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DNSe, a double-negative thymocyte-specific Notch1 enhancer, is essential for activation of Notch1 expression and has a central role in T-cell-lineage commitment during the earliest stages of thymocyte development.
We identified the transmembrane protein CMTM4 as an essential component of the IL-17 receptor. CMTM4 is required for membrane expression of IL-17 receptor subunit C and activation of IL-17A pro-inflammatory signaling. Lack of CMTM4 largely protects mice from experimental psoriasis, which suggests that targeting CMTM4 might alleviate IL-17-mediated autoimmunity.
An enduring antibody response is ultimately dependent on the generation and maintenance of long-lived plasma cells. New research describes the use of single-cell transcriptomics approaches to reveal the defining features of longevity in plasma cells.
Notch signaling is required for T cell development. Georgopoulos and colleagues identify an enhancer that specifically boosts Notch1 expression in early thymic progenitors through the DN3 stage, expanding the less committed multipotent progenitors and preparing these cells for faithful lineage commitment.
Pulendran and colleagues perform a comparative analysis of transcriptional responses of healthy young adults across 13 different vaccines. They find that while a common transcriptional program is shared across many vaccines, there is significant heterogeneity especially in the kinetics of immune responses.
Durable antibody-mediated responses require long-lived plasma cells; however, these cells are difficult to identify. Hai Qi and colleagues now phenotypically identify these cells and show their heterogeneity.
Sekaly and colleagues reveal a common pre-vaccination peripheral blood transcriptional signature that is predictive of antibody responses across 13 different vaccines.
Farrar and colleagues perform an extensive analysis of Ncor1/2 function in B cell development. Loss of both genes results in defective pre-BCR signaling, increased accessibility of STAT5 chromatin motifs and inappropriate Rag gene expression, leading to accelerated leukemic transformation.
Clonal expansion and immunological memory of lymphocytes provide protective immunity against repeated pathogen exposure in mammals. New technologies are enabling the investigation of these intricate processes, focusing on human natural killer cells during human cytomegalovirus infection.
Here, the authors use single-cell multiomics and profiling of mitochondrial mutations as endogenous barcodes to show that human adaptive NK cells induced by CMV persist as clonal expansions that inherit clone-specific epigenetic profiles.
Daniel, Yost, Hsiung, et al. generate a single-cell multiomic atlas of T cell exhaustion in chronic viral infection, which reveals molecular programs of exhausted T cell subsets, identifies divergent clonal exhausted T cell differentiation trajectories and nominates TCR signal strength as a driver of clonal fate.
Effective vaccines elicit neutralizing antibodies and long-lasting memory, but this can be challenging with some pathogens, such as HIV. A new study shows how a slow-delivery protein immunization strategy administered in dose-escalation format over 12 days increased the durability of germinal centers and improved immunological outcomes.
CD40 has long been known as a co-stimulatory molecule involved in T cell help for dendritic cells, and thereby as a contributor to CD8+ T cell immunity against cancers and infections. However, CD40 signaling drives complex functional responses that can contribute to tumor-specific CD8+ T cell responses in unexpected ways.
Wherry and colleagues provide a comparative analysis of paired single-cell RNA-sequencing and single-cell assay for transposase-accessible chromatin sequencing profiles of CD8+ T cells in acute and chronic lymphocytic choriomeningitis virus infections, identifying new features about Tex cell subsets and epigenetic differences from acutely infected precursors seen at early time points in infection.
CD40 is typically understood as a costimulatory molecule. Here, the authors show CD4+ T cell-induced CD40 signaling in conventional type 1 dendritic cells results in complicated gene expression that can enhance CD8+ T cell priming by various underappreciated and independent mechanisms.
Lai and colleagues show that the RNA helicase DDX5 mediates the alternative splicing of the IL-36R mRNA in keratinocytes and modulates skin inflammation downstream of IL-17D signaling.
Wen and colleagues show that the transmembrane protein SUSD2 is a specific negative regulator of CD8+ T cells activation in the tumor environment by interacting with IL-2 receptor α and interfering with IL-2 binding to the receptor.
Akin to adult stem cells, precursor exhausted T cells are hierarchically organized, with long-lived CD62L+ stem-like T cells at the apex of the system. The transcription factor c-Myb controls the formation, maintenance and therapeutic function of these cells, with important implications for their clinical utilization.