteristics of one such candidate—the laboratory-attenuated ASFV strain, Katanga-350—which belongs to genotype I. In this study, we assessed clinical signs and post-mortem changes, the levels of viremia and the presence of viral DNA caused by injection of ASF virus strains Katanga-350, Lisbon-57, and Stavropol 08/01. Intramuscular injection of this strain protected 80% of pigs from a virulent strain of the same genotype and seroimmunotype (Lisbon-57). At least 50% of the surviving pigs received protection from subsequent intramuscular infection with a heterologous (genotype II, seroimmunotype VIII) virulent strain (Stavropol 08/01). Virus-specific antibodies were detectable in serum and saliva samples between 8–78 days after the first inoculation of the Katanga-350 strain (the observational period). The results suggested that this strain could serve as a basis for the development of a recombinant vaccine against ASF viruses belonging to seroimmunotype I. [ABSTRACT FROM AUTHOR]

Published

2022

6. Inoculation with ASFV-Katanga-350 Partially Protects Pigs from Death during Subsequent Infection with Heterologous Type ASFV-Stavropol 01/08

Author

Mikhail E. Vlasov, Irina P. Sindryakova, Dmitry A. Kudrjashov, Sergey Y. Morgunov, Olga L. Kolbasova, Valentina M. Lyska, Sergey P. Zhivoderov, Elena Y. Pivova, Vladimir M. Balyshev, Alexey D. Sereda, and Denis V. Kolbasov

Subjects

African swine fever virus, seroimmunotype, genotype, attenuated strains, heterologous protection, Microbiology, QR1-502

Abstract

African swine fever virus (ASFV) is an extremely genetically and phenotypically heterogeneous pathogen. Previously, we have demonstrated that experimental inoculation of pigs with an attenuated strain, Katanga-350 (genotype I, seroimmunotype I) (ASFV-Katanga-350), can induce protective immunity in 80% of European domestic pigs against the homologous virulent European strain Lisbon-57. At least 50% of the surviving pigs received protection from subsequent intramuscular infection with a heterologous virulent strain, Stavropol 01/08 (genotype II, seroimmunotype VIII) (ASFV-Stavropol 01/08). In this study, we assessed clinical signs, the levels of viremia, viral DNA, anti-ASFV antibodies and post-mortem changes caused by subsequent intramuscular injection with ASFV-Katanga-350 and heterologous ASFV-Stavropol 01/08. Inoculation of pigs with the ASFV-Katanga-350 did not protect animals from the disease in the case of the subsequent challenged ASFV-Stavropol 01/08. However, 40% of pigs were protected from death. Moreover, the surviving animals showed no pathomorphological changes or the presence of an infectious virus in the organs after euthanasia at 35 days post challenging. The ability/inability of attenuated strains to form a certain level of protection against heterologous isolates needs a theoretical background and experimental confirmation.

Published

2023

7. Immunobiological Characteristics of the Attenuated African Swine Fever Virus Strain Katanga-350

Author

Alexey D. Sereda, Mikhail E. Vlasov, Galina S. Koltsova, Sergey Y. Morgunov, Dmitry A. Kudrjashov, Irina P. Sindryakova, Olga L. Kolbasova, Valentina M. Lyska, Andrei Y. Koltsov, Sergey P. Zhivoderov, Elena Y. Pivova, Vladimir M. Baluishev, Andrey E. Gogin, and Denis V. Kolbasov

Subjects

African swine fever virus, seroimmunotype, genotype, attenuated strains, immunobiological characteristics, protective immunity, Microbiology, QR1-502

Abstract

The African swine fever virus (ASFV) is the cause of a recent pandemic that is threatening the global pig industry. The virus infects domestic and wild pigs and manifests with a variety of clinical symptoms, depending on the strain. No commercial vaccine is currently available to protect animals from this virus, but some attenuated and recombinant live vaccine candidates might be effective against the disease. This article describes the immunobiological characteristics of one such candidate—the laboratory-attenuated ASFV strain, Katanga-350—which belongs to genotype I. In this study, we assessed clinical signs and post-mortem changes, the levels of viremia and the presence of viral DNA caused by injection of ASF virus strains Katanga-350, Lisbon-57, and Stavropol 08/01. Intramuscular injection of this strain protected 80% of pigs from a virulent strain of the same genotype and seroimmunotype (Lisbon-57). At least 50% of the surviving pigs received protection from subsequent intramuscular infection with a heterologous (genotype II, seroimmunotype VIII) virulent strain (Stavropol 08/01). Virus-specific antibodies were detectable in serum and saliva samples between 8–78 days after the first inoculation of the Katanga-350 strain (the observational period). The results suggested that this strain could serve as a basis for the development of a recombinant vaccine against ASF viruses belonging to seroimmunotype I.

