Experimental human cytomegalovirus latency in CD14<sup>+</sup>monocytes

Hargett, Danna; Shenk, Thomas

doi:10.1073/pnas.1014509107

Cited by 158 publications

(217 citation statements)

References 45 publications

(44 reference statements)

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“…The goal of the present study is to identify additional candidates that may contribute to reactivation of IE gene expression in allogeneic transplants, with the long-term goal of developing novel therapeutic approaches to preventing reactivation of the virus. In addition to the TNF/NF-k B and IL-6/mitogen-activated protein kinase (MAPK) signalling pathways, which have been previously implicated in reactivation of HCMV (Döcke et al, 1994;Fietze et al, 1994;Hargett & Shenk, 2010;Huang et al, 2012;Kew et al, 2014;O'Connor & Murphy, 2012;Prösch et al, 1995;Reeves & Compton, 2011;Stein et al, 1993), we have identified novel signalling pathways that have not to our knowledge been previously associated with reactivation of HCMV. Our results suggest that it may be necessary to target multiple signalling pathways to prevent transcriptional reactivation of CMV.…”

Section: Introductionmentioning

confidence: 82%

“…Allograft rejection, sepsis, acute illness, IL-6 and TNF have long been implicated in reactivation of HCMV in patients (Cook et al, 1998;Döcke et al, 1994;Fietze et al, 1994;Grattan et al, 1989;Heininger et al, 2001;Hibberd et al, 1992;Kalil & Florescu, 2009;Kutza et al, 1998;Lao et al, 1997;Limaye et al, 2008;Mutimer et al, 1997;Portela et al, 1995;Razonable et al, 2001;Reinke et al, 1994a) and allogeneic stimulation, TNF, IL-6 and lipopolysaccharide have been shown to induce reactivation of HCMV in experimental models (Hargett & Shenk, 2010;Huang et al, 2012;Kew et al, 2014;O'Connor & Murphy, 2012;Reeves & Compton, 2011;Söderberg-Nauclér et al, 1997). Allogeneic transplantation and TNF are sufficient to activate both an HCMV MIEP-lacZ transgene and MCMV IE gene expression (Hummel et al, 2001).…”

Section: Discussionmentioning

confidence: 99%

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Transplant-induced reactivation of murine cytomegalovirus immediate early gene expression is associated with recruitment of NF-κB and AP-1 to the major immediate early promoter

Liu

Jie

Zhang

et al. 2016

Journal of General Virology

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Reactivation of latent human cytomegalovirus is a significant infectious complication of organ transplantation and current therapies target viral replication once reactivation of latent virus has already occurred. The specific molecular pathways that activate viral gene expression in response to transplantation are not well understood. Our studies aim to identify these factors, with the goal of developing novel therapies that prevent transcriptional reactivation in transplant recipients. Murine cytomegalovirus (MCMV) is a valuable model for studying latency and reactivation of CMV in vivo. We previously demonstrated that transplantation of MCMV-latently infected kidneys into allogeneic recipients induces reactivation of immediate early (IE) gene expression and epigenetic reprogramming of the major immediate early promoter (MIEP) within 48 h. We hypothesize that these events are mediated by activation of signalling pathways that lead to binding of transcription factors to the MIEP, including AP-1 and NF-k B. Here we show that transplantation induces rapid activation of several members of the AP-1 and NF-k B transcription factor family and we demonstrate that canonical NF-k B (p65/p50), the junD component of AP-1, and nucleosome remodelling complexes are recruited to the MIEP following transplantation. Proteomic analysis of recipient plasma and transcriptome analysis of kidney RNA identified five extracellular ligands, including TNF, IL-1b, IL-18, CD40L and IL-6, and three intracellular signalling pathways associated with reactivation of IE gene expression. Identification of the factors that mediate activation of these signalling pathways may eventually lead to new therapies to prevent reactivation of CMV and its sequelae.

