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CD11c is widely known as a dendritic cell surface marker but its non-dendritic cell expression profiles as well as its functional role have been gradually delineated. As a member of leukocyte-specific β2 integrin family, CD11c forms a heterodimer with CD18. CD11c/CD18 takes different conformations, which dictate its ligand binding. Here we reviewed CD11c current state of art, in comparison to its sister proteins CD11a, CD11b, and CD11d, illustrating its unique feature in leukocyte biology.

Most clinically applied cancer immunotherapies rely on the ability of CD8 + cytolytic T cells to directly recognize and kill tumour cells 1 – 3 . These strategies are limited by the emergence of major histocompatibility complex (MHC)-deficient tumour cells and the formation of an immunosuppressive tumour microenvironment 4 – 6 . The ability of CD4 + effector cells to contribute to antitumour immunity independently of CD8 + T cells is increasingly recognized, but strategies to unleash their full potential remain to be identified 7 – 10 . Here, we describe a mechanism whereby a small number of CD4 + T cells is sufficient to eradicate MHC-deficient tumours that escape direct CD8 + T cell targeting. The CD4 + effector T cells preferentially cluster at tumour invasive margins where they interact with MHC-II + CD11c + antigen-presenting cells. We show that T helper type 1 cell-directed CD4 + T cells and innate immune stimulation reprogramme the tumour-associated myeloid cell network towards interferon-activated antigen-presenting and iNOS-expressing tumouricidal effector phenotypes. Together, CD4 + T cells and tumouricidal myeloid cells orchestrate the induction of remote inflammatory cell death that indirectly eradicates interferon-unresponsive and MHC-deficient tumours. These results warrant the clinical exploitation of this ability of CD4 + T cells and innate immune stimulators in a strategy to complement the direct cytolytic activity of CD8 + T cells and natural killer cells and advance cancer immunotherapies. This article describes a mechanism through which CD4 + T cells can eradicate MHC-deficient tumours that escape direct CD8 + T cell targeting and thereby complement the activity of CD8 + T cells and natural killer cells to advance cancer immunotherapies.

CD11c, also known as integrin alpha X, is the most widely used defining marker for dendritic cells (DCs). CD11c can bind complement iC3b and mediate phagocytosis in vitro, for which it is also referred to as complement receptor 4. However, the functions of this prominent marker protein in DCs, especially in vivo, remain poorly defined. Here, in the process of studying DC activation and immune responses induced by cells lacking self-CD47, we found that DC capture of CD47-deficient cells and DC activation was dependent on the integrin-signaling adaptor Talin1. Specifically, CD11c and its partner Itgb2 were required for DC capture of CD47-deficient cells. CD11b was not necessary for this process but could partially compensate in the absence of CD11c. Mice with DCs lacking Talin1, Itgb2, or CD11c were defective in supporting T-cell proliferation and differentiation induced by CD47-deficient cell associated antigen. These findings establish a critical role for CD11c in DC antigen uptake and activation in vivo. They may also contribute to understanding the functional mechanism of CD47-blockade therapies.

With the increasing prevalence of obesity in women of reproductive age there is a need to understand the ramifications of this on offspring. The purpose of this study is to investigate the programming effects of maternal obesity during preconception and the preconception/gestational period on adiposity and adipose tissue inflammation in offspring using an animal model. Adult female C57Bl/6J mice were assigned either normal diet, high fat diet (HFD) prior to pregnancy, or HFD prior to and through pregnancy. Some offspring were maintained on normal diet while others started HFD later in life. Offspring were assessed for body composition and metabolic responses. Lipid storing tissues were evaluated for expansion and inflammation. Male offspring from the preconception group had the greatest weight gain, most subcutaneous adipose tissue, and largest liver mass when introduced to postnatal HFD. Male offspring of the preconception/gestation group had worsened glucose tolerance and an increase in resident (CD11c − ) adipose tissue macrophages (ATMs) when exposed to postnatal HFD. Female offspring had no significant difference in any parameter between the diet treatment groups. In conclusion, this study demonstrates that prenatal and pregnancy windows have independent programming effects on offspring. Preconception exposure affects body composition and adiposity while gestation exposure affects metabolism and tissue immune cell phenotypes.

Differences in immune responses to viruses and autoimmune diseases such as systemic lupus erythematosus (SLE) can show sexual dimorphism. Age-associated B cells (ABC) are a population of CD11c + T-bet + B cells critical for antiviral responses and autoimmune disorders. Absence of DEF6 and SWAP-70, two homologous guanine exchange factors, in double-knock-out (DKO) mice leads to a lupus-like syndrome in females marked by accumulation of ABCs. Here we demonstrate that DKO ABCs show sex-specific differences in cell number, upregulation of an ISG signature, and further differentiation. DKO ABCs undergo oligoclonal expansion and differentiate into both CD11c + and CD11c − effector B cell populations with pathogenic and pro-inflammatory function as demonstrated by BCR sequencing and fate-mapping experiments. Tlr7 duplication in DKO males overrides the sex-bias and further augments the dissemination and pathogenicity of ABCs, resulting in severe pulmonary inflammation and early mortality. Thus, sexual dimorphism shapes the expansion, function and differentiation of ABCs that accompanies TLR7-driven immunopathogenesis. Autoimmunity mediated by age-associated B cells (ABC) can affect males and females differently. Here, using a lupus-like mouse model that affects females more severely, the authors observe an ABC mediated and guanine nucleotide exchange factor (GEF) restrained pathogenic process involving TLR7.