Published

2022

8. Rapid Development of an Effective Newcastle Disease Virus Vaccine Candidate by Attenuation of a Genotype VII Velogenic Isolate Using a Simple Infectious Cloning System

Author

Nannan Wang, Mei Huang, To Sing Fung, Qiong Luo, Jun Xian Ye, Qian Ru Du, Liang Hai Wen, Ding Xiang Liu, and Rui Ai Chen

Subjects

newcastle disease, reverse genetics, attenuated strains, immune protection, vaccination, Veterinary medicine, SF600-1100

Abstract

Genotype-matched vaccines provide ideal protection against infection caused by new Newcastle disease virus (NDV) genotypes or variants even in the vaccinated chickens. In this study, we report a protocol for attenuation and rapid development of a velogenic NDV isolate as an effective vaccine candidate, using a simple and reliable infectious cloning platform. Based on DHN3, a genotype VII velogenic NDV isolate, recombinant rDHN3 was rescued by co-transfection of plasmids expressing the genomic RNA, NDV proteins NP, P and L, and the T7 polymerase without using a helper virus. Subsequently, an attenuated strain rDHN3-mF was produced by substitution of residues from amino acids 112 to 117 in the DHN3 F protein with the corresponding sequence from the LaSota strain. Both rDHN3 and rDHN3-mF are genetically stable during propagation in cell culture and chicken embryos. Further characterization through determination of EID50, MDT and clinical assessments confirmed that rDHN3 is velogenic and rDHN3-mF lentogenic. Vaccination of one-week-old SPF chicks with inactivated rDHN3-mF produced much higher anti-DHN3 antibody response and better protection against live DHN3 challenge than did the commercial LaSota vaccine, providing 100% protection and much earlier viral clearance. This attenuated NDV isolate would merit further development into a vaccine product.

Published

2020

9. Protective Properties of Attenuated Strains of African Swine Fever Virus Belonging to Seroimmunotypes I–VIII

Author

Alexey D. Sereda, Vladimir M. Balyshev, Anna S. Kazakova, Almaz R. Imatdinov, and Denis V. Kolbasov

Subjects

African swine fever, attenuated strains, vaccines, seroimmunotypes, Medicine

Abstract

This article summarizes the study results on the generation of attenuated strains of African swine fever virus (ASFV) of seroimmunotypes I–VIII and the creation of live vaccines for temporary protection of pigs during a period of epizootics in the surveillance zone (a zone adjacent to the area of outbreak). These studies were initiated at the Federal Research Center for Virology and Microbiology (FRCVM, formerly VNIIVViM) at the time of introduction of the pathogen to the Iberian Peninsula in the middle of the 20th century. The developed experimental vaccines against ASFV seroimmunotypes I–V provided protection against virulent strains of homologous seroimmunotypes by day 14 after vaccination, lasting at least four months.

Published

2020

10. Cell wall glycolipids from Corynebacterium pseudotuberculosis strains with different virulences differ in terms of composition and immune recognition

Author

Rebouças, Miriam Flores, Loureiro, Dan, Barral, Thiago Doria, Seyffert, Nubia, Raynal, José Tadeu, Sousa, Thiago Jesus, Figueiredo, Henrique Cesar Pereira, Azevedo, Vasco, Meyer, Roberto, and Portela, Ricardo Wagner

Published

2020

11. Protective properties of attenuated strains of the african swine fever virus in the course of immunodeficiency induced by radiation.

Author

Budarkov, V., Sereda, A., and Balyshev, V.

Abstract

Introduction of the FC-135 strain of an attenuated African swine fever (ASF) virus to immunodeficient swine did not cause clinical signs of the disease and protected them against the virulent strain France- 32. However, inoculation of an attenuated strain MC-200 was the cause of death from ASF of approximately half of animals with immunodeficiency and provided partial protection from further infection with the virulent strain Mozambique-78. Since reversions of virulent properties of the MC-200 strain have not been registered, the cause of death of pigs inoculated with the strain is the development of ASF against the background of immunodeficiency induced by radiation. [ABSTRACT FROM AUTHOR]

Published

2017

12. Modelación in vitro del desempeño ambiental de la cepa vacunal Vibrio cholerae 638.

Author

Payne Delíz, Gardenia, Ledón Pérez, Talena, and Fando Calzada, Rafael

Subjects

*VIBRIO cholerae, *CHOLERA vaccines, *ORAL vaccines, *CHOLERA, *MICROBIAL virulence