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Section: Introductionmentioning

confidence: 82%

Section: Discussionmentioning

confidence: 99%

Transplant-induced reactivation of murine cytomegalovirus immediate early gene expression is associated with recruitment of NF-κB and AP-1 to the major immediate early promoter

Liu

Jie

Zhang

et al. 2016

Journal of General Virology

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“…CD34 1 progenitors, monocytes and granulocyte-macrophage progenitors, as well as some established myeloid cell lines, can be infected in culture allowing the maintenance of latent viral genomes which can then be reactivated by differentiation signals. 21,30,[35][36][37][45][46][47] However, it is clear that some experimental models using established cell lines do not appear to fully recapitulate all aspects of control of latency and reactivation observed in primary myeloid cells. 48 A totally quiescent viral genome during latent infection would clearly be the ideal way to avoid immune surveillance-if viral proteins are not expressed at all there would be no processing and presentation of viral antigens to specific T cells and, thus, latently infected cells would be ignored by the host immune response.…”

Section: Establishment Of Latency and The Molecular Biology Of The Lamentioning

confidence: 99%

“…28 Consistent with cells of the myeloid lineage being sites of latent infection, analyses of the viral transcription programme in these cells generally shows a suppression of viral lytic gene expression 2,29-32 but concomitant expression of known latency-associated viral genes. 31,[33][34][35][36][37] Importantly, these cells do not produce infectious virions; an essential characteristic of latent infection. In latent myeloid cells in vivo, this suppression of the lytic transcription programme appears to involve repression of the viral major immediate early promoter (MIEP), which would normally drive lytic cycle, through post-translational modification of histones around the MIEP resulting in the presence of well characterized repressive chromatin marks (reviewed in Ref.…”

Section: Establishment Of Latency and The Molecular Biology Of The Lamentioning

confidence: 99%

“…Also, importantly, this latent transcription programme can be reactivated to lytic cycle by differentiation of latent CD34 1 cells or monocytes to macrophages or dendritic cells resulting in expression of the established lytic temporal cascade of viral gene expression, leading to viral DNA replication and de novo virus production. 36,[38][39][40] Crucially, this reactivation of the lytic cascade of gene expression is initiated by the expression of the major immediate early proteins (IE72 and IE86); IE gene expression, thus, acts as a master regulator to initiate lytic cycle [41][42][43][44] (Figure 4). It is worth noting that many of these analyses of naturally latently infected cells can also be, in general, recapitulated in experimental models of latency in vitro.…”

Section: Establishment Of Latency and The Molecular Biology Of The Lamentioning

confidence: 99%

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The immunology of human cytomegalovirus latency: could latent infection be cleared by novel immunotherapeutic strategies?

et al. 2014

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While the host immune response following primary human cytomegalovirus (HCMV) infection is generally effective at stopping virus replication and dissemination, virus is never cleared by the host and like all herpesviruses, persists for life. At least in part, this persistence is known to be facilitated by the ability of HCMV to establish latency in myeloid cells in which infection is essentially silent with, importantly, a total lack of new virus production. However, although the viral transcription programme during latency is much suppressed, a number of viral genes are expressed during latent infection at the protein level and many of these have been shown to have profound effects on the latent cell and its environment. Intriguingly, many of these latency-associated genes are also expressed during lytic infection. Therefore, why the same potent host immune responses generated during lytic infection to these viral gene products are not recognized during latency, thereby allowing clearance of latently infected cells, is far from clear. Reactivation from latency is also a major cause of HCMV-mediated disease, particularly in the immune compromised and immune naive, and is also likely to be a major source of virus in chronic subclinical HCMV infection which has been suggested to be associated with long-term diseases such as atherosclerosis and some neoplasias. Consequently, understanding latency and why latently infected cells appear to be immunoprivileged is crucial for an understanding of the pathogenesis of HCMV and may help to design strategies to eliminate latent virus reservoirs, at least in certain clinical settings.

