Defining the Transcriptional Landscape during Cytomegalovirus Latency with Single-Cell RNA Sequencing

Shnayder, Miri; Nachshon, Aharon; Krishna, Benjamin A.; Poole, Emma; Boshkov, Alina; Binyamin, Amit; Maza, Itay; Sinclair, John; Schwartz, Michal; Stern-Ginossar, Noam

doi:10.1128/mbio.00013-18

Cited by 162 publications

(162 citation statements)

References 70 publications

(109 reference statements)

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“…Thus, we wondered about the fate of infection in the remainder of the cells, which contain lower amounts of viral transcripts, and no detectable viral proteins. Intriguingly, a similar scenario was recently encountered following single-cell RNA sequencing of TB40/E-infected CD14+ and CD34 + cells [90]. Elevated levels of viral transcripts were observed in just ∼ 2% of monocytes, while the rest of the population, which contained lower amounts of a wide range of viral transcripts, were interpreted as potentially being latently infected.…”

Section: Discussionsupporting

confidence: 52%

“…This led us to speculate that the remaining CMV-transcript + cells in our population might be either latently infected or on a path toward latency. While this hypothesis requires additional testing, it remains a thrilling possibility, especially in view of recently presented evidence supporting the potential association of viral latency with quantitative rather than qualitative changes in viral gene expression [90]. Alternatively, it is of course possible for viral transcripts to simply be detected and eliminated by cellular defense mechanisms, producing an abortive infection.…”

Section: Discussionmentioning

confidence: 99%

“…CD34 + cells are extremely plastic, and can clearly give rise to clustered sub-populations of myeloid cells, some of which permissive to lytic infection. Being a minority in the population these clusters can easily escape detection and may introduce unwanted and unnoticed “lytic noise” [90] in studies of viral latency.…”

Section: Discussionmentioning

confidence: 99%

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Single-cell transcriptome analysis of CD34⁺stem cell-derived myeloid cells identifies a CFU-GEMM-like population permissive to human cytomegalovirus infection

Galinato¹,

Shimoda²,

Aguiar³

et al. 2018

Preprint

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13 14 Short title: single-cell analysis of CMV-infected myeloid cells 2 15 ABSTRACT 16 Myeloid cells are important sites of lytic and latent infection by human cytomegalovirus (CMV). We 17 previously showed that only a small subset of myeloid cells differentiated from CD34 + hematopoietic 18 stem cells is permissive to CMV replication, underscoring the heterogeneous nature of these 19 populations. The exact identity of susceptible and resistant cell types, and the cellular features 20 characterizing permissive cells, however, could not be dissected using averaging transcriptional 21 analysis tools such as microarrays and, hence, remained enigmatic. Here, we profile the transcriptomes 22 of ~ 7000 individual cells at day one post-infection using the 10X genomics platform. We show that 23 viral transcripts are detectable in the majority of the cells, suggesting that virion entry is unlikely to be 24 the main target of cellular restriction mechanisms. We further show that viral replication occurs in a 25 small but specific sub-group of cells transcriptionally related to, and likely derived from, a cluster of 26 cells expressing markers of Colony Forming Unit -Granulocyte, Erythrocyte, Monocyte, 27 Megakaryocyte (CFU-GEMM) oligopotent progenitors. Compared to the remainder of the population, 28 CFU-GEMM cells are enriched in transcripts with functions in mitochondrial energy production, cell 29 proliferation, RNA processing and protein synthesis, and express similar or higher levels of interferon-30 related genes. While expression levels of the former are maintained in infected cells, the latter are 31 strongly down-regulated. We thus propose that the preferential infection of CFU-GEMM cells may be 32 due to the presence of a pre-established pro-viral environment, requiring minimal optimization efforts 33 from viral effectors, rather than to the absence of specific restriction factors. Together, these findings 34 identify a potentially new population of myeloid cells susceptible to CMV replication, and provide a 35 possible rationale for their preferential infection. 3 AUTHOR SUMMARY37 Myeloid cells such as monocytes and dendritic cells are critical targets of CMV infection. To identify 38 the cellular factors that confer susceptibility or resistance to infection, we profiled the transcriptomes of 39~ 7,000 single cells from a population of semi-permissive myeloid cells infected with CMV. We found 40 that viral RNAs are detectable in the majority of the cells, but that marked expression of CMV lytic 41 genes occurs in only a small subset of cells transcriptionally related to a cluster of CFU-GEMM 42 progenitors that express similar amounts of transcripts encoding interferon-related anti-viral factors as 43 the rest of the population but higher levels of transcripts encoding proteins required for energy, RNA, 44 and protein production. We thus conclude that the preferential infection of CFU-GEMM cells might be 45 due to the pre-existing presence of an intracellular environment conducive to infection onset, rather ...