Abstract

The attenuated strain Vibrio cholerae 638 (O1, El Tor, Ogawa) is the active ingredient of oral vaccine candidate CV638, product well tolerated and immunogenic in several studies with healthy volunteers. The administration of live attenuated biological agent involves its excretion in the feces of vaccine recipients. Then in the regulatory context, there is concern about its potential environmental impact and the possibility of reversion to virulence. This paper is an experimental approach to the possible performance of such strain on the environment. It was assessed the survival of VC638 using water from different sources in several laboratory conditions. The results suggest that this strain has no advantages over its wild type parental strain to survive in optimum or minimal growth conditions. Strain susceptibility to stress conditions that included sodium dodecyl sulfate and hyperosmotic environment was also determined. The results suggest that the vaccine strain does not possess properties that favor its performance against these agents. In addition, it was tested their resistance to horizontal gene transmission, concluding that VC638, as toxigenic strains currently circulating in the Caribbean, is resistant to natural transformation in the presence of chitin. The transformation frequency of VC638 is 10³ times lower than that of its toxigenic parental strain. Finally, VC 638 showed no signs of possible advantages to compete and survive in natural environments. [ABSTRACT FROM AUTHOR]

Published

2017

13. P2-type ATPases as targets for the attenuation of Mycobacterium tuberculosis

Author

Maya Hoyos, Milena, Soto Ospina, Carlos Yesid, and Bioquímica y Biología Molecular de las Micobacterias

Subjects

Attenuated strains, Técnica de recombinería, Calcio, P-type ATPase, ATPasas tipo P, Mycobacterium tuberculosis, 616 - Enfermedades [610 - Medicina y salud], Mycobacterial recombineering, Cepas atenuadas

