Your search keyword '"T cell differentiation"' showing total 6,377 results

1. Autoimmune CD4+ T cells fine-tune TCF1 expression to maintain function and survive persistent antigen exposure during diabetes.

Author

Aljobaily, Nouf, Allard, Denise, Perkins, Bryant, Raugh, Arielle, Galland, Tessa, Jing, Yi, Stephens, W. Zac, Bettini, Matthew L., Hale, J. Scott, and Bettini, Maria

Subjects

*T cell differentiation, *T cells, *TYPE 1 diabetes, *CELL physiology, *CELL survival

Abstract

Self-reactive T cells experience chronic antigen exposure but do not exhibit signs of exhaustion. Here, we investigated the mechanisms for sustained, functioning autoimmune CD4+ T cells despite chronic stimulation. Examination of T cell priming showed that CD4+ T cells activated in the absence of infectious signals retained TCF1 expression. At later time points and during blockade of new T cell recruitment, most islet-infiltrating autoimmune CD4+ T cells were TCF1+, although expression was reduced on a per T cell basis. The Tcf7 locus was epigenetically modified in circulating autoimmune CD4+ T cells, suggesting a pre-programmed de novo methylation of the locus in early stages of autoimmune CD4+ T cell differentiation. This mirrored the epigenetic profile of recently recruited CD4+CD62L+ T cells in the pancreas. Collectively, these data reveal a unique environment during autoimmune CD4+ T cell priming that allows T cells to fine-tune TCF1 expression and maintain long-term survival and function. [Display omitted] • Autoimmune CD4+ T cell priming allows maintenance of TCF1 expression • Tcf7 locus is epigenetically modified in the early stages of T cell differentiation • Distal lymph nodes serve as a reservoir of epigenetically pre-programmed cells • Autoimmune CD4+ T cells fine-tune TCF1 to balance persistence and function Mechanisms that support long-term CD4+ T cell persistence and function in the face of chronic autoimmune stimulus remain unresolved. Aljobaily et al. demonstrate that epigenetic programming and retention of low TCF1 expression promote autoimmune CD4+ T cell survival and effector function in a murine model of diabetes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Continuous Oral Administration of the Superantigen Staphylococcal Enterotoxin C2 Activates Intestinal Immunity and Modulates the Gut Microbiota in Mice.

Author

Gu, Wu, Zhang, Huiwen, Zhang, Zhichun, Xu, Mingkai, Li, Xiang, Han, Zhiyang, Fu, Xuanhe, Li, Xu, Wang, Xiujuan, and Zhang, Chenggang

Subjects

*ORAL drug administration, *INTESTINAL barrier function, *B cell differentiation, *T cell differentiation, *LYMPHOID tissue

Abstract

Staphylococcal Enterotoxin C2 (SEC2), a classical superantigen, is an antitumor immunotherapy agent. However, the injectable formulation of SEC2 limits its clinical application. Here, it is reported that oral administration of SEC2 activates the intestinal immune system and benefits intestinal health in a mouse model. These results indicate that intact SEC2 is detected in the stomach, intestine, and serum after oral administration. Continuous oral administration of SEC2 activates immune cells in gut‐associated lymphoid tissues, promoting extensive differentiation and proliferation of CD4+ and CD8+ T cells and CD19+ B cells, leading to increased production of cytokines and secretory immunoglobulin A. SEC2 also enhances intestinal barrier function, as demonstrated by an increased villus length/crypt depth ratio and elevated expression of mucins and tight junction proteins. Additionally, SEC2 indirectly influenced gut microbiota, reinforcing potential probiotics and short‐chain fatty acid synthesis. Enhanced differentiation of T and B cells in the spleen, coupled with elevated serum interleukin‐2 levels, suggests systemic immune enhancement following oral administration of SEC2. These findings provide a scientific basis for the development of SEC2 as an oral immunostimulant for immune enhancement and anti‐tumor immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

3. Advances in the study of artemisinin and its derivatives for the treatment of rheumatic skeletal disorders, autoimmune inflammatory diseases, and autoimmune disorders: a comprehensive review.

Author

Long, Zhiyong, Xiang, Wang, Xiao, Wei, Min, Yu, Qu, Fei, Zhang, Bolin, and Zeng, Liuting

Subjects

REGULATORY T cells, IMMUNOREGULATION, ARTEMISININ derivatives, T cell differentiation, AUTOIMMUNE diseases

Abstract

Artemisinin and its derivatives are widely recognized as first-line treatments for malaria worldwide. Recent studies have demonstrated that artemisinin-based antimalarial drugs, such as artesunate, dihydroartemisinin, and artemether, not only possess excellent antimalarial properties but also exhibit antitumor, antifungal, and immunomodulatory effects. Researchers globally have synthesized artemisinin derivatives like SM735, SM905, and SM934, which offer advantages such as low toxicity, high bioavailability, and potential immunosuppressive properties. These compounds induce immunosuppression by inhibiting the activation of pathogenic T cells, suppressing B cell activation and antibody production, and enhancing the differentiation of regulatory T cells. This review summarized the mechanisms by which artemisinin and its analogs modulate excessive inflammation and immune responses in rheumatic and skeletal diseases, autoimmune inflammatory diseases, and autoimmune disorders, through pathways including TNF, Toll-like receptors, IL-6, RANKL, MAPK, PI3K/AKT/mTOR, JAK/STAT, and NRF2/GPX4. Notably, in the context of the NF-κB pathway, artemisinin not only inhibits NF-κB expression by disrupting upstream cascades and/or directly binding to NF-κB but also downregulates multiple downstream genes controlled by NF-κB, including inflammatory chemokines and their receptors. These downstream targets regulate various immune cell functions, apoptosis, proliferation, signal transduction, and antioxidant responses, ultimately intervening in systemic autoimmune diseases and autoimmune responses in organs such as the kidneys, nervous system, skin, liver, and biliary system by modulating immune dysregulation and inflammatory responses. Ongoing multicenter randomized clinical trials are investigating the effects of these compounds on rheumatic, inflammatory, and autoimmune diseases, with the aim of translating promising preclinical data into clinical applications. [ABSTRACT FROM AUTHOR]

Published

2024

4. Identification of clonally expanded γδ T‐cell populations during CAR‐T cell therapy.

Author

Safavi, Arman, Samir, Jerome, Singh, Mandeep, Bonomi, Martina, Louie, Raymond Yip, Micklethwaite, Kenneth, and Luciani, Fabio

Subjects

*B cell lymphoma, *T cell receptors, *T cell differentiation, *TREATMENT effectiveness, *GENE expression profiling, *T cells

Abstract

Anti‐CD19 Chimeric Antigen Receptor (CAR)‐T cell therapies have shown promise for treating B cell malignancies, but the clinical outcome is influenced by both the CAR‐T product and the patient's immune system. The role of γδ T cells in the context of CAR‐T cell therapy remains poorly understood. This study investigates the transcriptional heterogeneity, clonal expansion and dynamics of γδ T cells in patients undergoing anti‐CD19 CAR‐T cell therapy. Longitudinal single cell multi‐omics analysis was performed on γδ T cells from four patients receiving anti‐CD19 CAR‐T cell therapy. Single cell RNA‐seq, antibody‐based protein profiling (AbSeq) and full‐length TCRγδ sequences revealed clonally expanded populations displaying plasticity in T cell differentiation, and temporal dynamics of large clones, suggesting ongoing expansion and differentiation. Clonally expanded γδ T cells had heterogeneous gene expression profiles, occupying seven transcriptionally distinct clusters. Analysis of chemokine markers indicated cluster‐specific homing tendencies of circulating γδ T cells to peripheral tissues. We found unexpectedly high frequencies of Vδ1 and Vδ3 cells in the blood with distinct gene and protein expression profiles. This analysis provides insights into the dynamic and heterogeneous nature of γδ T cells following anti‐CD19 CAR‐T cell therapy, contributing valuable information for optimizing CAR‐T cell therapies in B cell malignancies. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Role of miR-155 in Modulating Gene Expression in CD4+ T Cells: Insights into Alternative Immune Pathways in Autoimmune Encephalomyelitis.