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Section: Discussionsupporting

confidence: 52%

Section: Discussionmentioning

confidence: 99%

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Single-cell transcriptome analysis of CD34⁺stem cell-derived myeloid cells identifies a CFU-GEMM-like population permissive to human cytomegalovirus infection

Galinato¹,

Shimoda²,

Aguiar³

et al. 2018

Preprint

View full text Add to dashboard Cite

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“…The characterization of cellular heterogeneity due to activation of different host pathways and the progression of viral infection is of great interest. Recent singlecell RNA-sequencing (scRNA-seq) efforts provided an unbiased characterization of virus-host interactions in individual cells which are masked at the population level [14][15][16][17][18][19][20][21][22]. However, deeper insights into unique molecular signatures and discovery of specific cell subsets could be obtained by increasing sequencing depth and the application of advanced analytical approaches to study viral infections.…”

Section: Introductionmentioning

confidence: 99%

Single-cell RNA-sequencing of Herpes simplex virus 1-infected cells identifies NRF2 activation as an antiviral program

Wyler

Franke

Menegatti

et al. 2019

Preprint

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AbstractHerpesvirus infection initiates a range of perturbations in the host cell, which remain poorly understood at the level of individual cells. Here, we quantified the transcrips of single human primary fibroblasts during the first hours of lytic infection with HSV-1. By applying a generalizable analysis scheme, we defined a precise temporal order of early viral gene expression and found unexpected bifurcations and bottlenecks. We identified individual host cell genes and pathways relevant in early infection by combining three different computational approaches: gene and pathway overdispersion analysis, prediction of cell-state transition probabilities as well as future cell states. One transcriptional program, which was turned on in infected cells and correlated with increased resistance to infection, implicated the transcription factor NRF2. Consequently, Bardoxolone methyl, a known NRF2 agonist, impaired virus production, suggesting that NRF2 activation restricts the progression of viral infection. Our study provides novel insights into early stages of HSV-1 infection and serves as a general blueprint for the investigation of heterogenous cell states in virus infection.

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“…CMV establishes latency in CD34+ hematopoietic progenitor cells (HPCs) and is carried through differentiation in cells of the myeloid lineage, including CD14+ monocytes (1). During latency in experimental models, CMV genes are expressed broadly but at very low levels (2, 3) and replication is restricted. Reactivation in immunodeficient individuals, such as stem cell or solid organ transplant recipients, is a major cause for morbidity and mortality (4–6).…”