Abstract

ilustraciones, fotografías, graficas, tablas La tuberculosis (TB) es una enfermedad infecciosa causada por el bacilo ácido alcohol resistente Mycobacterium tuberculosis (Mtb). La TB es una amenaza para la salud pública, debido a su alta incidencia, la aparición de cepas multi-fármaco-resistentes (MDR) y extremadamente-fármaco-resistentes (XDR), la coinfección con VIH y la eficacia limitada de la vacuna BCG. El diseño de nuevas estrategias de control requiere una mejor comprensión de los mecanismos moleculares utilizados por Mtb para ser un patógeno intracelular tan exitoso. En este sentido, algunos estudios han sugerido la importancia de las ATPasas tipo P en la fisiología y la supervivencia intracelular de las micobacterias. Un meta-análisis del perfil transcripcional de las ATPasas tipo P de Mtb bajo condiciones de estrés como hipoxia, estrés oxidativo, inanición, intoxicación por agentes químicos y procesos de infección in vitro e in vivo, evidenció la expresión diferencial de estos transportadores frente a estas condiciones. De las 12 ATPasas tipo P presentes en el genoma de Mtb, CtpF, que codifica para un transportador de Ca2+, es la ATPasa que muestra mayores niveles de transcripción en las diferentes condiciones de estrés. Particularmente, varias ATPasas tipo P (ctpF, ctpG, ctpC, ctpH y ctpV) exhibieron un aumento en los niveles de expresión durante la infección de macrófagos humanos, sugiriendo la importancia de dichas proteínas en los procesos de infección. Considerando la relevancia funcional de las ATPasas tipo P, el objetivo principal de este trabajo fue evaluar el efecto de la deleción de ATPasas tipo P transportadoras de metales alcalino/alcalinotérreos en la viabilidad y virulencia de Mtb. Para lograr este objetivo, mediante técnicas de recombinería se construyeron los mutantes defectivos en los genes ctpF y ctpH de Mtb, y a partir de distintos análisis funcionales con las cepas mutantes, se demostró que ambos transportadores están implicados en el eflujo de Ca2+. Adicionalmente, las cepas mutantes (MtbΔctpF y MtbΔctpH) mostraron hipersensibilidad frente agentes oxidantes en comparación con la cepa tipo silvestre (MtbWT), indicando un vinculo entre el transporte de Ca2+ y los mecanismos que utiliza el bacilo para neutralizar especies reactivas del ambiente intrafagosomal. Por otro lado, se evaluó en un modelo celular y animal el efecto de la deleción del gen ctpF en la virulencia Mtb. Así, se evidenció que dicha mutación genera una disminución significativa en la capacidad replicativa de Mtb en macrófagos alveolares murinos de la línea celular MH-S. Asimismo, se comparó la virulencia de las cepas MtbΔctpF y MtbWT en un ensayo de sobrevida en ratones BALB/c, encontrando que los ratones infectados con la cepa mutante mostraban mayor tiempo medio de supervivencia, sugiriendo la atenuación de la cepa mutante. Finalmente, se comprobó la existencia de estrategias complementarias que permiten contrarrestar deficiencias en el transporte iónico mediado por las ATPasa tipo P en Mtb. En efecto, se encontró que la cepa MtbΔctpF sobreexpresa el gen ctpH frente a concentraciones tóxicas de Ca2+ y durante los procesos de infección in vitro. De manera similar, el mutante MtbΔctpH sobreexpresó el gen ctpF bajo condiciones tóxicas de Ca2+, sugiriendo una posible actividad compensatoria entre CtpF y CtpH en Mtb. En general, los resultados obtenidos en este trabajo demuestran que las Ca+2-ATPasas están involucradas en la respuesta frente sustancias tóxicas, siendo fundamentales para la supervivencia celular de Mtb. Además, CtpF es relevante para la proliferación intracelular, y su deleción genera atenuación del bacilo tuberculoso en un modelo experimental de TB pulmonar. De esta manera, CtpF es fundamental para la virulencia de Mtb, por lo que podría considerarse un interesante blanco de atenuación. (texto tomado de la fuente) Tuberculosis (TB) is an infectious disease caused by the acid and alcohol-resistant bacillus Mycobacterium tuberculosis (Mtb). TB is considered a public health threat due to its high incidence, the emergence of drug-resistant strains (MDR and XDR), coinfection with HIV, and the limited efficacy of the BCG vaccine. Consequently, the design of new TB control strategies relies on a better comprehension of the molecular mechanisms used by Mtb to be a successful intracellular pathogen. In this sense, some studies have suggested that P-type ATPases are relevant to the physiology and intracellular survival of mycobacteria. Specifically, a meta-analysis of the transcriptional levels of Mtb P-type ATPases under conditions of hypoxia, oxidative stress, starvation, intoxication by chemical agents, and in vitro and in vivo infection processes indicated that these transporters are differentially expressed in these situations. Among the 12 P-type ATPases encoded in the Mtb genome, CtpF encodes a Ca2+ transporter and is the most activated against the conditions studied. Furthermore, several P-type ATPases (ctpF, ctpG, ctpC, ctpH, and ctpV) show over-expression during infection of human macrophages, suggesting the relevance of these proteins in the infection process. Therefore, the main objective of this study was to evaluate the effect of the deletion of alkali/alkaline earth metal-transporting P-type ATPases on the viability and virulence of Mtb. For this, recombination techniques were applied to construct mutants defective in the Mtb ctpF and ctpH genes that encode alkali/alkaline earth metal-transporting ATPases. Diverse functional analyses of these mutants demonstrated that both transporters are involved in Ca2+ efflux. Additionally, the mutant strains (MtbΔctpF and MtbΔctpH) showed hypersensitivity to oxidizing agents compared to the wild type strain (MtbWT), indicating a link between Ca2+ transport and the mechanism used by the bacillus to neutralize reactive species in the intraphagosomal environment. Moreover, the effect ctpF gene deletion on Mtb virulence was evaluated in cellular and animal infection models. Accordingly, this deletion generated a significant decrease in the replicative capacity of Mtb in murine alveolar macrophages of the MH-S cell line. Furthermore, a comparison of the virulence of MtbΔctpF and MtbWT strains through survival tests in BALB/c mice demonstrated that mice infected with the mutant strain showed a longer mean survival time, suggesting the attenuation of the deleted strain. Finally, the existence of a possible compensatory mechanism to counteract deficiencies in ion transport mediated by P-type ATPases in Mtb was evaluated. Indeed, the MtbΔctpF strain over-expresses the ctpH gene against toxic concentrations of Ca2+ and during in vitro infection processes. Similarly, the MtbΔctpH mutant over-expresses the ctpF gene under toxic concentrations of Ca2+, suggesting a possible compensatory activity between ctpF and ctpH in Mtb. This study demonstrates that Ca+2-ATPases are involved in the response to toxic substances, being essential for Mtb survival. Furthermore, CtpF is required for the intracellular proliferation of the mycobacteria, whereas its deletion attenuates the bacillus in an experimental model of pulmonary TB. Overall, CtpF is critical for Mtb virulence and can be an interesting attenuation target. Convocatoria nacional para el apoyo a proyectos de investigación y creación artística de la Universidad Nacional de Colombia 2017-2018 (Código 2010100-29088). Convocatoria nacional para el fomento de alianzas interdisciplinarias que articulen investigación, creación, extensión y formación en la Universidad Nacional de Colombia 2019-2021 (Código 2010100-29665). Doctorado Doctor en Ciencias - Bioquímica Para el desarrollo de los objetivos propuestos en el presente trabajo, se estableció una estrategia experimental que incluyó herramientas bioquímicas, microbiológicas y de biología molecular. Hospedero-Patógeno