Author

Cichalewska-Studzinska, Maria, Szymanski, Jacek, Stec-Martyna, Emilia, Perdas, Ewelina, Studzinska, Miroslawa, Jerczynska, Hanna, Kulczycka-Wojdala, Dominika, Stawski, Robert, and Mycko, Marcin P.

Subjects

*T helper cells, *T cell differentiation, *T cells, *FREE fatty acids, *GENE expression

Abstract

CD4+ T cells are considered the main orchestrators of autoimmune diseases. Their disruptive effect on CD4+ T cell differentiation and the imbalance between T helper cell populations can be most accurately determined using experimental autoimmune encephalomyelitis (EAE) as an animal model of multiple sclerosis (MS). One epigenetic factor known to promote autoimmune inflammation is miRNA-155 (miR-155), which is significantly upregulated in inflammatory T cells. The aim of the present study was to profile the transcriptome of immunized mice and determine their gene expression levels based on mRNA and miRNA sequencing. No statistically significant differences in miRNA profile were observed; however, substantial changes in gene expression between miRNA-155 knockout (KO) mice and WT were noted. In miR-155 KO mice, mRNA expression in CD4+ T cells changed in response to immunization with the myeloid antigen MOG35-55. After restimulation with MOG35-55, increased Ffar1 (free fatty acid receptor 1) and Scg2 (secretogranin-2) expression were noted in the CD4+ T cells of miR-155-deficient mice; this is an example of an alternative response to antigen stimulation. [ABSTRACT FROM AUTHOR]

Published

2024

6. New opportunities to overcome T cell dysfunction: the role of transcription factors and how to target them.

Author

Wu, Bocheng, Koehler, Angela N., and Westcott, Peter M.K.

Subjects

*TRANSCRIPTION factors, *LEUCINE zippers, *INTERFERON regulatory factors, *T cell differentiation, *CELL receptors, *T cells

Abstract

T cell dysfunction is a major barrier to more effective and long-lasting treatment responses in cancer. Transcription factors (TFs), including nuclear factor of activated T cells (NFAT)/activating protein-1 (AP-1), interferon regulatory factor 4 (IRF4)/basic leucine zipper ATF-like TF (BATF), T cell factor 1 (TCF-1), NR4A, TOX, and T-bet/Eomes, play critical context-specific roles in T cell development, function, and dysfunction. Targeting TFs with existing and future small molecule modulators is an untapped therapeutic opportunity to overcome T cell dysfunction. Small molecule modulators may be able to fine-tune TF protein–protein interactions and activity to prevent exhaustion while preserving critical T cell differentiation, effector, and memory programs. Immune checkpoint blockade (ICB) therapies, which block inhibitory receptors on T cells, can be efficacious in reinvigorating dysfunctional T cell responses. However, most cancers do not respond to these therapies and even in those that respond, tumors can acquire resistance. New strategies are needed to rescue and recruit T cell responses across patient populations and disease states. In this review, we define mechanisms of T cell dysfunction, focusing on key transcription factor (TF) networks. We discuss the complex and sometimes contradictory roles of core TFs in both T cell function and dysfunction. Finally, we review strategies to target TFs using small molecule modulators, which represent a challenging but highly promising opportunity to tune the T cell response toward sustained immunity. [ABSTRACT FROM AUTHOR]

Published

2024

7. NrCAM activates the NF‐κB signalling pathway by competitively binding to SUMO‐1 and promotes Th17 cell differentiation in Graves' disease.

Author

Huang, Fengjiao, Zhang, Lijuan, Zhou, Yingying, Zhao, Shuiying, and Wang, Jiao

Subjects

*MONONUCLEAR leukocytes, *T helper cells, *CELL adhesion molecules, *T cell differentiation, *T cells

Abstract

This study aimed to explore the molecular mechanism of neuronal cell adhesion molecule (NrCAM) by regulating Th17 cell differentiation in the pathogenesis of Graves' disease (GD). Naïve CD4+ T cells were isolated from peripheral blood mononuclear cells of GD patients and healthy control (HC) subjects. During the differentiation of CD4+ T cells into Th17 cells, NrCAM level in GD group was improved. Interference with NrCAM in CD4+ T cells of GD patients decreased the percentage of Th17 cells. NrCAM overexpression in CD4+ T cells of HC subjects increased the percentage of Th17 cells and upregulated p‐IκBα, p50, p65, c‐Rel protein expressions, and NF‐κB inhibitor BAY11‐7082 partially reversed NrCAM effect. NrCAM overexpression promoted the degradation of IκBα, and overexpression of small ubiquitin‐related modifier 1 (SUMO‐1) inhibited IκBα degradation. NrCAM overexpression reduced IκBα binding to SUMO‐1. During Th17 cell differentiation in HC group, NrCAM overexpression increased IL‐21 levels and secretion, and IL‐21 neutralizing antibody reversed this effect. IL‐21 level was decreased after p65 interference in CD4+ T cells of HC subjects. p65 interacts with IL‐21 promoter region. In conclusion, NrCAM binds to SUMO‐1 and increases phosphorylation of IκBα, leading to activation of NF‐κB pathway, which promotes Th17 cell differentiation. [ABSTRACT FROM AUTHOR]

Published

2024

8. Staphyloccocus aureus biofilm, in absence of planktonic bacteria, produces factors that activate counterbalancing inflammatory and immune‐suppressive genes in human monocytes.

Author

Bell, Richard D., Cann, E. Abrefi, Mishra, Bikash, Valencia, Melanie, Zhang, Qiong, Huang, Mary, Yang, Xu, Carli, Alberto, Bostrom, Mathias, and Ivashkiv, Lionel B.

Subjects

*PROSTHESIS-related infections, *T cell differentiation, *T helper cells, *BACTERIAL inactivation, *LIGANDS (Biochemistry)

Abstract

Staphyloccocus aureus (S. aureus) is a major bacterial pathogen in orthopedic periprosthetic joint infection (PJI). S. aureus forms biofilms that promote persistent infection by shielding bacteria from immune cells and inducing an antibiotic‐tolerant metabolic state. We developed an in vitro system to study S. aureus biofilm interactions with primary human monocytes in the absence of planktonic bacteria. In line with previous in vivo data, S. aureus biofilm induced expression of inflammatory genes such as TNF and IL1B, and their anti‐inflammatory counter‐regulator IL10. S. aureus biofilm also activated expression of PD‐1 ligands, and IL‐1RA, molecules that have the potential to suppress T cell function or differentiation of protective Th17 cells. Gene induction did not require monocyte:biofilm contact and was mediated by a soluble factor(s) produced by biofilm‐encased bacteria that was heat resistant and >3 kD in size. Activation of suppressive genes by biofilm was sensitive to suppression by Jak kinase inhibition. These results support an evolving paradigm that biofilm plays an active role in modulating immune responses, and suggest this occurs via production of a soluble vita‐pathogen‐associated molecular pattern, a molecule that signals microbial viability. Induction of T cell suppressive genes by S. aureus biofilm provides insights into mechanisms that can suppress T cell immunity in PJI. [ABSTRACT FROM AUTHOR]

