Jessica Stanfield scite author profile

BackgroundT cell checkpoint immunotherapies have shown promising results in the clinic, but most patients remain non-responsive. CD47-signal regulatory protein alpha (SIRPα) myeloid checkpoint blockade has shown early clinical activity in hematologic malignancies. However, CD47 expression on peripheral blood limits αCD47 antibody selectivity and thus efficacy in solid tumors.MethodsTo improve the antibody selectivity and therapeutic window, we developed a novel affinity-tuned bispecific antibody targeting CD47 and programmed death-ligand 1 (PD-L1) to antagonize both innate and adaptive immune checkpoint pathways. This PD-L1-targeted CD47 bispecific antibody was designed with potent affinity for PD-L1 and moderate affinity for CD47 to achieve preferential binding on tumor and myeloid cells expressing PD-L1 in the tumor microenvironment (TME).ResultsThe antibody design reduced binding on red blood cells and enhanced selectivity to the TME, improving the therapeutic window compared with αCD47 and its combination with αPD-L1 in syngeneic tumor models. Mechanistically, both myeloid and T cells were activated and contributed to antitumor activity of αCD47/PD-L1 bispecific antibody. Distinct from αCD47 and αPD-L1 monotherapies or combination therapies, single-cell RNA sequencing (scRNA-seq) and gene expression analysis revealed that the bispecific treatment resulted in unique innate activation, including pattern recognition receptor-mediated induction of type I interferon pathways and antigen presentation in dendritic cells and macrophage populations. Furthermore, treatment increased the Tcf7+ stem-like progenitor CD8 T cell population in the TME and promoted its differentiation to an effector-like state. Consistent with mouse data, the compounds were well tolerated and demonstrated robust myeloid and T cell activation in non-human primates (NHPs). Notably, RNA-seq analysis in NHPs provided evidence that the innate activation was mainly contributed by CD47-SIRPα but not PD-L1-PD-1 blockade from the bispecific antibody.ConclusionThese findings provide novel mechanistic insights into how myeloid and T cells can be uniquely modulated by the dual innate and adaptive checkpoint antibody and demonstrate its potential in clinical development (NCT04881045) to improve patient outcomes over current PD-(L)1 and CD47-targeted therapies.

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Tissue-specific programming of memory CD8 T cell subsets impacts protection against lethal respiratory virus infection

Abboud

Desai

Dastmalchi

et al. 2016

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Inflammatory monocytes contribute to the persistence of CXCR3^hiCX3CR1^lo circulating and lung‐resident memory CD8⁺ T cells following respiratory virus infection

et al. 2018

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Phenotypically diverse memory CD8 T cells are present in the lungs that either re-circulate or reside within the tissue. Understanding the key cellular interactions that regulate the generation and then persistence of these different subsets is of great interest. Recently, DNGR-1 dendritic cell (DC) mediated priming was reported to control the generation of lung-resident but not circulating memory cells following respiratory viral infection. Here, we report an important role for Ly6C inflammatory monocytes (IMs) in contributing to the persistence of memory CD8 T cells but not their generation. Effector CD8 T cells expanded and contracted normally in the absence of IMs, but the memory compartment declined significantly over time. Quite unexpectedly, this defect was confined to tissue resident and circulating CXCR3 CX3CR1 memory cells but not CXCR3 CX3CR1 and CXCR3 CX3CR1 subsets. Thus, two developmentally distinct innate cells orchestrate the generation and persistence of memory T cell subsets following a respiratory virus infection. See also: News and Commentary by Lafouresse & Groom.

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Transcription Factor Bcl11b Controls Effector and Memory CD8 T cell Fate Decision and Function during Poxvirus Infection

et al. 2016

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CD8+ T cells play an important role in host resistance to many viral infections, but the underlying transcriptional mechanisms governing their differentiation and functionality remain poorly defined. By using a highly virulent systemic and respiratory poxvirus infection in mice, we show that the transcription factor Bcl11b provides a dual trigger that sustains the clonal expansion of virus-specific effector CD8+ T cells, while simultaneously suppressing the expression of surface markers associated with short-lived effector cell (SLEC) differentiation. Additionally, we demonstrate that Bcl11b supports the acquisition of memory precursor effector cell (MPEC) phenotype and, thus, its absence causes near complete loss of lymphoid and lung-resident memory cells. Interestingly, despite having normal levels of T-bet and Eomesodermin, Bcl11b-deficient CD8+ T cells failed to execute effector differentiation needed for anti-viral cytokine production and degranulation, suggesting a non-redundant role of Bcl11b in regulation of this program. Thus, Bcl11b is a critical player in fate decision of SLECs and MPECs, as well as effector function and memory formation.

