Breast cancer (BC) is commonly labeled a "cold tumor" due to its dense population of immunosuppressive cells, particularly M2-like macrophages, which contribute to its resistance to therapy. Thus, there is a pressing need to shift the macrophage polarization towards M1 and revitalize the tumor immune microenvironment (TIME) to improve BC prognosis. In this study, we leveraged published RNA-sequencing data and performed multiplex immunohistochemistry on clinical specimens to identify NR4A3 as a promising biomarker for favorable outcomes in BC. High NR4A3 expression correlates with an inflamed TIME, characterized by heightened T-cell infiltration and activation. NR4A3 was preferentially expressed in macrophages and fostered M1-like macrophage polarization through direct binding to p65, thereby enhancing NF-κB transcriptional activity. Overexpression of Nr4a3 in tumor-infiltrating macrophages significantly inhibited the growth of E0771 tumors in a syngeneic mouse model, accompanied by increased T-cell infiltration and elevated production of functional cytokines. Conversely, suppression of Nr4a3 in macrophages compromised T-cell recruitment and diminished their anti-tumor capabilities. Consistent with these findings, co-culture experiments involving human T cells and NR4A3-overexpressing THP1 cells further demonstrated enhanced T-cell functionality. Collectively, our findings uncover a novel role for NR4A3 in macrophage polarization and TIME remodeling, offering a potential biomarker for favorable BC prognosis and a therapeutic target to enhance immunotherapy efficacy.
© 2025. The Author(s).

Memory T (Tm) cells are a subpopulation of immune cells with great heterogeneity. Part of this diversity came from T cells that were primed with different viruses. Understanding the differences among different viral-specific Tms will help develop new therapeutic strategies for viral infections.
In this study, we compared the transcriptome of Tm cells that primed with CMV, EBV and SARS-CoV-2 with single-cell sequencing and studied the similarities and differences in terms of subpopulation composition, activation, metabolism and transcriptional regulation.
We found that CMV is marked by plentiful cytotoxic Temra cells, while EBV is more abundant in functional Tem cells. More importantly, we found that CD28 and CTLA4 can be used as continuous indicators to interrogate the antiviral ability of T cells. Furthermore, we proposed that REL is a main regulatory factor for CMV-specific T cells producing cytokines and plays an antiviral role.
Our data gives deep insight into molecular characteristics of Tm subsets from different viral infection, which is important to understand T cell immunization. Furthermore, our results provide basic background knowledges for T cell based vaccine development in future.
Copyright © 2024 Wang, Mei, Lin, Yang, Cao, Zhong, Wang, Cheng and Wang.

Vaccines have curtailed the devastation wrought by COVID-19. Nevertheless, emerging variants result in a high incidence of breakthrough infections. Here we assess the impact of vaccination and breakthrough infection on severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) T cell immunity. We demonstrate that COVID-19 vaccination induces robust spike-specific T cell responses that, within the CD4+ compartment, display comparable IFN-γ responses to SARS-CoV-2 infection without vaccination. Vaccine-induced CD8+ IFN-γ responses however, were significantly greater than those primed by SARS-CoV-2 infection alone. This increased responsiveness is associated with induction of novel HLA-restricted CD8+ T cell epitopes not primed by infection alone (without vaccination). Despite these augmented responses, breakthrough infection still induced de novo T cell responses against additional SARS-CoV-2 CD8+ epitopes that display HLA-associated immunodominance hierarchies consistent with those in unvaccinated COVID-19 convalescent individuals. This study demonstrates the unique modulation of anti-viral T cell responses against multiple viral antigens following consecutive yet distinct priming events in COVID-19 vaccination and breakthrough infection.
© 2023 The Author(s).

Clinical data suggest that Hepatitis C virus (HCV) levels are generally lower in Hepatitis B virus (HBV) co-infected patients, but the mechanism is unknown. Here, we show that HBV, but not HCV, activated absent in melanoma-2. This in turn results in inflammasome-mediated cleavage of pro-IL-18, leading to an innate immune activation cascade that results in increased interferon-γ, suppressing both viruses.

Chronic stimulation can cause T cell dysfunction and limit the efficacy of cellular immunotherapies. Improved methods are required to compare large numbers of synthetic knockin (KI) sequences to reprogram cell functions. Here, we developed modular pooled KI screening (ModPoKI), an adaptable platform for modular construction of DNA KI libraries using barcoded multicistronic adaptors. We built two ModPoKI libraries of 100 transcription factors (TFs) and 129 natural and synthetic surface receptors (SRs). Over 30 ModPoKI screens across human TCR- and CAR-T cells in diverse conditions identified a transcription factor AP4 (TFAP4) construct that enhanced fitness of chronically stimulated CAR-T cells and anti-cancer function in vitro and in vivo. ModPoKI's modularity allowed us to generate an ∼10,000-member library of TF combinations. Non-viral KI of a combined BATF-TFAP4 polycistronic construct enhanced fitness. Overexpressed BATF and TFAP4 co-occupy and regulate key gene targets to reprogram T cell function. ModPoKI facilitates the discovery of complex gene constructs to program cellular functions.
Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.