Published

2024

9. Transcriptional rewiring in CD8+ T cells: implications for CAR-T cell therapy against solid tumours.

Author

Srinivasan, Shamini, Armitage, Jesse, Nilsson, Jonas, and Waithman, Jason

Subjects

CHIMERIC antigen receptors, T-cell exhaustion, T cell differentiation, TRANSCRIPTION factors, T cells

Abstract

T cells engineered to express chimeric-antigen receptors (CAR-T cells) can effectively control relapsed and refractory haematological malignancies in the clinic. However, the successes of CAR-T cell therapy have not been recapitulated in solid tumours due to a range of barriers such as immunosuppression, poor infiltration, and tumour heterogeneity. Numerous strategies are being developed to overcome these barriers, which include improving culture conditions and manufacturing protocols, implementing novel CAR designs, and novel approaches to engineering the T cell phenotype. In this review, we describe the various emerging strategies to improve CAR T cell therapy for solid tumours. We specifically focus on new strategies to modulate cell function and fate that have precipitated from the growing knowledge of transcriptional circuits driving T cell differentiation, with the ultimate goal of driving more productive antitumour T cell immunity. Evidence shows that enrichment of particular phenotypic subsets of T cells in the initial cell product correlates to improved therapeutic responses and clinical outcomes. Furthermore, T cell exhaustion and poor persistence are major factors limiting therapeutic efficacy. The latest preclinical work shows that targeting specific master regulators and transcription factors can overcome these key barriers, resulting in superior T cell therapeutic products. This can be achieved by targeting key transcriptional circuits promoting memory-like phenotypes or sustaining key effector functions within the hostile tumour microenvironment. Additional discussion points include emerging considerations for the field such as (i) targeting permutations of transcription factors, (ii) transient expression systems, (iii) tissue specificity, and (iv) expanding this strategy beyond CAR-T cell therapy and cancer. [ABSTRACT FROM AUTHOR]

Published

2024

10. Multistability and predominant hybrid phenotypes in a four node mutually repressive network of Th1/Th2/Th17/Treg differentiation.

Author

Duddu, Atchuta Srinivas, Andreas, Elizabeth, BV, Harshavardhan, Grover, Kaushal, Singh, Vivek Raj, Hari, Kishore, Jhunjhunwala, Siddharth, Cummins, Breschine, Gedeon, Tomas, and Jolly, Mohit Kumar

Subjects

*T cell differentiation, *TH1 cells, *PROGENITOR cells, *TRANSCRIPTION factors, *PHENOTYPES

Abstract

Elucidating the emergent dynamics of cellular differentiation networks is crucial to understanding cell-fate decisions. Toggle switch – a network of mutually repressive lineage-specific transcription factors A and B – enables two phenotypes from a common progenitor: (high A, low B) and (low A, high B). However, the dynamics of networks enabling differentiation of more than two phenotypes from a progenitor cell has not been well-studied. Here, we investigate the dynamics of a four-node network A, B, C, and D inhibiting each other, forming a toggle tetrahedron. Our simulations show that this network is multistable and predominantly allows for the co-existence of six hybrid phenotypes where two of the nodes are expressed relatively high as compared to the remaining two, for instance (high A, high B, low C, low D). Finally, we apply our results to understand naïve CD4+ T cell differentiation into Th1, Th2, Th17 and Treg subsets, suggesting Th1/Th2/Th17/Treg decision-making to be a two-step process. [ABSTRACT FROM AUTHOR]

Published

2024

11. RGS10 Deficiency Alleviated Intestinal Mucosal Inflammation Through Suppression of Th1/Th17 Cell Immune Responses in Ulcerative Colitis.

Author

Yang, Yonghong, Shao, Yiming, Gao, Xizhuang, Hu, Zongjing, Wang, Yan, Ma, Cuimei, Jin, Guiyuan, Zhu, Fengqin, Dong, Guanjun, and Zhou, Guangxi

Subjects

*T helper cells, *TH1 cells, *T cell differentiation, *ULCERATIVE colitis, *T cells

Abstract

ABSTRACT Regulator of G‐protein signalling (RGS) 10 plays critical roles in several immune related diseases. However, whether RGS10 is involved in colonic inflammation of ulcerative colitis (UC) is still obscure. This study aimed to investigate the role of RGS10 in UC. In this study, RGS10 expression was examined by quantitative real‐time polymerase chain reaction (qRT‐PCR), western blotting, immunohistochemistry, and immunofluorescent analysis. Single‐cell RNA sequencing of intestinal mucosa was performed to identify key immune cells with differentially expressed RGS10. RGS10 knockout mice were generated and established dextran sulphate sodium (DSS)‐induced colitis. Expression of inflammatory cytokines on mRNA and protein levels was detected by qRT‐PCR, enzyme‐linked immunosorbent assay, and flow cytometry. We found that RGS10 expression was significantly elevated in UC patients, especially in CD4+ T cells, compared with healthy subjects. Intriguingly, RGS10 deficiency markedly alleviated DSS‐induced colitis and decreased the proportion of Th1 and Th17 cells in lamina propria mononuclear cells (LPMCs), peripheral blood (PB), spleens, and mesenteric lymph nodes (mLNs). Mechanistically, RGS10 deficiency blocked the differentiation of Th1 and Th17 cells by inhibiting the phosphorylation of signal transducer and activator of transcription (STAT) 1 and STAT3. The co‐immunoprecipitation analysis further showed that RGS10 could interact with protein tyrosine phosphatase non‐receptor type 2 (PTPN2), and further regulated Th1 and Th17 cells differentiation of CD4+ T cells. In conclusion, RGS10 deficiency alleviated intestinal mucosal inflammation through inhibition of Th1/Th17 cell‐mediated immune responses via interaction with PTPN2 in CD4+ T cells. Therefore, targeting RGS10 may represent a novel therapeutic approach for UC treatment. [ABSTRACT FROM AUTHOR]

Published

2024

12. Acetylcysteine synergizes PD-1 blockers against colorectal cancer progression by promoting TCF1+PD1+CD8+ T cell differentiation.

Author

Zhou, Wenchang, Qu, Mengdi, Yue, Ying, Zhong, Ziwen, Nan, Ke, Sun, Xingfeng, Wu, Qichao, Zhang, Jie, Chen, Wankun, and Miao, Changhong

Subjects

*T cell differentiation, *T-cell exhaustion, *GLUCOSE transporters, *PROGRAMMED cell death 1 receptors, *COLORECTAL cancer, *T cells

Abstract

Background: Programmed cell death protein 1 (PD-1) blockade is essential in treating progressive colorectal cancer (CRC). However, some patients with CRC do not respond well to immunotherapy, possibly due to the exhaustion of CD8+ T cells in the tumor microenvironment. N-Acetylcysteine (NAC) can reduce CD8+ T cell exhaustion in vitro and induce their differentiation into long-lasting phenotypes, thus enhancing the anti-tumor effect of adoptive T cell transfer. However, whether NAC can be combined with PD-1 blockade in CRC treatment and how NAC regulates CD8+ T cell differentiation remain unclear. Hence, in this study, we aimed to investigate whether NAC has a synergistic effect with PD-1 blockers against CRC progression. Methods: We constructed a mouse CRC model to study the effect of NAC on tumors. The effect of NAC on CD8 + T cell differentiation and its potential mechanism were explored using cell flow assay and other studies in vitro and ex vivo. Results: We demonstrated that NAC synergized PD-1 antibodies to inhibit CRC progression in a mouse CRC model mediated by CD8+ T cells. We further found that NAC can induce TCF1+PD1+CD8+ T cell differentiation and reduce the formation of exhausted T cells in vitro and in vivo. Moreover, NAC enhanced the expression of Glut4 in CD8+ T cells, promoting the differentiation of TCF1+PD1+CD8+ T cells. Conclusions: Our study provides a novel idea for immunotherapy for clinically progressive CRC and suggests that Glut4 may be a new immunometabolic molecular target for regulating CD8+ T cell differentiation. [ABSTRACT FROM AUTHOR]