Published

2021

14. ESX-1-induced apoptosis during mycobacterial infection: to be or not to be, that is the question

Author

Juan I Aguilo, Dessislava eMarinova, Carlos eMartin, and Julian ePardo

Subjects

Apoptosis, Cell Death, Mycobacterium tuberculosis, Necrosis, Virulence, attenuated strains, Microbiology, QR1-502

Abstract

The major Mycobacterium tuberculosis virulence factor ESAT-6 exported by the ESX-1 secretion system has been described as a pro-apoptotic factor by several independent groups in recent years, sustaining a role for apoptosis in M. tuberculosis pathogenesis. This role has been supported by independent studies in which apoptosis has been shown as a hallmark feature in human and mouse lungs infected with virulent strains. Nevertheless, the role of apoptosis during mycobacterial infection is subject to an intense debate. Several works maintain that apoptosis is more evident with attenuated strains, whereas virulent mycobacteria tend to inhibit this process, suggesting that apoptosis induction may be a host mechanism to control infection. In this review, we summarize the evidences that support the involvement of ESX-1-induced apoptosis in virulence, intending to provide a rational treatise for the role of programmed cell death during M. tuberculosis infection.

Published

2013

15. Modelación in vitro del comportamiento ambiental de cepas atenuadas de Vibrio cholerae O139.

Author

Ledón, Talena, Hernández, Daneylis D., Marrero, Karen, and Fando, Rafael

Subjects

*VIBRIO cholerae, *CHOLERA vaccines, *VACCINE manufacturing, *VACCINE effectiveness, *VIRAL diarrhea, *HEMAGGLUTININ, *VACCINATION

Abstract

Vibrio cholerae, serogroups O1 and O139, is the causative agent of cholera diarrheal disease. Much of the research aimed to develop oral cholera vaccines is directed to the production of live attenuated strains, such as the V. cholerae O139 TLP01 and TLP05 strains. These two strains lack CTXɸ prophage genes and do not produce the hemagglutinin protease, a relevant pathogenesis factor, and the mannose-sensitive hemagglutinin fimbria, which could play an important role in the environmental behavior. In this work, different in vitro models were used to study the potential environmental performance of these two strains. Their ability to produce different types of biofilms, to acquire rugose phenotype and to resist different environmental stress conditions such as the presence of chlorine, detergents or high salt concentrations, were assessed. Significantly, the TLP01 and TLP05 strains displayed characteristics that limit their in vitro survival under different stress conditions, with respect to controls and wild type strains. Such behavior under harsh environmental settings may limit their survival and act for their containment while using them as active ingredients for the development of a cholera vaccine candidate. [ABSTRACT FROM AUTHOR]

Published

2014

16. Protective Properties of Attenuated Strains of African Swine Fever Virus Belonging to Seroimmunotypes I–VIII

Author

Vladimir M. Balyshev, A.D. Sereda, Anna S. Kazakova, A.R. Imatdinov, and Denis Kolbasov

Subjects

0301 basic medicine, Microbiology (medical), General Immunology and Microbiology, African swine fever, biology, 030106 microbiology, lcsh:R, seroimmunotypes, Virulence, Outbreak, lcsh:Medicine, Review, vaccines, biology.organism_classification, African swine fever virus, Virology, Vaccination, 03 medical and health sciences, 030104 developmental biology, Infectious Diseases, attenuated strains, Immunology and Allergy, Molecular Biology, Pathogen

Abstract

This article summarizes the study results on the generation of attenuated strains of African swine fever virus (ASFV) of seroimmunotypes I–VIII and the creation of live vaccines for temporary protection of pigs during a period of epizootics in the surveillance zone (a zone adjacent to the area of outbreak). These studies were initiated at the Federal Research Center for Virology and Microbiology (FRCVM, formerly VNIIVViM) at the time of introduction of the pathogen to the Iberian Peninsula in the middle of the 20th century. The developed experimental vaccines against ASFV seroimmunotypes I–V provided protection against virulent strains of homologous seroimmunotypes by day 14 after vaccination, lasting at least four months.