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The early monocytic response to cytomegalovirus infection is MyD88 dependent but occurs independently of common inflammatory cytokine signals

et al. 2013

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Cytomegalovirus latently infects myeloid cells; however, the acute effects of the virus on this cell subset are poorly characterised. We demonstrate that systemic cytomegalovirus infection induced rapid activation of monocytes in the bone marrow, characterised by upregulation of CD69, CD11c, Ly6C and M-CSF receptor. Activated bone marrow monocytes were more sensitive to M-CSF and less sensitive to granulocyte-monocyte colony stimulating factor in vitro, resulting in the generation of more macrophages and fewer dendritic cells, respectively. Monocyte activation was also observed in the periphery and resulted in significant accumulation of monocytes in the spleen. MyD88 expression was required within the haematopoietic compartment to initiate monocyte activation and recruitment. However, monocytes lacking MyD88 were activated and recruited in the presence of MyD88-sufficient cells in mixed bone marrow chimeras, indicating that once initiated, the process was MyD88 independent. Interestingly, we found that monocyte activation occurred in the absence of the common inflammatory cytokines, namely type I interferons (IFNs), IL-6, TNF-α and IL-1 as well as the NLRP3 inflammasome adaptor protein, ASC. We also excluded a role for the chemokine-like protein MCK-2 (m131/129) expressed by murine CMV. Taken together, these results challenge the notion that a single inflammatory cytokine mediates activation and recruitment of monocytes in response to infection.Keywords: bone marrow r cytokines r infectious diseases r innate immunity r monocytes IntroductionMonocytes and granulocytes serve as a front line defence against pathogens. These blood-borne cells are equipped with a battery of PRRs, secrete a range of cytokines and are capable of phagocytosis. In addition, monocytes and granulocytes are rapidly recruited to sites of infection and inflammation, where they contend with Correspondence: Prof. Mariapia A. Degli-Esposti e-mail: mariapia@lei.org.au the pathogen directly or differentiate into specialised cell types [1,2]. In this regard, monocytes have enormous potential since they are capable of differentiating into a variety of macrophages and dendritic cells that comprise the mononuclear phagocyte system [3][4][5].As our understanding of haematopoiesis has grown, we have also gained insights into the mechanisms that modulate this process. Early work with a variety of pathogens demonstrated infection can have profound effect on the bone marrow (BM) by favouring the production of some cell types, particularly myeloidwww.eji-journal.eu 410Matthew E. Wikstrom et al. Eur. J. Immunol. 2014. 44: 409-419 cells, while inducing the loss of others [6,7]. Similar effects were also observed for adjuvants [8], but it was not until the identification of toll-like receptors (TLRs) and other pathogen-sensing receptors in the BM that the capacity of progenitors to respond directly to infectious agents was appreciated [9]. At the same time, a growing understanding of cytokine and growth factor biology has given us insight into the indirec...

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Experimental human cytomegalovirus latency in CD14⁺monocytes

Cited by 158 publications

References 45 publications

Transplant-induced reactivation of murine cytomegalovirus immediate early gene expression is associated with recruitment of NF-κB and AP-1 to the major immediate early promoter

Transplant-induced reactivation of murine cytomegalovirus immediate early gene expression is associated with recruitment of NF-κB and AP-1 to the major immediate early promoter

The immunology of human cytomegalovirus latency: could latent infection be cleared by novel immunotherapeutic strategies?

The early monocytic response to cytomegalovirus infection is MyD88 dependent but occurs independently of common inflammatory cytokine signals

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Experimental human cytomegalovirus latency in CD14+monocytes

Cited by 158 publications

References 45 publications

Transplant-induced reactivation of murine cytomegalovirus immediate early gene expression is associated with recruitment of NF-κB and AP-1 to the major immediate early promoter

Transplant-induced reactivation of murine cytomegalovirus immediate early gene expression is associated with recruitment of NF-κB and AP-1 to the major immediate early promoter

The immunology of human cytomegalovirus latency: could latent infection be cleared by novel immunotherapeutic strategies?

The early monocytic response to cytomegalovirus infection is MyD88 dependent but occurs independently of common inflammatory cytokine signals

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Experimental human cytomegalovirus latency in CD14⁺monocytes