Published

2024

13. Multi-scalar data integration decoding risk genes for chronic kidney disease.

Author

Ding, Shiqi, Guo, Jing, Chen, Huimei, and Petretto, Enrico

Subjects

T cell differentiation, GENE expression, GENOME-wide association studies, KIDNEY failure, CHRONIC kidney failure

Abstract

Background: Chronic Kidney Disease (CKD) impacts over 10% of the global population, and recent advancements in high-throughput analytical technologies are uncovering the complex physiology underlying this condition. By integrating Genome-Wide Association Studies (GWAS), RNA sequencing (RNA-seq/RNA array), and single-cell RNA sequencing (scRNA-seq) data, our study aimed to explore the genes and cell types relevant to CKD traits. Methods: GWAS summary data for end-stage renal failure (ESRD) and decreased eGFR (CKD) with or without diabetes and (micro)proteinuria were obtained from the GWAS Catalog and the UK Biobank (UKB) database. Two gene Expression Omnibus (GEO) transcriptome datasets were used to establish glomerular and tubular gene expression differences between CKD patients and healthy individuals. Two scRNA-seq datasets were utilized to obtain the expression of key genes at the single-cell level. The expression profile, differentially expressed genes (DEGs), gene-gene interaction, and pathway enrichment were analysed for these CKD risk genes. Results: A total of 779 distinct SNPs were identified from GWAS across different CKD traits, involving 681 genes. While many of these risk genes are specific to the CKD traits of renal failure, decreased eGFR, and (micro)proteinuria, they share common pathways, including extracellular matrix (ECM). ECM modeling was enriched in upregulated glomerular and tubular DEGs from CKD kidneys compared to healthy controls, with the expression of relevant collagen genes, such as COL1A2, prevalent in fibroblasts/myofibroblasts. Additionally, immune responses, including T cell differentiation, were dysregulated in CKD kidneys. The late podocyte signature gene THSD7A was enriched in podocytes but downregulated in CKD. We also highlighted that the regulated risk genes of CKD are mainly expressed in tubular cells and immune cells in the kidney. Conclusions: Our integrated analysis highlight the genes, pathways, and relevant cell types associational with the pathogenesis of kidney traits, as a basis for further mechanistic studies to understand the pathogenesis of CKD. [ABSTRACT FROM AUTHOR]

Published

2024

14. Unveiling the Role of Gut Microbiota and Metabolites in Autoimmune Thyroid Diseases: Emerging Perspectives.

Author

Yan, Kai, Sun, Xin, Fan, Chenxi, Wang, Xin, and Yu, Hongsong

Subjects

*AUTOIMMUNE thyroiditis, *T cell differentiation, *SHORT-chain fatty acids, *GASTROINTESTINAL system, *AUTOIMMUNE diseases, *METAGENOMICS, *THYROID hormone regulation

Abstract

Autoimmune thyroid diseases (AITDs) are among the most prevalent organ-specific autoimmune disorders, with thyroid hormones playing a pivotal role in the gastrointestinal system's structure and function. Emerging evidence suggests a link between AITDs and the gut microbiome, which is a diverse community of organisms that are essential for digestion, absorption, intestinal homeostasis, and immune defense. Recent studies using 16S rRNA and metagenomic sequencing of fecal samples from AITD patients have revealed a significant correlation between a gut microbiota imbalance and the severity of AITDs. Progress in animal models of autoimmune diseases has shown that intervention in the gut microbiota can significantly alter the disease severity. The gut microbiota influences T cell subgroup differentiation and modulates the pathological immune response to AITDs through mechanisms involving short-chain fatty acids (SCFAs), lipopolysaccharides (LPSs), and mucosal immunity. Conversely, thyroid hormones also influence gut function and microbiota composition. Thus, there is a bidirectional relationship between the thyroid and the gut ecosystem. This review explores the pathogenic mechanisms of the gut microbiota and its metabolites in AITDs, characterizes the gut microbiota in Graves' disease (GD) and Hashimoto's thyroiditis (HT), and examines the interactions between the gut microbiota, thyroid hormones, T cell differentiation, and trace elements. The review aims to enhance understanding of the gut microbiota–thyroid axis and proposes novel approaches to mitigate AITD severity through gut microbiota modulation. [ABSTRACT FROM AUTHOR]

Published

2024

15. Key genes and immune pathways in T-cell mediated rejection post-liver transplantation identified via integrated RNA-seq and machine learning.

Author

Shao, Wenhao, Ding, Huaxing, Wang, Yan, Shi, Zhiyong, Zhang, Hezhao, Meng, Fanxiu, Chang, Qingyao, Duan, Haojiang, Lu, Kairui, Zhang, Li, and Xu, Jun

Subjects

*T cell differentiation, *GENE expression, *MYELOID cells, *GRAFT rejection, *GENE regulatory networks

Abstract

Liver transplantation is the definitive treatment for end-stage liver disease, yet T-cell mediated rejection (TCMR) remains a major challenge. This study aims to identify key genes associated with TCMR and their potential biological processes and mechanisms. The GSE145780 dataset was subjected to differential expression analysis, weighted gene co-expression network analysis (WGCNA), and machine learning algorithms to pinpoint key genes associated with TCMR. Gene Set Enrichment Analysis (GSEA), immune infiltration analysis, and regulatory networks were constructed to ascertain the biological relevance of these genes. Expression validation was performed using single-cell RNA-seq (scRNA-seq) data and liver biopsy tissues from patients. We identified 5 key genes (ITGB2, FCER1G, IL-18, GBP1, and CD53) that are associated with immunological functions, such as chemotactic activity, antigen processing, and T cell differentiation. GSEA highlighted enrichment in chemokine signaling and antigen presentation pathways. A lncRNA-miRNA-mRNA network was delineated, and drug target prediction yielded 26 potential drugs. Evaluation of expression levels in non-rejection (NR) and TCMR groups exhibited significant disparities in T cells and myeloid cells. Tissue analyses from patients corroborated the upregulation of GBP1, IL-18, CD53, and FCER1G in TCMR cases. Through comprehensive analysis, this research has identified 4 genes intimately connected with TCMR following liver transplantation, shedding light on the underlying immune activation pathways and suggesting putative targets for therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2024

16. BRD4 inhibitor reduces exhaustion and blocks terminal differentiation in CAR-T cells by modulating BATF and EGR1.

Author

Sui, Songnan, Zhong, Mengjun, Zhong, Shuxin, Peng, Xueting, Mao, Lipeng, Chen, Cunte, Zeng, Chengwu, Luo, Oscar Junhong, and Li, Yangqiu

Subjects

T-cell exhaustion, T cell differentiation, CHIMERIC antigen receptors, RNA sequencing, CELL differentiation, T cells

