Simone Puccio scite author profile

T cell memory relies on the generation of antigen-specific progenitors with stem-like properties.However, the identity of these progenitors has remained unclear, precluding a full understanding of the differentiation trajectories that underpin the heterogeneity of antigen-experienced T cells.We used a systematic approach guided by single-cell RNA sequencing data to map the organizational structure of the human CD8 + memory T cell pool under physiological conditions. We identified two previously unrecognized subsets of clonally, epigenetically, functionally, phenotypically, and transcriptionally distinct stem-like CD8 + memory T cells. Progenitors lacking the inhibitory receptors programmed death-1 (PD-1) and T cell immunoreceptor with Ig and ITIM domains (TIGIT) were committed to a functional lineage, whereas progenitors expressing PD-1 and TIGIT were committed to a dysfunctional, exhausted-like lineage.Collectively, these data revealed the existence of parallel differentiation programs in the human CD8 + memory T cell pool, with potentially broad implications for the development of immunotherapies and vaccines. 3 MAIN TEXTAntigen recognition by CD8 + naive T cells initiates a program of clonal expansion and effector differentiation that leads to the clearance of infected or malignant cells and the subsequent formation of heterogeneous memory populations that confer durable immunity 1 . These memory populations are thought to be organized in a developmental hierarchy, according to which stem cell memory T (TSCM) cells self-renew and generate long-lived central memory T (TCM) cells and short-lived effector memory T (TEM) cells 2-6 . However, the mechanisms that underlie the enhanced multipotency of TSCM cells relative to TCM cells have not been clearly defined in molecular terms 7 .Memory T cell differentiation can become corrupted under conditions of persistent antigenic stimulation, as observed during chronic viral infections and progressive malignancies, which promote a state of T cell exhaustion, characterized by an orderly loss of effector functions, impaired proliferation, and the upregulation of inhibitory receptors 8 . This dynamic process occurs over a period of weeks after the initial priming event 9,10 and involves the genome-wide accumulation of epigenetic modifications 11,12 . Recent studies have shown that exhausted T (TEX) cell populations are developmentally and functionally heterogeneous, incorporating stem-like progenitors that express T cell factor 1 (TCF1) which give rise to highly differentiated TEX cells that are constitutively dysfunctional and lack TCF1 [13][14][15][16] . Importantly, the therapeutic benefits of immune checkpoint blockade in the context of chronic viral infections and various cancers are thought to operate via these TCF1 + progenitors, which appear susceptible to interventions that specifically target the inhibitory receptor programmed death-1 (PD-1) 13,15,17-20 .

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IRF4 instructs effector Treg differentiation and immune suppression in human cancer

Alvisi

et al. 2020

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Antioxidant metabolism regulates CD8+ T memory stem cell formation and antitumor immunity

et al. 2018

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Adoptive T cell transfer (ACT) immunotherapy benefits from early differentiated stem cell memory T (Tscm) cells capable of persisting in the long term and generating potent antitumor effectors. Due to their paucity ex vivo, Tscm cells can be derived from naive precursors, but the molecular signals at the basis of Tscm cell generation are ill-defined. We found that less differentiated human circulating CD8+ T cells display substantial antioxidant capacity ex vivo compared with more differentiated central and effector memory T cells. Limiting ROS metabolism with antioxidants during naive T cell activation hindered terminal differentiation, while allowing expansion and generation of Tscm cells. N-acetylcysteine (NAC), the most effective molecule in this regard, induced transcriptional and metabolic programs characteristic of self-renewing memory T cells. Upon ACT, NAC-generated Tscm cells established long-term memory in vivo and exerted more potent antitumor immunity in a xenogeneic model when redirected with CD19-specific CAR, highlighting the translational relevance of NAC as a simple and inexpensive method to improve ACT.

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Insight into the essential role of the Helicobacter pylori HP1043 orphan response regulator: genome-wide identification and characterization of the DNA-binding sites

Pelliciari

Pinatel

Vannini

et al. 2017

Sci Rep

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Many bacterial regulatory genes appear to be dispensable, as they can be deleted from the genome without loss of bacterial functionalities. In Helicobacter pylori, the hp1043 gene, also known as hsrA, is one of the transcriptional regulator that is essential for cell viability. This gene could not be deleted, nor the amount of protein modulated, supporting the hypothesis that HP1043 could be involved in the regulation of crucial cellular processes. Even though detailed structural data are available for the HP1043 protein, its targets are still ill-defined. Using Chromatin Immunoprecipitation-sequencing (ChIP-seq), one of the most powerful approaches to characterize protein-DNA interactions in vivo, we were able to identify genome-wide several new HP1043 binding sites. Moreover, in vitro DNA binding assays enabled precise mapping of the HP1043 binding sites on the new targets, revealing the presence of a conserved nucleotide sequence motif. Intriguingly, a significant fraction of the newly identified binding sites overlaps promoter regions controlling the expression of genes involved in translation. Accordingly, when protein translation was blocked, a significant induction of almost all HP1043 target genes was detected. These observations prompted us to propose HP1043 as a key regulator in H. pylori, likely involved in sensing and in coordinating the response to environmental conditions that provoke an arrest of protein synthesis. The essential role of HP1043 in coordinating central cellular processes is discussed.

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Simone Puccio

Two subsets of stem-like CD8+ memory T cell progenitors with distinct fate commitments in humans

IRF4 instructs effector Treg differentiation and immune suppression in human cancer

Antioxidant metabolism regulates CD8+ T memory stem cell formation and antitumor immunity

Insight into the essential role of the Helicobacter pylori HP1043 orphan response regulator: genome-wide identification and characterization of the DNA-binding sites

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