Section: Introductionmentioning

confidence: 99%

EGR1 transcriptional control of human cytomegalovirus latency

Buehler

Carpenter

Zeltzer

et al. 2019

Preprint

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34Sustained phosphotinositide3-kinase (PI3K) signaling is critical to the maintenance of 35 herpesvirus latency. We have previously shown that the beta-herpesvirus, human 36 cytomegalovirus (CMV), regulates epidermal growth factor receptor (EGFR), upstream of PI3K, 37 to control states of latency and reactivation. Inhibition of EGFR signaling enhances CMV 38 reactivation from latency and increases viral replication, but the mechanisms by which EGFR 39 impacts replication and latency is not known. We demonstrate that HCMV downregulates 40 MEK/ERK and AKT phosphorylation, but not STAT3 or PLCγ for productive replication. 41Similarly, inhibition of either MEK/ERK or PI3K/AKT, but not STAT or PLCγ, pathways increases 42 viral reactivation from latently infected CD34 + hematopoietic progenitor cells (HPCs), defining a 43 role for these pathways in latency. We hypothesized that CMV modulation of EGFR signaling 44 might impact viral transcription. Indeed, EGF-stimulation increased expression of the UL138 45 latency gene, but not immediate early or early viral genes, suggesting that EGFR signaling 46 promotes latent gene expression. The early growth response-1 (EGR1) transcription factor is 47 induced downstream of EGFR signaling through both PI3K/AKT and MEK/ERK pathways. 48 EGR1 expression is important for the maintenance of HPC stemness and its downregulation 49 drives HPC differentiation and mobilization. We demonstrate that EGR1 binds upstream of 50 UL138 and is sufficient to promote UL138 expression. Further, disruption of EGR1 binding 51 upstream of UL138 prevented CMV from establishing a latent infection in CD34 + HPCs. Our 52 results indicate a model whereby UL138 modulation of EGFR signaling feeds back to promote 53 UL138 expression and suppression of replication to establish or maintain viral quiescence. 54 55 AUTHOR SUMMARY 56 Buehler et al. 3CMV regulates EGFR signaling to balance states of viral latency and replication. CMV blocks 57 downstream PI3K/AKT and MEK/ERK signaling pathways through down-regulation of EGFR at 58 the plasma membrane. PI3K/AKT and MEK/ERK signaling increases expression of the EGR1 59 transcription factor that is necessary for the maintenance of stem cell stemness. A decrease in 60 EGR1 expression promotes HPC mobilization to the periphery and differentiation, a known 61 stimulus for CMV reactivation. We identified functional EGR1 binding sites upstream of the 62 UL138 gene and EGR-1 binding stimulates UL138 expression. Additionally, down-regulation of 63 EGR1 by CMV miR-US22 decreases UL138 expression emphasizing the importance of this 64 transcription factor in expression of this latency gene. Lastly, we demonstrate that a CMV 65 mutant virus lacking an upstream EGR1 binding site is unable to establish latency in CD34 + 66HPCs. This study defines one mechanism by which EGFR signaling impacts viral gene 67 expression to promote CMV latency. 68 69 RESULTS 129CMV downregulates total and cell surface levels of EGFR. We previously demonstrated that 130 CMV modulates EGFR total and cell s...

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Defining the Transcriptional Landscape during Cytomegalovirus Latency with Single-Cell RNA Sequencing

Cited by 162 publications

References 70 publications

Single-cell transcriptome analysis of CD34⁺stem cell-derived myeloid cells identifies a CFU-GEMM-like population permissive to human cytomegalovirus infection

Single-cell transcriptome analysis of CD34⁺stem cell-derived myeloid cells identifies a CFU-GEMM-like population permissive to human cytomegalovirus infection

Single-cell RNA-sequencing of Herpes simplex virus 1-infected cells identifies NRF2 activation as an antiviral program

EGR1 transcriptional control of human cytomegalovirus latency

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Defining the Transcriptional Landscape during Cytomegalovirus Latency with Single-Cell RNA Sequencing

Cited by 162 publications

References 70 publications

Single-cell transcriptome analysis of CD34+stem cell-derived myeloid cells identifies a CFU-GEMM-like population permissive to human cytomegalovirus infection

Single-cell transcriptome analysis of CD34+stem cell-derived myeloid cells identifies a CFU-GEMM-like population permissive to human cytomegalovirus infection

Single-cell RNA-sequencing of Herpes simplex virus 1-infected cells identifies NRF2 activation as an antiviral program

EGR1 transcriptional control of human cytomegalovirus latency

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Product

Resources

About

Single-cell transcriptome analysis of CD34⁺stem cell-derived myeloid cells identifies a CFU-GEMM-like population permissive to human cytomegalovirus infection

Single-cell transcriptome analysis of CD34⁺stem cell-derived myeloid cells identifies a CFU-GEMM-like population permissive to human cytomegalovirus infection