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1.
J Biol Chem ; 295(50): 17114-17127, 2020 12 11.
Artículo en Inglés | MEDLINE | ID: mdl-33028637

RESUMEN

Zika virus (ZIKV) is a neurotropic flavivirus that causes several diseases including birth defects such as microcephaly. Intrinsic immunity is known to be a frontline defense against viruses through host anti-viral restriction factors. Limited knowledge is available on intrinsic immunity against ZIKV in brains. Amyloid precursor protein (APP) is predominantly expressed in brains and implicated in the pathogenesis of Alzheimer's diseases. We have found that ZIKV interacts with APP, and viral infection increases APP expression via enhancing protein stability. Moreover, we identified the viral peptide, HGSQHSGMIVNDTGHETDENRAKVEITPNSPRAEATLGGFGSLGL, which is capable of en-hancing APP expression. We observed that aging brain tissues with APP had protective effects on ZIKV infection by reducing the availability of the viruses. Also, knockdown of APP expression or blocking ZIKV-APP interactions enhanced ZIKV replication in human neural progenitor/stem cells. Finally, intracranial infection of ZIKV in APP-null neonatal mice resulted in higher mortality and viral yields. Taken together, these findings suggest that APP is a restriction factor that protects against ZIKV by serving as a decoy receptor, and plays a protective role in ZIKV-mediated brain injuries.


Asunto(s)
Precursor de Proteína beta-Amiloide/biosíntesis , Encéfalo/metabolismo , Regulación de la Expresión Génica , Replicación Viral , Infección por el Virus Zika/metabolismo , Virus Zika/fisiología , Precursor de Proteína beta-Amiloide/genética , Animales , Encéfalo/patología , Encéfalo/virología , Humanos , Ratones , Ratones Noqueados , Células-Madre Neurales/metabolismo , Células-Madre Neurales/patología , Células-Madre Neurales/virología , Infección por el Virus Zika/genética
2.
J Virol ; 91(20)2017 10 15.
Artículo en Inglés | MEDLINE | ID: mdl-28794023

RESUMEN

Epstein-Barr virus (EBV) is associated with multiple human malignancies. EBV latent membrane protein 1 (LMP1) is required for the efficient transformation of primary B lymphocytes in vitro and possibly in vivo The tumor suppressor p53 plays a seminal role in cancer development. In some EBV-associated cancers, p53 tends to be wild type and overly expressed; however, the effects of p53 on LMP1 expression is not clear. We find LMP1 expression to be associated with p53 expression in EBV-transformed cells under physiological and DNA damaging conditions. DNA damage stimulates LMP1 expression, and p53 is required for the stimulation. Ectopic p53 stimulates endogenous LMP1 expression. Moreover, endogenous LMP1 blocks DNA damage-mediated apoptosis. Regarding the mechanism of p53-mediated LMP1 expression, we find that interferon regulatory factor 5 (IRF5), a direct target of p53, is associated with both p53 and LMP1. IRF5 binds to and activates a LMP1 promoter reporter construct. Ectopic IRF5 increases the expression of LMP1, while knockdown of IRF5 leads to reduction of LMP1. Furthermore, LMP1 blocks IRF5-mediated apoptosis in EBV-infected cells. All of the data suggest that cellular p53 stimulates viral LMP1 expression, and IRF5 may be one of the factors for p53-mediated LMP1 stimulation. LMP1 may subsequently block DNA damage- and IRF5-mediated apoptosis for the benefits of EBV. The mutual regulation between p53 and LMP1 may play an important role in EBV infection and latency and its related cancers.IMPORTANCE The tumor suppressor p53 is a critical cellular protein in response to various stresses and dictates cells for various responses, including apoptosis. This work suggests that an Epstein-Bar virus (EBV) principal viral oncogene is activated by cellular p53. The viral oncogene blocks p53-mediated adverse effects during viral infection and transformation. Therefore, the induction of the viral oncogene by p53 provides a means for the virus to cope with infection and DNA damage-mediated cellular stresses. This seems to be the first report that p53 activates a viral oncogene; therefore, the discovery would be interesting to a broad readership from the fields of oncology to virology.