Published

2020

17. ESX-1-induced apoptosis during mycobacterial infection: to be or not to be, that is the question.

Author

Aguiló, Nacho, Marinova, Dessislava, Martín, Carlos, and Pardo, Julián

Subjects

APOPTOSIS inducing factor, FLAVOPROTEINS, CELL death, MEDICAL microbiology, MYCOBACTERIAL diseases

Abstract

The major Mycobacterium tuberculosis virulence factor ESAT-6 exported by the ESX-1 secretion system has been described as a pro-apoptotic factor by several independent groups in recent years, sustaining a role for apoptosis in M.tuberculosis pathogenesis. This role has been supported by independent studies in which apoptosis has been shown as a hallmark feature in human and mouse lungs infected with virulent strains. Nevertheless, the role of apoptosis during mycobacterial infection is subject to an intense debate. Several works maintain that apoptosis is more evident with attenuated strains, whereas virulent mycobacteria tend to inhibit this process, suggesting that apoptosis induction may be a host mechanism to control infection. In this review, we summarize the evidences that support the involvement of ESX-1-induced apoptosis in virulence, intending to provide a rational treatise for the role of programmed cell death during M. tuberculosis infection. [ABSTRACT FROM AUTHOR]

Published

2013

18. Current State of Cholera Specific Prophylaxis

Author

I. A. Bespalova, I. A. Ivanova, N. D. Omelchenko, A. V. Filippenko, and A. A. Trufanova

Subjects

Epidemiology, business.industry, Immunogenicity, Public Health, Environmental and Occupational Health, vibrio cholerae, vaccines, immunogenicity, medicine.disease_cause, medicine.disease, Virology, Cholera, Infectious Diseases, attenuated strains, Vibrio cholerae, protectivity, BD143-237, Medicine, Epistemology. Theory of knowledge, business, Cholera vaccine

Abstract

The threat of cholera spread beyond the borders of endemic countries and the realness of the emergence of introduced epidemic foci remain the actual problems and neccessitate continuous development of specific prophylaxis of this disease. The review is dedicated to the analysis of the effectiveness of licensed cholera vaccines as well as to possible perspectives of the advancement of cholera specific prophylaxis.

Published

2018

19. A study of molecular mechanisms of rubella virus attenuation evidenced from the Russian C-77 strain.

Author

Dmitriev, G., Borisova, T., Faizuloev, E., Zabiyaka, Yu., Desyatskova, R., and Zverev, V.

Abstract

Live attenuated vaccine is used for vaccination. The temperature-sensitive (ts) phenotype is characteristic for almost all vaccinal rubella strains. The acquisition of the temperature-sensitive phenotype during adaptation to cold is strongly correlated with attenuation of the wild-type virus. Nevertheless, the molecular mechanisms of rubella virus attenuation have been insufficiently studied. Hence, it is still urgent to study the mechanisms of wild-type virus attenuation and search for key mutations leading to attenuation, as well as detect phenotypic signs that may serve as attenuation markers and be used, along with sequencing, for vaccinal strain genetic stability supervision. This study presents complete genome sequencing of the wild-type (wt) and cold-adapted (ca) C-77 rubella strain variants isolated in Russia; probable genetic determinants have been revealed. After comparison of the wt and ca genomes of the C-77 strain, 13 nucleotide differences were detected, of which six resulted in amino acid substitutions; four differences out of the six that result in these substitutions virtually do not occur in wild-type strains of the rubella virus. Tyr1042Cys substitution is of special interest in the protease domain of the C-77 strain, which likely plays a crucial role in cold-adapted phenotype acquisition by the C-77 strain. [ABSTRACT FROM AUTHOR]

Published

2012

20. Biomodelo para la evaluación de cepas atenuadas como candidatos vacunales contra el cólera humano. I. Estudio de la virulencia, capacidad de colonización y adherencia a la mucosa intestinal.

Author

Oliva, Reynaldo, García, Hilda, Infante, Juan F., García, Luis, Pérez, José L., Cedré, Bárbara, Balmaceda, Tania, Talavera, Arturo, and Año, Gemma

Subjects

*BIOLOGICAL models, *VIBRIO cholerae, *VACCINES, *CHOLERA vaccines, *MICROBIAL virulence, *INTESTINAL mucosa

Abstract

Cholera is still a human health problem in many countries. It is an epidemic or endemic disease affecting both children and adults that causes death of untreated cases. A live oral vaccine could be the solution against this disease. In the present study a biomodel was selected and applied for the evaluation of genetically attenuated Vibrio cholerae strains as vaccine candidates. The virulence, colonizing capacity and adherence to the intestinal mucosa of the strains were evaluated using 2-4 day-old neonatal Balb/c mice, weighing from 1.5-2 g. The results obtained with this biomodel showed that genetically attenuated strains are not virulent, colonize and adhere to the intestinal mucosa. The conclusion was that the biomodel used allows the evaluation and selection of candidate strains for live oral cholera vaccines. [ABSTRACT FROM AUTHOR]

Published

2008

21. Mycobacterium tuberculosis ΔRD1 ΔpanCD: A safe and limited replicating mutant strain that protects immunocompetent and immunocompromised mice against experimental tuberculosis

Author

Sambandamurthy, Vasan K., Derrick, Steven C., Hsu, Tsungda, Chen, Bing, Larsen, Michelle H., Jalapathy, Kripa V., Chen, Mei, Kim, John, Porcelli, Steven A., Chan, John, Morris, Sheldon L., and Jacobs, William R.