Abstract

Background: Exhaustion is a key factor that influences the efficacy of chimeric antigen receptor T (CAR-T) cells. Our previous study demonstrated that a bromodomain protein 4 (BRD4) inhibitor can revise the phenotype and function of exhausted T cells from leukemia patients. This study aims to elucidate the mechanism by which a BRD4 inhibitor reduces CAR-T cell exhaustion using single-cell RNA sequencing (scRNA-Seq). Methods: Exhausted CD123-specific CAR-T cells were prepared by co-culture with CD123 antigen-positive MV411 cells. After elimination of MV411 cells and upregulation of inhibitory receptors on the surface, exhausted CAR-T cells were treated with a BRD4 inhibitor (JQ1) for 72 h. The CAR-T cells were subsequently isolated, and scRNA-Seq was conducted to characterize phenotypic and functional changes in JQ1-treated cells. Results: Both the proportion of exhausted CD8+ CAR-T cells and the exhausted score of CAR-T cells decreased in JQ1-treated compared with control-treated cells. Moreover, JQ1 treatment led to a higher proportion of naïve, memory, and progenitor exhausted CD8+ CAR-T cells as opposed to terminal exhausted CD8+ CAR-T cells accompanied by enhanced proliferation, differentiation, and activation capacities. Additionally, with JQ1 treatment, BATF activity and expression in naïve, memory, and progenitor exhausted CD8+ CAR-T cells decreased, whereas EGR1 activity and expression increased. Interestingly, AML patients with higher EGR1 and EGR1 target gene ssGSEA scores, coupled with lower BATF and BATF target gene ssGSEA scores, had the best prognosis. Conclusions: Our study reveals that a BRD4 inhibitor can reduce CAR-T cell exhaustion and block exhausted T cell terminal differentiation by downregulating BATF activity and expression together with upregulating EGR1 activity and expression, presenting an approach for improving the effectiveness of CAR-T cell therapy. [ABSTRACT FROM AUTHOR]

Published

2024

17. AMPK activation induces RALDH+ tolerogenic dendritic cells by rewiring glucose and lipid metabolism.

Author

Brombacher, Eline C., Patente, Thiago A., van der Ham, Alwin J., Moll, Tijmen J. A., Otto, Frank, Verheijen, Fenne W. M., Zaal, Esther A., de Ru, Arnoud H., Tjokrodirijo, Rayman T. N., Berkers, Celia R., van Veelen, Peter A., Guigas, Bruno, and Everts, Bart

Subjects

*REGULATORY T cells, *AMP-activated protein kinases, *T cell differentiation, *FATTY acid oxidation, *LIPID metabolism, *T cells

Abstract

Dendritic cell (DC) activation and function are underpinned by profound changes in cellular metabolism. Several studies indicate that the ability of DCs to promote tolerance is dependent on catabolic metabolism. Yet the contribution of AMP-activated kinase (AMPK), a central energy sensor promoting catabolism, to DC tolerogenicity remains unknown. Here, we show that AMPK activation renders human monocyte-derived DCs tolerogenic as evidenced by an enhanced ability to drive differentiation of regulatory T cells, a process dependent on increased RALDH activity. This is accompanied by several metabolic changes, including increased breakdown of glycerophospholipids, enhanced mitochondrial fission–dependent fatty acid oxidation, and upregulated glucose catabolism. This metabolic rewiring is functionally important as we found interference with these metabolic processes to reduce to various degrees AMPK-induced RALDH activity as well as the tolerogenic capacity of moDCs. Altogether, our findings reveal a key role for AMPK signaling in shaping DC tolerogenicity and suggest AMPK as a target to direct DC-driven tolerogenic responses in therapeutic settings. [ABSTRACT FROM AUTHOR]

Published

2024

18. IL-7Rα on CD4+ T cells is required for their survival and the pathogenesis of experimental autoimmune encephalomyelitis.

Author

Azizi, Gholamreza, Van den Broek, Bram, Ishikawa, Larissa Lumi Watanabe, Naziri, Hamed, Yazdani, Reza, Zhang, Guang-Xian, Ciric, Bogoljub, and Rostami, Abdolmohamad

Subjects

*REGULATORY T cells, *T helper cells, *THYMIC stromal lymphopoietin, *T cell differentiation, *T cells

Abstract

Background: The IL-7 receptor alpha (IL-7Rα) binds both IL-7 and thymic stromal lymphopoietin (TSLP). IL-7Rα is essential for the development and survival of naive CD4+ T cells and their differentiation to effector/memory CD4+ T cells. Mice lacking IL-7Rα have severe lymphopenia and are resistant to experimental autoimmune encephalomyelitis (EAE), a model for multiple sclerosis. However, it has been reported that IL-7Rα on peripheral CD4+ T cells is disposable for their maintenance and EAE pathogenesis, which does not align with the body of knowledge on the role of IL-7Rα in the biology of CD4+ T cells. Given that a definitive study on this important topic is lacking, we revisited it using a novel approach, an inducible knockout of the IL-7Rα gene in CD4+ T cells. Methods: We generated Il7rafl/fl/CD4CreERT2 double transgenic mouse line (henceforth CD4ΔIl7ra), susceptible to tamoxifen-induced knockout of the IL-7Rα gene in CD4+ T cells. CD4ΔIl7ra mice were immunized with MOG35 − 55 for EAE induction and monitored for disease development. The expression of IL-7Rα, CD4+ T cell numbers, and MOG35 − 55-specific CD4+ T cell response was evaluated in the central nervous system (CNS) and lymphoid tissues by flow cytometry. Additionally, splenocytes of CD4ΔIl7ra mice were stimulated with MOG35 − 55 to assess their proliferative response and cytokine production by T helper cells. Results: Loss of IL-7Rα from the surface of CD4+ T cells in CD4ΔIl7ra mice was virtually complete several days after tamoxifen treatment. The loss of IL-7Rα in CD4+ T cells led to a gradual and substantial decrease in their numbers in both non-immunized and immunized CD4ΔIl7ra mice, followed by slow repopulation up to the initial numbers. CD4ΔIl7ra mice did not develop EAE. We found a decrease in the total numbers of TNF-, IFN-γ-, IL-17 A-, and GM-CSF-producing CD4+ T cells and regulatory T cells in the spleens and CNS of immunized CD4ΔIl7ra mice. Tracking MOG35 − 55-specific CD4+ T cells revealed a significant reduction in their numbers in CD4ΔIl7ra mice and decreased proliferation and cytokine production in response to MOG35 − 55. Conclusion: Our study demonstrates that IL-7Rα on peripheral CD4+ T cells is essential for their maintenance, immune response, and EAE pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

19. Antigen-presenting cells as specialized drivers of intestinal T cell functions.

Author

Kedmi, Ranit and Littman, Dan R.

Subjects

*REGULATORY T cells, *T helper cells, *T cell differentiation, *INNATE lymphoid cells, *T cells

Abstract

The immune system recognizes a multitude of innocuous antigens from food and intestinal commensal microbes toward which it orchestrates appropriate, non-inflammatory responses. This process requires antigen-presenting cells (APCs) that induce T cells with either regulatory or effector functions. Compromised APC function disrupts the T cell balance, leading to inflammation and dysbiosis. Although their precise identities continue to be debated, it has become clear that multiple APC lineages direct the differentiation of distinct microbiota-specific CD4+ T cell programs. Here, we review how unique APC subsets instruct T cell differentiation and function in response to microbiota and dietary antigens. These discoveries provide new opportunities to investigate T cell-APC regulatory networks controlling immune homeostasis and perturbations associated with inflammatory and allergic diseases. Although the precise identities of the APCs that induce peripheral Treg cells and most effector T cell subsets continue to be debated, what is clear is that the microbiota direct the differentiation of distinct CD4+ T cell programs by delivering antigens to multiple APCs that are dedicated to unique functions in their instruction of T cells and may participate in regulatory networks to achieve homeostasis. [ABSTRACT FROM AUTHOR]

Published

2024

20. Eldecalcitol ameliorates diabetic osteoporosis and glucolipid metabolic disorder by promoting Treg cell differentiation through SOCE.