Asunto(s)
Regulación Viral de la Expresión Génica , Herpesvirus Humano 4/fisiología , Proteína p53 Supresora de Tumor/metabolismo , Proteínas de la Matriz Viral/genética , Latencia del Virus/genética , Apoptosis , Línea Celular Tumoral , Transformación Celular Viral , Daño del ADN , Herpesvirus Humano 4/genética , Humanos , Factores Reguladores del Interferón/deficiencia , Factores Reguladores del Interferón/genética , Factores Reguladores del Interferón/metabolismo , Regiones Promotoras Genéticas , Proteína p53 Supresora de Tumor/genética , Proteínas de la Matriz Viral/biosíntesis
3.
J Virol ; 90(1): 180-8, 2016 01 01.
Artículo en Inglés | MEDLINE | ID: mdl-26468534

RESUMEN

UNLABELLED: Kaposi's sarcoma (KS)-associated herpesvirus (KSHV) is a human gammaherpesvirus associated with several human malignancies. The replication and transcription activator (RTA) is necessary and sufficient for the switch from KSHV latency to lytic replication. Interleukin 1 (IL-1) is a major mediator for inflammation and plays an important role in both innate and adaptive immunity. Myeloid differentiation primary response gene 88 (MyD88) is an essential adaptor molecule for IL-1 as well as most Toll-like receptor signaling. In this study, we identified a novel mechanism by which KSHV interferes with host inflammation and immunity. KSHV RTA specifically reduces the steady-state protein levels of MyD88, and physiological levels of MyD88 are downregulated during KSHV lytic replication when RTA is expressed. The N-terminal region of RTA is required for the reduction of MyD88. Additional studies demonstrated that RTA targets MyD88 expression at the RNA level, inhibits RNA synthesis of MyD88, and may bind MyD88 RNA. Finally, RTA inhibits IL-1-mediated activation of NF-κB. Because IL-1 is abundant in the KS microenvironment and inhibits KSHV replication, this work may expand our understanding of how KSHV evades host inflammation and immunity for its survival in vivo. IMPORTANCE: MyD88 is an important molecule for IL-1-mediated inflammation and Toll-like receptor (TLR) signaling. This work shows that KSHV inhibits MyD88 expression through a novel mechanism. KSHV RTA may bind to MyD88 RNA, suppresses RNA synthesis of MyD88, and inhibits IL-1-mediated signaling. This work may expand our understanding of how KSHV evades host inflammation and immunity.


Asunto(s)
Regulación hacia Abajo , Herpesvirus Humano 8/inmunología , Herpesvirus Humano 8/fisiología , Interacciones Huésped-Patógeno , Proteínas Inmediatas-Precoces/metabolismo , Factor 88 de Diferenciación Mieloide/biosíntesis , Transactivadores/metabolismo , Línea Celular , Humanos , Evasión Inmune , Interleucina-1/antagonistas & inhibidores , Factor 88 de Diferenciación Mieloide/antagonistas & inhibidores , FN-kappa B/antagonistas & inhibidores , Unión Proteica , Dominios y Motivos de Interacción de Proteínas , ARN Mensajero/metabolismo
4.
Sci Rep ; 7(1): 14912, 2017 11 02.
Artículo en Inglés | MEDLINE | ID: mdl-29097763

RESUMEN

Mice were immunized with Adenovirus expressing the H1-con, H2-con, H3-con and H5-con HA consensus genes in combination (multivalent) and compared to mice immunized with the traditional 2010-2011 FluZone and FluMist seasonal vaccines. Immunized mice were challenged with 10-100 MLD50 of H1N1, H3N1, H3N2 and H5N1 influenza viruses. The traditional vaccines induced robust levels of HA inhibition (HI) titers, but failed to protect against five different heterologous lethal influenza challenges. Conversely, the multivalent consensus vaccine (1 × 1010 virus particles (vp)/mouse) induced protective HI titers of ≥40 against 8 of 10 influenza viruses that represent a wide degree of divergence within the HA subtypes and protected 100% of mice from 8 of 9 lethal heterologous influenza virus challenges. The vaccine protection was dose dependent, in general, and a dose as low as 5 × 107 vp/mouse still provided 100% survival against 7 of 9 lethal heterologous influenza challenges. These data indicate that very low doses of Adenovirus-vectored consensus vaccines induce superior levels of immunity against a wide divergence of influenza subtypes as compared to traditional vaccines. These doses are scalable and translatable to humans and may provide the foundation for complete and long-lasting anti-influenza immunity.


