Hanna N. Degefu scite author profile

The study of Ag-specific lymphocytes has been a key advancement in immunology over the past few decades. The development of multimerized probes containing Ags, peptide:MHC complexes, or other ligands was one innovation allowing the direct study of Ag-specific lymphocytes by flow cytometry. Although these types of study are now common and performed by thousands of laboratories, quality control and assessment of probe quality are often minimal. In fact, many of these types of probe are made in-house, and protocols vary between laboratories. Although peptide:MHC multimers can often be obtained from commercial sources or core facilities, few such services exist for Ag multimers. To ensure high quality and consistency with ligand probes, we have developed an easy and robust multiplexed approach using commercially available beads able to bind Abs specific for the ligand of interest. Using this assay, we have sensitively assessed the performance of peptide:MHC and Ag tetramers and have found considerable batch-to-batch variability in performance and stability over time more easily than using murine or human cell-based assays. This bead-based assay can also reveal common production errors such as miscalculation of Ag concentration. This work could set the stage for the development of standardized assays for all commonly used ligand probes to limit laboratory-to-laboratory technical variation and experimental failure caused by probe underperformance.

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Foxo1 Serine 209 Is a Critical Regulatory Site of CD8 T Cell Differentiation and Survival

Hills

Abdullah

Lust

et al. 2021

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Foxo1 is an essential transcription factor required for the survival and differentiation of memory CD8 T cells, yet it is unclear whether these Foxo1-dependent functions are inherently coupled. To address this question, we examined the effects of different Foxo1 posttranslational modifications. Phosphorylation of Foxo1 by Akt kinases at three distinct residues is well characterized to inhibit Foxo1 transcriptional activity. However, the effect of Foxo1 phosphorylation within its DNA-binding domain at serine 209 by Mst1 kinase is not fully understood. In this study, we show that an S209A phospho-null Foxo1 exhibited Akt-dependent nuclear trafficking in mouse CD8 T cells and augmented the expression of canonical Foxo1 target genes such as Il7r and Sell. In contrast, an S209D phosphomimetic Foxo1 (SD-Foxo1) was largely excluded from the nucleus of CD8 T cells and failed to transactivate these genes. RNA sequencing analysis revealed that SD-Foxo1 was associated with a distinct Foxo1-dependent transcriptional profile, including genes mediating CD8 effector function and cell survival. Despite defective transactivation of canonical target genes, SD-Foxo1 promoted IL-15–mediated CD8 T cell survival in vitro and survival of short-lived effector cells in vivo in response to Listeria monocytogenes infection. However, SD-Foxo1 actively repressed CD127 expression and failed to generate memory precursors and long-lived memory T cells. Together, these data indicate that S209 is a critical residue for the regulation of Foxo1 subcellular localization and for balancing CD8 T cell differentiation and survival.

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1032 Uncoupling CD39 and T cell antigen specificity in brain tumors

Kleist

Musial

Degefu

et al. 2022

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Brain resident memory CD8+ T cells trigger CNS immune activation and infiltration

Musial

Searles

Kleist

et al. 2022

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The shifting paradigm regarding immune surveillance of the central nervous system (CNS) has shed light on immune cell networks thought to be absent from healthy brain tissue. Resident memory T cells (TRM) are a unique subset of memory T cells that persist within non-lymphoid tissues to provide rapid onset protection against reinfection. Recently, brain TRM (bTRM) have been identified in humans, with CNS or peripheral infection, or vaccination leading to bTRM establishment in mice. While bTRM are important for protection of the CNS against reinfection, their regulation and involvement in shaping the neuroimmune landscape remains unknown. Here, we take a reductionist approach employing viral-derived peptides to show that CD8+ bTRM reactivation is sufficient to initiate a cascade of innate and adaptive immune activation in the brain. Specifically, bTRM reactivation triggered activation of NK cells, T cells, microglia, and induced dendritic cell (DC) maturation, including upregulation of lymph node homing molecules. Reactivated bTRM also promoted accumulation of DCs in draining lymph nodes, and macrophages, monocyte-derived DCs, T cells and NK cells in the brain. Our preliminary data suggests that PD-1:PD-L1 signaling regulates the magnitude of this response, as PD-L1 blockade led to enhanced bTRM activation and neuroinflammation. We anticipate our results to illuminate roles for PD-1 signaling on bTRM in the context of pathogen clearance, and neurologic toxicities seen in cancer patients following PD-1 inhibitor treatment. This study will also provide insight into the pathologic or protective capacity of bTRM in neurologic diseases where T cells are implicated, such as Alzheimer’s disease, multiple sclerosis, and brain cancer. Supported by grants from NIH (K22 AI148508-02, T32 AI007363)

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Hanna N. Degefu

Tissue-resident memory T cells trigger rapid exudation and local antibody accumulation

Validation of Ligand Tetramers for the Detection of Antigen-Specific Lymphocytes

Foxo1 Serine 209 Is a Critical Regulatory Site of CD8 T Cell Differentiation and Survival

1032 Uncoupling CD39 and T cell antigen specificity in brain tumors

Brain resident memory CD8+ T cells trigger CNS immune activation and infiltration

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