Author

Jiang, Yujun, Gao, Ruihan, Ying, Qiaohui, Li, Xiaolin, Dai, Yaling, Song, Aimei, Liu, Hongrui, Hasegawa, Tomoka, and Li, Minqi

Subjects

*T cell differentiation, *REGULATORY T cells, *TYPE 2 diabetes, *METABOLIC disorders, *IMMUNOSPECIFICITY

Abstract

Active vitamin D, known for its role in promoting osteoporosis, has immunomodulatory effects according to the latest evidence. Eldecalcitol (ED-71) is a representative of the third-generation novel active vitamin D analogs, and its specific immunological mechanisms in ameliorating diabetic osteoporosis remain unclear. We herein evaluated the therapeutic effects of ED-71 in the context of type 2 diabetes mellitus (T2DM), delving into its underlying mechanisms. In a T2DM mouse model, ED-71 attenuated bone loss and marrow adiposity. Simultaneously, it rectified imbalanced glucose homeostasis and dyslipidemia, ameliorated pancreatic β-cell damage and hepatic glycolipid metabolism disorder. Subsequently, in mice injected with the Treg cell-depleting agent CD25, we observed that the beneficial effects of ED-71 mentioned earlier were partially contingent on the Treg subsets ratio. Mechanistically, ED-71 promoted the differentiation of CD4+ T cells into Treg subsets, facilitating Ca2+ influx and the expression of ORAI1 and STIM1, pivotal proteins in store-operated Ca2+ entry (SOCE). The SOCE inhibitor, 2-APB, partially attenuated the positive effects of ED-71 observed in the above results. Overall, ED-71 regulates SOCE-mediated Treg cell differentiation, accomplishing the dual purpose of simultaneously ameliorating diabetic osteoporosis and glucolipid metabolic disorders, showcasing its potential in osteoimmunity therapy and interventions for diseases involving SOCE. [ABSTRACT FROM AUTHOR]

Published

2024

21. BPIFA1 alleviates allergic rhinitis by regulating the NF‐κB signaling pathway and Treg/Th17 balance.

Author

Yang, Ying, Li, Shidong, and Xu, Hongyan

Subjects

*T helper cells, *REGULATORY T cells, *RHINITIS, *T cell differentiation, *EPITHELIAL cells, *ANDROGEN receptors

Abstract

Aim: Allergic rhinitis (AR) is an allergic condition characterized by inflammation of the nasal mucosa. Bacterial permeability‐increasing family member A1 (BPIFA1) exhibits anti‐inflammatory properties; however, its impact on AR remains unclear. Aim of this study is to investigate the expression and function of BPIFA1 in AR and its influence on inflammation and immune regulation in a mouse model of AR induced by ovalbumin (OVA). Methods: The expression of BPIFA1 was analyzed using quantitative real‐time PCR (qRT‐PCR) and immunohistochemistry (IHC). Morphological assessments of nasal mucosal tissues were conducted. Levels of inflammatory mediators in nasal lavage fluid (NALF) and serum were quantified using enzyme‐linked immunosorbent assay (ELISA) kits. Protein expressions of BPIFA1, phosphorylated and total p65 (p‐p65/p65), and IκBα were evaluated through Western blot analysis. The total cell counts, including epithelial cells, eosinophils, and lymphocytes in NALF, were determined using a hemocytometer. A mouse model of AR was established by OVA management. Results: BPIFA1 expression was found to be reduced in the nasal mucosa tissues of patients with AR, suggesting a potential role in the disease's progression. We successfully developed a mouse model of AR, where BPIFA1 was similarly downregulated, indicating its possible involvement in modulating the NF‐κB signaling pathway. Overexpression of BPIFA1 in this model attenuated inflammation and allergic responses by inhibiting the NF‐κB pathway. Additionally, overexpression of BPIFA1 promoted the differentiation of regulatory T cells (Treg) and inhibited the differentiation of T helper 17 cells (Th17) in the NALF of AR mice, further demonstrating its regulatory impact on immune responses. The study confirmed that BPIFA1 upregulation reduced the levels of inflammatory cytokines TNF‐α and IL‐6, decreased infiltration of inflammatory cells, and modulated antigen‐specific immunoglobulin levels and histamine in serum. Conclusion: BPIFA1 mitigated both inflammatory and allergic responses in AR mice induced by OVA through the modulation of the NF‐κB signaling pathway and the balance between regulatory T cells (Treg) and T helper 17 cells (Th17). These findings suggest that BPIFA1 could serve as a novel biomarker and therapeutic target for AR, offering potential for the development of targeted treatments to improve patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

22. Optimizing in vitro T cell differentiation by using induced pluripotent stem cells with GFP‐RUNX1 and mCherry‐TCF7 labelling.

Author

Zhao, Yu, Cao, Jiani, Xu, Haoyu, Cao, Weiyun, Cheng, Chenxi, Tan, Shaojing, and Zhao, Tongbiao

Subjects

*INDUCED pluripotent stem cells, *T cell differentiation, *PLURIPOTENT stem cells, *CHIMERIC antigen receptors, *CANCER cells

Abstract

In vitro T‐cell differentiation from pluripotent stem cells (PSCs) could potentially provide an unlimited source of T cells for cancer immunotherapy, which, however is still hindered by the inefficient obtaining functionally‐matured, terminally‐differentiated T cells. Here, we established a fluorescence reporter human induced pluripotent stem cell (iPSC) line termed TCF7mCherryRUNX1GFP, in which the endogenous expression of RUNX1 and TCF7 are illustrated by the GFP and mCherry fluorescence, respectively. Utilizing TCF7mCherryRUNX1GFP, we defined that the feeder cells incorporating CXCL12‐expressing OP9 cells with DL4‐expressing OP9 cells at a 1:3 ratio (OP9‐C1D3) significantly enhanced efficiency of CD8+ T cell differentiation from PSCs. Additionally, we engineered a chimeric antigen receptor (CAR) targeting EGFR into iPSCs. The CAR‐T cells differentiated from these iPSCs using OP9‐C1D3 feeders demonstrated effective cytotoxicity toward lung cancer cells. We anticipate this platform will help the in vitro HSPC and T cell differentiation optimization, serving the clinical demands of these cells. [ABSTRACT FROM AUTHOR]

Published

2024

23. Roles of Menin in T cell differentiation and function: Current knowledge and perspectives.

Author

Zhou, Pingping, Liu, Weiru, and Ma, Jian

Subjects

*T cell differentiation, *T-cell exhaustion, *CELL physiology, *T cells, *SCAFFOLD proteins

Abstract

The commitment to specific T lymphocytes (T cell) lineages is governed by distinct transcription factors, whose expression is modulated through epigenetic mechanisms. Unravelling these epigenetic mechanisms that regulate T cell differentiation and function holds significant importance for understanding T cells. Menin, a multifunctional scaffolding protein, is implicated in various cellular processes, such as cell proliferation, cell cycle control, DNA repair and transcriptional regulation, primarily through epigenetic mechanisms. Existing research indicates Menin's impact on T cell differentiation and function, while a comprehensive and systematic review is currently lacking to consolidate these findings. In the current review, we have highlighted recent studies on the role of Menin in T cell differentiation and function, focusing mainly on its impact on the memory Th2 maintenance, Th17 differentiation and maintenance, CD4+ T cell senescence, and effector CD8+ T cell survival. Considering Menin's crucial function in maintaining effector T cell function, the potential of inhibiting Menin activity in mitigating inflammatory diseases associated with excessive T cell activation has also been emphasised. [ABSTRACT FROM AUTHOR]

Published

2024

24. Modulation of T Cell Differentiation in Mice with COPD Combined with Lung Cancer Through Key Targets of PD-1 by Tao Hong Si Wu Tang.