Asunto(s)
Adenoviridae/genética , Glicoproteínas Hemaglutininas del Virus de la Influenza/genética , Virus de la Influenza A/genética , Vacunas contra la Influenza/genética , Vacunas contra la Influenza/uso terapéutico , Infecciones por Orthomyxoviridae/prevención & control , Animales , Femenino , Glicoproteínas Hemaglutininas del Virus de la Influenza/inmunología , Humanos , Subtipo H1N1 del Virus de la Influenza A/genética , Subtipo H1N1 del Virus de la Influenza A/inmunología , Subtipo H3N2 del Virus de la Influenza A/genética , Subtipo H3N2 del Virus de la Influenza A/inmunología , Subtipo H5N1 del Virus de la Influenza A/genética , Subtipo H5N1 del Virus de la Influenza A/inmunología , Virus de la Influenza A/inmunología , Vacunas contra la Influenza/inmunología , Gripe Humana/inmunología , Gripe Humana/prevención & control , Gripe Humana/virología , Ratones , Ratones Endogámicos BALB C , Infecciones por Orthomyxoviridae/inmunología , Infecciones por Orthomyxoviridae/virología , Vacunación
5.
Virus Res ; 195: 112-8, 2015 Jan 02.
Artículo en Inglés | MEDLINE | ID: mdl-25300801

RESUMEN

The cellular interferon (IFN) regulatory factor-7 (IRF7) is closely associated with the Epstein-Barr virus (EBV)-mediated transformation of B lymphocytes in vitro and in vivo. However, the exact role of IRF7 in viral transformation is not clear. We have found that knockdown of IRF7 leads to growth inhibition of EBV-transformed cells, and restoration of IRF7 by exogenous plasmid correlates with growth recovery of the viral transformed cells. In addition, IRF7-knockdown cells have a lower proliferation but a higher apoptotic rate than control cells. Moreover, reduction of IRF7 leads to reduction of major viral oncoprotein, latent membrane protein 1 (LMP1). Our data suggest that IRF7 may be a factor in EBV transformation and a useful target in the therapy of EBV-mediated neoplasia.


Asunto(s)
Linfocitos B/fisiología , Linfocitos B/virología , Proliferación Celular , Transformación Celular Viral , Herpesvirus Humano 4/fisiología , Factor 7 Regulador del Interferón/metabolismo , Técnicas de Silenciamiento del Gen , Prueba de Complementación Genética , Humanos , Factor 7 Regulador del Interferón/genética , Proteínas de la Matriz Viral/metabolismo
6.
World J Virol ; 3(4): 22-9, 2014 Nov 12.
Artículo en Inglés | MEDLINE | ID: mdl-25396119

RESUMEN

AIM: To investigate the role of nuclear factor κB (NF-κB) in the regulation of Epstein-Barr virus (EBV) latent membrane protein 1 (LMP1) in EBV transformed cells. METHODS: LMP1 expression was examined in EBV transformed human B lymphocytes with modulation of NF-κB activity. RESULTS: EBV infection is associated with several human cancers. EBV LMP1 is required for efficient transformation of adult primary B cells in vitro, and is expressed in several pathogenic stages of EBV-associated cancers. Regulation of EBV LMP1 involves both viral and cellular factors. LMP1 activates NF-κB signaling pathway that is a part of the EBV transformation program. However, the relation between NF-κB and LMP1 expression is not well established yet. In this report, we found that blocking the NF-κB activity by Inhibitor of κB stimulated LMP1 expression, while the overexpression of NF-κB repressed LMP1 expression in EBV-transformed IB4 cells. In addition, LMP1 repressed its own promoter activities in reporter assays, and the repression was associated with the activation of NF-κB. Moreover, NF-κB alone is sufficient to repress LMP1 promoter activities. CONCLUSION: Our data suggest LMP1 may repress its own expression through NF-κB in EBV transformed cells and shed a light on LMP1 regulation during EBV transformation.

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