Subjects

*MYCOBACTERIAL diseases, *LUNG diseases, *TUBERCULOSIS, *BCG vaccines

Abstract

Abstract: The global epidemic of tuberculosis (TB), fueled by the growing HIV pandemic, warrants the development of a safe and effective vaccine against TB. We report the construction and characterization of an unlinked double deletion mutant of Mycobacterium tuberculosis H37Rv that deletes both the primary attenuating mutation of BCG (ΔRD1) and two genes required for the synthesis of pantothenate (ΔpanCD). The M. tuberculosis ΔRD1 ΔpanCD (mc26030) mutant undergoes limited replication in mice, and yet is both significantly safer than BCG in immunocompromised mice and also safe in guinea pigs. Additionally, the mc26030 strain does not reactivate in a mouse chemo-immunosuppression model. Importantly, long-lived protective immune responses following immunization with the mc26030 strain prolong the survival of wild type mice, and CD4-deficient mice against an aerosol challenge with virulent M. tuberculosis. Given its overall safety and effectiveness, the mc26030 live attenuated strain should be considered as a human vaccine candidate for protecting both healthy and HIV-infected individuals against TB. [Copyright &y& Elsevier]

Published

2006

22. Attenuated Salmonella and Shigella as Carriers for DNA Vaccines.

Author

Xu, F. and Ulmer, J. B.

Subjects

*SALMONELLA, *SHIGELLA, *DNA vaccines, *IMMUNE response, *GENES

Abstract

The discovery that genes can be functionally transferred from bacteria to mammalian cells has suggested the possible use of bacterial vectors as gene delivery vehicles for vaccines. Attenuated invasive human intestinal bacteria, such as Salmonella and Shigella , have been used as plasmid DNA vaccine carriers and their potency has been evaluated in several animal models. This delivery system allows the administration of DNA vaccines together with associated bacterial immunostimulators directly to professional antigen presenting cells via human mucosal surfaces. Various strategies have been taken to improve the use of this delivery system to achieve robust immune responses at both mucosal and systemic sites of the immunized animals. [ABSTRACT FROM AUTHOR]

Published

2003

23. Genetic diversity of Babesia bovis in virulent and attenuated strains.

Author

MAZUZ, M. L., MOLAD, T., FISH, L., LEIBOVITZ, B., WOLKOMIRSKY, R., FLEIDEROVITZ, L., and SHKAP, V.

Subjects

*GENETIC variation, *BABESIA, *MOLECULAR cloning, *SEQUENCE analysis, *TANDEM repeats, *PATTERNS (Mathematics)

Abstract

SUMMARY: The aim of this study was to compare the genetic diversity of the single copy Bv80 gene sequences of Babesia bovis in populations of attenuated and virulent parasites. PCR/ RT-PCR followed by cloning and sequence analyses of 4 attenuated and 4 virulent strains were performed. Multiple fragments in the range of 420 to 744 bp were amplified by PCR or RT-PCR. Cloning of the PCR fragments and sequence analyses revealed the presence of mixed subpopulations in either virulent or attenuated parasites with a total of 19 variants with 12 different sequences that differed in number and type of tandem repeats. High levels of intra- and inter-strain diversity of the Bv80 gene, with the presence of mixed populations of parasites were found in both the virulent field isolates and the attenuated vaccine strains. In addition, during the attenuation process, sequence analyses showed changes in the pattern of the parasite subpopulations. Despite high polymorphism found by sequence analyses, the patterns observed and the number of repeats, order, or motifs found could not discriminate between virulent field isolates and attenuated vaccine strains of the parasite. [ABSTRACT FROM AUTHOR]

Published

2012

24. Protective Properties of Attenuated Strains of African Swine Fever Virus Belonging to Seroimmunotypes I–VIII.

Author

Sereda, Alexey D., Balyshev, Vladimir M., Kazakova, Anna S., Imatdinov, Almaz R., and Kolbasov, Denis V.