Author

Wang, Guoli, Wang, Ge, Zhao, Keming, Sui, Aifeng, Wang, Lina, Xu, Yanling, Qu, Nini, Ma, Xiande, and Deng, Hu

Abstract

The objective is to assess the anti-inflammatory effect of Tao Hong Si Wu Tang combined with anti-PD-1 in a mouse model of COPD combined with lung cancer, elucidating its mechanism through modulation of PD-1/PD-L binding, regulation of Th1/Th2 and Th17/Treg balance, inhibition of IL-4 and IL-17, and promotion of IFN-γ and TGF-β levels in peripheral blood. One hundred male C57/BL6 mice were randomly allocated to five groups: A (blank control), B (model control), C (THSW), D (anti-PD-1), and E (THSW + anti-PD-1), with 20 mice in each group. The COPD model was induced using fumigation and LPS intra-airway drip, followed by the establishment of lung cancer by Lewis cell inoculation. Treatment groups received Tao Hong Si Wu Tang or/and PD-1 monoclonal antibody. Various indicators were assessed, including macroscopic observation, HE staining of lung tissue, ELISA for cytokines, flow cytometry for cell proportions, and immunohistochemistry/western blotting for protein expression. Lung tissue analysis revealed significant differences between groups, with marked tumor formation observed in groups B–E. Serum levels of IL-4, IFN-γ, IL-17, and TGF-β were significantly altered, along with changes in CD4 + T/CD8 + T ratio and cytokine-producing cell populations. Expression levels of key proteins were also significantly affected across treatment groups. Tao Hong Si Wu Tang demonstrated anti-inflammatory effects comparable to anti-PD-1, potentially through modulation of PD-1/PD-L binding, correction of Th1/Th2 and Th17/Treg imbalance, and modulation of cytokine levels. These findings suggest a role for Tao Hong Si Wu Tang in ameliorating inflammation and immune dysregulation in COPD combined with lung cancer. [ABSTRACT FROM AUTHOR]

Published

2024

25. Dedicator of cytokinesis 8 (DOCK8) mutation impairs the differentiation of helper T cells by regulating the glycolytic pathway of CD4+ T cells.

Author

Jiang, Panpan, Zhao, Siyu, Li, Xiaoyu, Hu, Shiyan, Chen, Shuhan, Liang, Yinming, Zhang, Lichen, Lu, Liaoxun, Fang, Guofeng, Yang, Lu, Huang, Yanmei, Miller, Heather, Guan, Fei, Lei, Jiahui, and Liu, Chaohong

Subjects

T helper cells, REGULATORY T cells, GUANINE nucleotide exchange factors, PRIMARY immunodeficiency diseases, T cell differentiation

Abstract

Dedicator of cytokinesis 8 (DOCK8) deficiency is a primary immunodeficiency disease caused by mutations in exon 45 of the DOCK8 gene. The clinical signs primarily consist of increased serum IgE levels, eczema, repeated skin infections, allergies, and upper respiratory tract infections. Using CRISPR/Cas9 technology, we generated a DOCK8 exon 45 mutation in mice, mirroring the mutation found in patients. The results indicated that DOCK8 mutation impairs peripheral T cell homeostasis, disrupts regulatory T cells (Tregs) development, increases ICOS expression in Tregs within peripheral lymph nodes (pLn), and promotes Th17 cell differentiation within the spleen and pLn. Upon virus infection, DOCK8 mutation CD4+ T cells have a Th2 effector fate. RNA‐bulk sequencing data revealed alternations in the mTOR pathway of DOCK8 mutant CD4+ T cells. We observed that DOCK8 mutation upregulates the glycolysis levels in CD4+ T cells, which is related to the Akt/mTOR/S6/HIF‐1α pathway. In summary, our research elucidates that DOCK8 regulates the differentiation of helper T cells by modulating the glycolytic pathway in CD4+ T cells, thereby advancing the comprehension and offering potential treatment of diseases in DOCK8‐deficient patients. [ABSTRACT FROM AUTHOR]

Published

2024

26. Case report: Artificial thymic organoids facilitate clinical decisions for a patient with a TP63 variant and severe persistent T cell lymphopenia.

Author

Gall, Alevtina, Bosticardo, Marita, Ma, Stacey, Chen, Karin, Amini, Kayla, Pala, Francesca, Delmonte, Ottavia M., Wenger, Tara, Bamshad, Michael, Sleasman, John, Blessing, Matthew, van Oers, Nicolai S. C., Notarangelo, Luigi D., and de la Morena, M. Teresa

Subjects

TRANSCRIPTION factors, T cell differentiation, T cell receptors, T cells, KILLER cells, LYMPHOPENIA

Abstract

Pathogenic variants in the transcription factor TP63 are associated with clinically overlapping syndromes including ectrodactyly-ectodermal dysplasia clefting (EEC) and ankyloblepharon-ectodermal defects-cleft lip/palate (AEC). T cell lymphopenia has rarely been described in individuals with TP63 variants and the cause of the T cell defect is unclear. Here, we present a case of a female infant born with TP63-related syndrome and profound T cell lymphopenia, first uncovered through newborn screening. Flow cytometry analysis revealed low CD4+ naïve T cells and nearly absent CD8+ T cells with intact B and NK cell compartments. A de novo heterozygous pathogenic variant c.1040 G>A (C347Y) in exon 8 of TP63 was identified. An artificial thymic organoid system, to assess the intrinsic ability of the patient's hematopoietic cells to develop into T cells, was performed twice using separate peripheral blood samples. Ex vivo T cell differentiation was evident with the artificial organoid system, suggesting that a thymic stromal cell defect may be the cause of the T cell lymphopenia. Consistent with this, interrogation of publicly available data indicated that TP63 expression in the human thymus is restricted to thymic epithelial cells. Based on these data, congenital athymia was suspected and the patient received an allogenic cultured thymus tissue implant (CTTI). This is the first report of suspected congenital athymia and attempted treatment with CTTI associated with TP63 variant. At 9 months post-implant, peripheral lymphocyte analysis revealed measurable T cell receptor excision circles and presence of CD4+ recent thymic emigrants suggestive of early thymopoiesis. She will continue regular monitoring to ensure restoration of T cell immunity. [ABSTRACT FROM AUTHOR]

Published

2024

27. Dipeptidyl peptidase-4 marks distinct subtypes of human adipose stromal/stem cells with different hepatocyte differentiation and immunoregulatory properties.

Author

Zhang, Yu, Hua, Mingxi, Ma, Xuqing, Li, Weihong, Cao, Yuqi, Han, Xueya, Huang, Xiaowu, and Zhang, Haiyan

Subjects

*MACROPHAGE inflammatory proteins, *MACROPHAGE colony-stimulating factor, *CD26 antigen, *T cell differentiation, *STEM cells, *T cells

