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1.
Int Rev Immunol ; 32(3): 282-306, 2013 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-23617796

RESUMO

Infections with HIV represent a great challenge for the development of strategies for an effective cure. The spectrum of diseases associated with HIV ranges from opportunistic infections and cancers to systemic physiological disorders like encephalopathy and neurocognitive impairment. A major progress in controlling HIV infection has been achieved by highly active antiretroviral therapy (HAART). However, HAART does neither eliminate the virus reservoirs in form of latently infected cells nor does it completely reconstitute immune reactivity and physiological status. Furthermore, the failure of the STEP vaccine trial and the only marginal efficacies of the RV144 trial together suggest that the causal relationships between the complex sets of viral and immunological processes that contribute to protection or disease pathogenesis are still poorly understood. Here, we provide an up-to-date overview of HIV-host interactions at the cellular, the immune system and the neuroendocrine systems level. Only by integrating this multi-level knowledge one will be able to handle the systems complexity and develop new methodologies of analysis and prediction for a functional restoration of the immune system and the health of the infected host.


Assuntos
Vacinas contra a AIDS/uso terapêutico , Infecções por HIV/imunologia , Infecções por HIV/terapia , HIV-1 , Sistema Imunitário/imunologia , Sistemas Neurossecretores/imunologia , Animais , Terapia Antirretroviral de Alta Atividade , Comunicação Celular , Ensaios Clínicos como Assunto , Infecções por HIV/tratamento farmacológico , Humanos , Sistema Imunitário/virologia , Imunidade Celular , Sistemas Neurossecretores/virologia , Falha de Tratamento , Replicação Viral
2.
Vaccine ; 29(33): 5379-85, 2011 Jul 26.
Artigo em Inglês | MEDLINE | ID: mdl-21679736

RESUMO

One of the main criticisms to DNA vaccines is the poor immunogenicity that they confer on occasions, at least in large animals. Confirming this theory, immunization with plasmid DNA encoding two African swine fever virus genes in frame (pCMV-PQ), failed in inducing detectable immune responses in pigs, while it was successful in mice. Aiming to improve the immune responses induced in swine, a new plasmid was constructed, encoding the viral genes fused in frame with a single chain variable fragment of an antibody specific for a swine leukocyte antigen II (pCMV-APCH1PQ). Our results clearly demonstrate that targeting antigens to antigen professional cells exponentially enhanced the immune response induced in pigs, albeit that the DNA vaccine was not able to confer protection against lethal viral challenge. Indeed, a viremia exacerbation was observed in each of the pigs that received the pCMV-APCH1PQ plasmid, this correlating with the presence of non-neutralizing antibodies and antigen-specific SLA II-restricted T-cells. The implications of our discoveries for the development of future vaccines against African swine fever virus and other swine pathogens are discussed.


Assuntos
Vírus da Febre Suína Africana/imunologia , Antígenos de Histocompatibilidade Classe II/imunologia , Vacinas de DNA/imunologia , Febre Suína Africana/imunologia , Febre Suína Africana/prevenção & controle , Vírus da Febre Suína Africana/genética , Animais , Células Apresentadoras de Antígenos/imunologia , Antígenos de Histocompatibilidade Classe I , Antígenos de Histocompatibilidade Classe II/genética , Imunização/métodos , Camundongos , Suínos , Vacinas de DNA/administração & dosagem
3.
J Virol Methods ; 168(1-2): 38-43, 2010 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-20417663

RESUMO

In this study, a new in situ hybridisation (ISH) protocol has been developed to identify African swine fever virus (ASFV) genome in formalin-fixed, paraffin-embedded tissues. Different digoxigenin labelled ASFV-probes were tested, including single ASFV-specific oligonucleotides, an 18.5kb restriction fragment from the viral genome and the entire ASFV genome. The latter showed the highest sensitivity in all tissues tested, independently of the virus used for challenge: E75L or Ba71L. Although a similar ASFV genome distribution was observed, the number of ISH-positive cells was higher for Ba71L compared to E75L infected tissues. As expected, the monocyte-macrophage cell lineage was the main target cell for ASFV infection. Corresponding with the last stages of infection, ISH-positive signals were also found in other cell types, including endothelial cells, hepatocytes and neutrophils. Furthermore, two unexpected findings were also noticed: the detection of a specific ISH-signal in lymphocytes and a tendency to find the signal in the nucleus of infected cells. In summary, the present findings demonstrate the utility of this new ISH protocol to study ASFV pathogenesis and its potential use as a diagnostic tool.


Assuntos
Vírus da Febre Suína Africana/isolamento & purificação , Febre Suína Africana/diagnóstico , Núcleo Celular/virologia , DNA Viral/isolamento & purificação , Hibridização In Situ/métodos , Patologia Molecular/métodos , Virologia/métodos , Febre Suína Africana/virologia , Vírus da Febre Suína Africana/genética , Animais , DNA Viral/genética , Células Endoteliais/virologia , Fixadores/farmacologia , Formaldeído/farmacologia , Hepatócitos/virologia , Macrófagos/virologia , Monócitos/virologia , Neutrófilos/virologia , Inclusão em Parafina , Suínos
4.
Vet Microbiol ; 142(1-2): 51-8, 2010 Apr 21.
Artigo em Inglês | MEDLINE | ID: mdl-19896784

RESUMO

Classical swine fever (CSF) is a highly contagious viral infection affecting domestic and wild pigs. For classical swine fever virus (CSFV), immunization with plasmids expressing different versions of glycoprotein E2 has proven an effective way to induce protection. Previously, we have also shown that immunization with DNA vaccine expressing glycoprotein E2 (DNA-E2) induced specific T helper cell responses in the absence of neutralizing antibodies. However, the role of T cell responses in protection against CSFV is largely unknown. Here we have extended these studies to deeply characterize the role of T cell responses by a DNA-E2 and their correlation with protection against CSFV infection. Thus, pigs vaccinated with the DNA vaccine induced a strong cellular immune response, characterized by the specific induction IFN-gamma expressing T cells after vaccination without any detectable levels of CSFV neutralizing antibodies. Constant levels of CSFV-specific IFN-gamma producing cells observed from the beginning of the infection until 7 days after challenge in vaccinated animals might contribute to early control of CSFV replication, at least until neutralizing antibodies are developed. Severe clinical signs of the disease, including high titers of viremia, pyrexia and virus spread to different organs, were recorded in the non-vaccinated challenged animals, in comparison to the vaccinated animals where only one animal showed mild clinical signs and a short peak of viremia. Lack of complete protection in this animal correlated with a delay on the induction of neutralizing antibodies, detectable only from day 11 post-CSFV challenge. Conversely, the rest of the pigs within the group developed neutralizing antibodies as early as at day two post-challenge, correlating with sterile protection. Finally, an inverse correlation seemed to exist between early induction of IFN-alpha and the protection observed, while IL-10 seemed to be differentially regulated in vaccinated and non-vaccinated animals. Our results support the relevance of the induction of a strong T cellular response to confer a solid protection upon DNA vaccination against CSFV. Further experiments are needed to be done in order to clarify the key cytokines playing a role in CSFV-protection and to obtain emergency vaccines capable to confer robust and fast protection.


Assuntos
Peste Suína Clássica/imunologia , Peste Suína Clássica/prevenção & controle , Interferon gama/imunologia , Proteínas do Envelope Viral/imunologia , Vacinas Virais/imunologia , Animais , Anticorpos Antivirais/sangue , Linhagem Celular , Vírus da Febre Suína Clássica/imunologia , Suínos , Fatores de Tempo , Vacinas de DNA/imunologia
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