Subjects

AFRICAN swine fever, AFRICAN swine fever virus

Abstract

This article summarizes the study results on the generation of attenuated strains of African swine fever virus (ASFV) of seroimmunotypes I–VIII and the creation of live vaccines for temporary protection of pigs during a period of epizootics in the surveillance zone (a zone adjacent to the area of outbreak). These studies were initiated at the Federal Research Center for Virology and Microbiology (FRCVM, formerly VNIIVViM) at the time of introduction of the pathogen to the Iberian Peninsula in the middle of the 20th century. The developed experimental vaccines against ASFV seroimmunotypes I–V provided protection against virulent strains of homologous seroimmunotypes by day 14 after vaccination, lasting at least four months. [ABSTRACT FROM AUTHOR]

Published

2020

25. Rapid Development of an Effective Newcastle Disease Virus Vaccine Candidate by Attenuation of a Genotype VII Velogenic Isolate Using a Simple Infectious Cloning System.

Author

Wang N, Huang M, Fung TS, Luo Q, Ye JX, Du QR, Wen LH, Liu DX, and Chen RA

Abstract

Genotype-matched vaccines provide ideal protection against infection caused by new Newcastle disease virus (NDV) genotypes or variants even in the vaccinated chickens. In this study, we report a protocol for attenuation and rapid development of a velogenic NDV isolate as an effective vaccine candidate, using a simple and reliable infectious cloning platform. Based on DHN3, a genotype VII velogenic NDV isolate, recombinant rDHN3 was rescued by co-transfection of plasmids expressing the genomic RNA, NDV proteins NP, P and L, and the T7 polymerase without using a helper virus. Subsequently, an attenuated strain rDHN3-mF was produced by substitution of residues from amino acids 112 to 117 in the DHN3 F protein with the corresponding sequence from the LaSota strain. Both rDHN3 and rDHN3-mF are genetically stable during propagation in cell culture and chicken embryos. Further characterization through determination of EID 50 , MDT and clinical assessments confirmed that rDHN3 is velogenic and rDHN3-mF lentogenic. Vaccination of one-week-old SPF chicks with inactivated rDHN3-mF produced much higher anti-DHN3 antibody response and better protection against live DHN3 challenge than did the commercial LaSota vaccine, providing 100% protection and much earlier viral clearance. This attenuated NDV isolate would merit further development into a vaccine product., (Copyright © 2020 Wang, Huang, Fung, Luo, Ye, Du, Wen, Liu and Chen.)

Published

2020

26. Hypersensitivity of hypoxia grown Mycobacterium smegmatis to DNA damaging agents: implications of the DNA repair deficiencies in attenuation of mycobacteria.

Author

Rex K, Kurthkoti K, and Varshney U

Subjects

Aerobiosis drug effects, Bacterial Proteins genetics, Bacterial Proteins metabolism, DNA Helicases genetics, DNA Helicases metabolism, Microbial Viability genetics, Mycobacterium smegmatis genetics, Reactive Nitrogen Species metabolism, Reactive Oxygen Species metabolism, Uracil-DNA Glycosidase genetics, Uracil-DNA Glycosidase metabolism, DNA Damage, DNA Repair physiology, Microbial Viability drug effects, Mycobacterium smegmatis metabolism, Reactive Nitrogen Species pharmacology, Reactive Oxygen Species pharmacology

Abstract

Mycobacteria are an important group of pathogenic bacteria. We generated a series of DNA repair deficient strains of Mycobacterium smegmatis, a model organism, to understand the importance of various DNA repair proteins (UvrB, Ung, UdgB, MutY and Fpg) in survival of the pathogenic strains. Here, we compared tolerance of the M. smegmatis strains to genotoxic stress (ROS and RNI) under aerobic, hypoxic and recovery conditions of growth by monitoring their survival. We show an increased susceptibility of mycobacteria to genotoxic stress under hypoxia. UvrB deficiency led to high susceptibility of M. smegmatis to the DNA damaging agents. Ung was second in importance in strains with single deficiencies. Interestingly, we observed that while deficiency of UdgB had only a minor impact on the strain's susceptibility, its combination with Ung deficiency resulted in severe consequences on the strain's survival under genotoxic stress suggesting a strong interdependence of different DNA repair pathways in safeguarding genomic integrity. Our observations reinforce the possibility of targeting DNA repair processes in mycobacteria for therapeutic intervention during active growth and latency phase of the pathogen. High susceptibility of the UvrB, or the Ung/UdgB deficient strains to genotoxic stress may be exploited in generation of attenuated strains of mycobacteria., (Copyright © 2013 Elsevier Ireland Ltd. All rights reserved.)

Published

2013