CD11c (integrin αX) is one of the β 2 integrin members traditionally recognized as a dendritic cell marker. It forms the CD11c/CD18 heterodimer—also known as complement receptor 4 (CR4)—and mediates ligand binding to complement fragments, fibrinogen, and intercellular adhesion molecules in vitro . Although its expression on dendritic cells and a subset of macrophage populations has been well recognized historically, recent findings reveal that it demonstrates a broader expression profile, including in neutrophils. In neutrophils, CD11c is predominantly intracellular, suggesting a non-canonical role beyond cellular adhesion. We previously identified IQGAP1 as an intracellular binding partner of CD11c/CD18, implicating this interaction in neutrophil maturation. Here, mature CD11c-deficient neutrophils displayed impaired reactive oxygen species (ROS) generation while maintaining normal phagocytosis, indicating a selective defect in oxidative burst. Given the central role of NADPH oxidase and Rac activation in ROS production, we hypothesized that CD11c would influence this pathway. Phosphoproteomic profiling revealed reduced phosphorylation of the Rac guanine nucleotide exchange factor DOCK2 in CD11c-deficient neutrophils upon phorbol 12-myristate 13-acetate (PMA) stimulation. The analysis involving immunoprecipitation and proteomics confirmed a CD11c–DOCK2 association. These results supported a model in which CD11c would directly engage DOCK2 to promote Rac activation and NADPH oxidase function, uncovering a novel integrin-mediated mechanism regulating neutrophil effector activity. This work expands the functional repertoire of CD11c and provides a new insight into integrin signaling in innate immunity.

Details of the ontogeny of alveolar macrophages remain unclear. Kopf and colleagues show that fetal monocytes give rise to alveolar macrophages in a manner dependent on the nuclear receptor PPAR-γ and the cytokine GM-CSF. Tissue-resident macrophages constitute heterogeneous populations with unique functions and distinct gene-expression signatures. While it has been established that they originate mostly from embryonic progenitor cells, the signals that induce a characteristic tissue-specific differentiation program remain unknown. We found that the nuclear receptor PPAR-γ determined the perinatal differentiation and identity of alveolar macrophages (AMs). In contrast, PPAR-γ was dispensable for the development of macrophages located in the peritoneum, liver, brain, heart, kidneys, intestine and fat. Transcriptome analysis of the precursors of AMs from newborn mice showed that PPAR-γ conferred a unique signature, including several transcription factors and genes associated with the differentiation and function of AMs. Expression of PPAR-γ in fetal lung monocytes was dependent on the cytokine GM-CSF. Therefore, GM-CSF has a lung-specific role in the perinatal development of AMs through the induction of PPAR-γ in fetal monocytes.

Early pregnancy loss (EPL) is closely associated with imbalances in the maternal-foetal immune microenvironment. Here we identify CD11c + CD8 + T cells, an unconventional cytotoxic T cell subset, as significantly enriched and activated in EPL cases. These cells contribute to immune dysregulation and inhibit trophoblast invasion through secreting granzyme B, perforin, CD107a, TNF-α, and IFN-γ. Furthermore, we present an effective early prediction model for EPL, based on cytokine and cytotoxic molecule profiles of CD11c + CD8 + T cells in maternal serum, collected 12-16 days post-embryo transfer. Functional assays reveal that IFN-γ triggers trophoblast pyroptosis via the NLRP3/Caspase-1/GSDMD pathway, impairing trophoblast invasion. In vivo validation using abortion-prone mice and an anti-4-1BB antibody-induced model of CD11c + CD8 + T cell activation confirms increased embryo resorption and reduced trophoblast infiltration. These findings highlight the role of dysregulated CD11c + CD8 + T cells at the maternal-foetal interface in EPL, and suggest their potential as biomarkers and therapeutic targets for EPL-management. The maternal-foetal immune microenvironment is important in pregnancy maintenance and its dysregulation could lead to early pregnancy loss (EPL). Here authors identify unconventional CD11c + CD8 + T cells as major players in EPL immune pathology via impairing trophoblast invasion.

Gammaherpesviruses are ubiquitous pathogens that are associated with cancer and multiple sclerosis. These viruses selectively infect B cells and drive their differentiation through the germinal center response to establish chronic infection. Here, we demonstrate that gammaherpesvirus infection drives expansion and germinal center-based differentiation of CD11c + B cells that host the latent viral reservoir. We also show that B-cell-intrinsic T-bet expression is important for control of long-term gammaherpesvirus infection and pathogenesis.

Gland macrophages are primed for gland development and functions through interactions within their niche. However, the phenotype, ontogeny, and function of steady-state salivary gland (SG) macrophages remain unclear. We herein identified CD11c + and CD11c − subsets among CD64 + macrophages in steady-state murine SGs. CD11c − macrophages were predominant in the SGs of embryonic and newborn mice and decreased with advancing age. CD11c + macrophages were rarely detected in the embryonic period, but rapidly expanded after birth. CD11c + , but not CD11c − , macrophage numbers decreased in mice treated with a CCR2 antagonist, suggesting that CD11c + macrophages accumulate from bone marrow-derived progenitors in a CCR2-dependent manner, whereas CD11c − macrophages were derived from embryonic progenitors in SGs. CD11c + and CD11c − macrophages strongly expressed colony-stimulating factor (CSF)-1 receptor, the injection of an anti-CSF-1 receptor blocking antibody markedly reduced both subsets, and SGs strongly expressed CSF-1, indicating the dependency of SG resident macrophage development on CSF-1. The phagocytic activity of SG macrophages was extremely weak; however, the gene expression profile of SG macrophages indicated that SG macrophages regulate gland development and functions in SGs. These results suggest that SG CD11c + and CD11c − macrophages are developed and instructed to perform SG-specific functions in steady-state SGs.