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Batf3-Dependent Dendritic Cells Promote Optimal CD8 T Cell Responses against Respiratory Poxvirus Infection

Desai

Tahiliani

Abboud

et al. 2018

J Virol

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Respiratory infection with vaccinia virus (VacV) elicits robust CD8 T cell responses that play an important role in host resistance. In the lung, VacV encounters multiple tissue-resident antigen-presenting cell (APC) populations, but which cell plays a dominant role in priming of virus-specific CD8 effector T cell responses remains poorly defined. We used Batf3 mice to investigate the impact of CD103 and CD8α dendritic cell (DC) deficiency on anti-VacV CD8 T cell responses. We found that Batf3 mice were more susceptible to VacV infection, exhibiting profound weight loss, which correlated with impaired accumulation of gamma interferon (IFN-γ)-producing CD8 T cells in the lungs. This was largely due to defective priming since early in the response, antigen-specific CD8 T cells in the draining lymph nodes of Batf3 mice expressed significantly reduced levels of Ki67, CD25, and T-bet. These results underscore a specific role for Batf3-dependent DCs in regulating priming and expansion of effector CD8 T cells necessary for host resistance against acute respiratory VacV infection. During respiratory infection with vaccinia virus (VacV), a member of family, CD8 T cells play important role in resolving the primary infection. Effector CD8 T cells clear the virus by accumulating in the infected lungs in large numbers and secreting molecules such as IFN-γ that kill virally infected cells. However, precise cell types that regulate the generation of effector CD8 T cells in the lungs are not well defined. Dendritic cells (DCs) are a heterogeneous population of immune cells that are recognized as key initiators and regulators of T-cell-mediated immunity. In this study, we reveal that a specific subset of DCs that are dependent on the transcription factor Batf3 for their development regulate the magnitude of CD8 T cell effector responses in the lungs, thereby providing protection during pulmonary VacV infection.

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HVEM Imprints Memory Potential on Effector CD8 T Cells Required for Protective Mucosal Immunity

Desai

Abboud

Stanfield

et al. 2017

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Mucosal immunity to re-infection with a highly virulent virus requires the accumulation and persistence of memory CD8 T cells at the site of primary infection. These cells may derive from memory precursor effector cells (MPECs), which are distinct from short-lived effector cells (SLECs) that provide acute protection but are often destined to die. Using respiratory virus infection, we identify HVEM (Herpes Virus Entry Mediator, TNFRSF14), a member of the TNF receptor superfamily, provides key signals for MPEC persistence. HVEM-deficient CD8 T cells expanded normally but were skewed away from MPECs with resultant poor development of circulating and lung-resident memory cells. HVEM was selectively expressed on MPECs whereas MPECs deficient in HVEM failed to survive in adoptive transfer recipients. As a consequence, HVEM-deficient recipients failed to afford protection against respiratory re-infection with influenza virus. HVEM therefore represents a critical signal for MPECs and development of protective mucosal CD8 T cell memory.

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The TNF Superfamily Molecule LIGHT Promotes the Generation of Circulating and Lung-Resident Memory CD8 T Cells following an Acute Respiratory Virus Infection

Desai

Tahiliani

Hutchinson

et al. 2018

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The transition of effector T cells or memory precursors into distinct long-lived memory T cell subsets is not well understood. Although many molecules made by APCs can contribute to clonal expansion and effector cell differentiation, it is not clear if clonal contraction and memory development is passive or active. Using respiratory virus infection, we found that CD8 T cells that cannot express the TNF family molecule lymphotoxin-like, exhibits nducible expression, competes with HSVlycoprotein D for herpes virus entry mediator, a receptor expressed by T lymphocytes (LIGHT) are unimpaired in their initial response and clonally expand to form effector cell pools. Thereafter, LIGHT-deficient CD8 T cells undergo strikingly enhanced clonal contraction with resultant compromised accumulation of both circulating and tissue-resident memory cells. LIGHT expression at the peak of the effector response regulates the balance of several pro- and antiapoptotic genes, including Akt, and has a preferential impact on the development of the peripheral memory population. These results underscore the importance of LIGHT activity in programming memory CD8 T cell development, and suggest that CD8 effector T cells can dictate their own fate into becoming memory cells by expressing LIGHT.

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Lack of B Lymphocytes Enhances CD8 T Cell-Mediated Resistance against Respiratory Viral Infection but Compromises Memory Cell Formation

Desai

Stanfield

Tahiliani

et al. 2020

J Virol

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Following a respiratory virus infection, CXCR3hi CX3CR1lo and CXCR3lo CX3CR1hi CD8 T cells localize to different compartments within the lung and play an important role in host resistance, but mechanisms governing their optimal generation are poorly defined. We serendipitously found that B cell-deficient (μMT−/−) mice were highly resistant to lethal infection with a virulent poxvirus strain and that depletion of CD8 T cells rendered these mice susceptible to infection. B cells were not required for the expansion of virus-specific CD8 T cells, but a greater proportion of activated CD8 T cells acquired an effector-like CXCR3lo CX3CR1hi phenotype in the absence of B cells. After recovery from infection, CD8 T cells in μMT−/− mice contracted normally but failed to survive and seed the memory cell pool in both the lungs and spleen. These findings reveal a previously unappreciated role for B cells in regulating the balance between CD8 T cell-mediated resistance against respiratory viral infection and memory cell development. IMPORTANCE B cells play critical role in host resistance against many respiratory viral infections. However, the role of B cells beyond antibody-producing cells is less well defined. In this study, we made a surprising observation that mice lacking B cells were more resistant to respiratory infection with vaccinia virus than wild-type mice. This enhanced resistance was mediated by CD8 T cells because when we depleted CD8 T cells in B cell-deficient mice, these mice were unable to survive the infection. Interestingly, CD8 T cells in B cell-deficient mice were skewed more toward effector phenotype and less toward memory phenotype, which resulted in severely compromised memory CD8 T cell development. Thus, our study shows a novel role of B cells as regulators of CD8 T cell-mediated host resistance and memory CD8 T cell formation during respiratory viral infection.

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