Abstract

Background: Human adipose-derived stromal/stem cells (hASCs) play important roles in regenerative medicine and numerous inflammatory diseases. However, their cellular heterogeneity limits the effectiveness of treatment. Understanding the distinct subtypes of hASCs and their phenotypic implications will enable the selection of appropriate subpopulations for targeted approaches in regenerative medicine or inflammatory diseases. Methods: hASC subtypes expressing dipeptidyl peptidase-4 (DPP4) were identified via fluorescence-activated cell sorting (FACS) analysis. DPP4 expression was knocked down in DPP4+ hASCs via DPP4 siRNA. The capacity for proliferation, hepatocyte differentiation, inflammatory factor secretion and T-cell functionality regulation of hASCs from DPP4−, DPP4+, and control siRNA-treated DPP4+ hASCs and DPP4 siRNA-treated DPP4+ hASCs were assessed. Results: DPP4+ hASCs and control siRNA-treated DPP4+ hASCs presented a lower proliferative capacity but greater hepatocyte differentiation capacity than DPP4− hASCs and DPP4 siRNA-treated DPP4+ hASCs. Both DPP4+ hASCs and DPP4− hASCs secreted high levels of vascular endothelial growth factor-A (VEGF-A), monocyte chemoattractant protein-1 (MCP-1), and interleukin 6 (IL-6), whereas the levels of other factors, including matrix metalloproteinase (MMP)-1, eotaxin-3, fractalkine (FKN, CX3CL1), growth-related oncogene-alpha (GRO-alpha, CXCL1), monokine induced by interferon-gamma (MIG), macrophage inflammatory protein (MIP)-1beta, and macrophage colony-stimulating factor (M-CSF), were significantly greater in the supernatants of DPP4+ hASCs than in those of DPP4− hASCs. Exposure to hASC subtypes and their conditioned media triggered changes in the secreted cytokine profiles of T cells from healthy donors. The percentage of functional T cells that secreted factors such as MIP-1beta and IL-8 increased when these cells were cocultured with DPP4+ hASCs. The percentage of polyfunctional CD8+ T cells that secreted multiple factors, such as IL-17A, tumour necrosis factor alpha (TNF-α) and TNF-β, decreased when these cells were cocultured with supernatants derived from DPP4+ hASCs. Conclusions: DPP4 may regulate proliferation, hepatocyte differentiation, inflammatory cytokine secretion and T-cell functionality of hASCs. These data provide a key foundation for understanding the important role of hASC subpopulations in the regulation of T cells, which may be helpful for future immune activation studies and allow them to be customized for clinical application. [ABSTRACT FROM AUTHOR]

Published

2024

28. A metal-organic nanoframework for efficient colorectal cancer immunotherapy by the cGAS-STING pathway activation and immune checkpoint blockade.

Author

Zhang, Xiaodian, Tian, Hailong, Chen, Yang, Liang, Baichuan, Nice, Edouard C., Huang, Canhua, Xie, Na, and Zheng, Shaojiang

Subjects

*T cell differentiation, *IMMUNE checkpoint proteins, *GLUCOSE transporters, *AMP-activated protein kinases, *PROTEIN kinases

Abstract

Immunotherapy has shown marked progress in promoting systemic anti-colorectal cancer (CRC) clinical effects. For further effectively sensitizing CRC to immunotherapy, we have engineered a pH-sensitive zeolitic imidazolate framework-8 (CS/NPs), capable of efficient cGAS-STING pathway activation and immune checkpoint blockade, by encapsulating the chemotherapeutic mitoxantrone (MTX) and immunomodulator thymus pentapeptide (TP5) and tailoring with tumor-targeting chondroitin sulfate (CS). In this nanoframework, CS endows CS/NPs with specific tumor-targeting activity and reduced systemic toxicity. Of note, the coordinated Zn2+ disrupts glycolytic processes and downregulates the expression of glucose transporter type 1 (GLUT1), thus depriving the cancer cells of their energy. Zn2+ further initiates the adenosine 5'-monophosphate activated protein kinase (AMPK) pathway, which leads to PD-L1 protein degradation and sensitizes CRC cells to immunotherapy. Moreover, the damaged double-stranded DNA during MTX treatment activates the cyclic GMP-AMP synthase-stimulator of interferon genes (cGAS-STING) pathway, which works together with TP5 induced the proliferation and differentiation of T lymphocytes and dendritic cells to further enhance the anti-CRC immune response. Therefore, CS/NPs efficiently sensitize cells to chemotherapy and stimulate systemic antitumor immune responses both in vitro and in vivo, representing a promising strategy to increase the feasibility of CRC immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

29. DNA methylation profiling identifies TBKBP1 as potent amplifier of cytotoxic activity in CMV-specific human CD8+ T cells.

Author

Yu, Zheng, Sasidharan-Nair, Varun, Buchta, Thalea, Bonifacius, Agnes, Khan, Fawad, Pietzsch, Beate, Ahmadi, Hosein, Beckstette, Michael, Niemz, Jana, Hilgendorf, Philipp, Mausberg, Philip, Keller, Andreas, Falk, Christine, Busch, Dirk H., Schober, Kilian, Cicin-Sain, Luka, Müller, Fabian, Brinkmann, Melanie M., Eiz-Vesper, Britta, and Floess, Stefan

Subjects

*ALTERNATIVE RNA splicing, *T cell differentiation, *T cells, *WHOLE genome sequencing, *IMMUNOLOGIC memory, *CYTOMEGALOVIRUSES, *IMMUNOSENESCENCE

Abstract

Epigenetic mechanisms stabilize gene expression patterns during CD8+ T cell differentiation. Although adoptive transfer of virus-specific T cells is clinically applied to reduce the risk of virus infection or reactivation in immunocompromised individuals, the DNA methylation pattern of virus-specific CD8+ T cells is largely unknown. Hence, we here performed whole-genome bisulfite sequencing of cytomegalovirus-specific human CD8+ T cells and found that they display a unique DNA methylation pattern consisting of 79 differentially methylated regions (DMRs) when compared to memory CD8+ T cells. Among the top demethylated DMRs in cytomegalovirus-specific CD8+ T cells was TBKBP1, coding for TBK-binding protein 1 that can interact with TANK-binding kinase 1 (TBK1) and mediate pro-inflammatory responses in innate immune cells downstream of intracellular virus sensing. Since TBKBP1 has not yet been reported in T cells, we aimed to unravel its role in virus-specific CD8+ T cells. TBKBP1 demethylation in terminal effector CD8+ T cells correlated with higher TBKBP1 expression at both mRNA and protein level, independent of alternative splicing of TBKBP1 transcripts. Notably, the distinct DNA methylation patterns in CD8+ T cell subsets was stable upon long-term in vitro culture. TBKBP1 overexpression resulted in enhanced TBK1 phosphorylation upon stimulation of CD8+ T cells and significantly improved their virus neutralization capacity. Collectively, our data demonstrate that TBKBP1 modulates virus-specific CD8+ T cell responses and could be exploited as therapeutic target to improve adoptive T cell therapies. Author summary: Human cytomegalovirus (CMV) is a herpesvirus that infects a significant portion of the global population. While it usually causes asymptomatic or mild infections, CMV can have severe consequences for individuals with a weakened immune system, such as stem cell or organ transplant recipients or individuals with HIV/AIDS. The immune response to CMV is characterized by expansion of virus-specific CD8+ T cells, which recognize and eliminate CMV-infected cells, thereby controlling the infection. Studies have shown that the pathogen-induced differentiation of naive to effector memory CD8+ T cells is accompanied by epigenetic changes. In order to identify the major genes involved in the functionality of CMV-specific CD8+ T cells, which are also regulated by DNA methylation, we compared the methylation profiles of CMV-specific CD8+ T cells with memory CD8+ T cells. As a result of this, we found that TBK-binding protein 1 (TBKBP1) plays a crucial role in the function of CMV-specific CD8+ T cells and enhances virus neutralization capacity upon overexpression, which has not been reported previously. This study opens the possibility of not only identifying unknown genes that contribute to the functionality of CMV-specific CD8+ T cells, but also potentially lead to improvements in adoptive T cell therapies. [ABSTRACT FROM AUTHOR]

Published

2024

30. Identification of genomic regions associated with fatty acid metabolism across blood, liver, backfat and muscle in pigs.

Author

Liu, Junhui, Sebastià, Cristina, Jové-Juncà, Teodor, Quintanilla, Raquel, González-Rodríguez, Olga, Passols, Magí, Castelló, Anna, Sánchez, Armand, Ballester, Maria, and Folch, Josep M.

Subjects

LOCUS (Genetics), FATTY acid desaturase, T cell differentiation, LYMPHOCYTE metabolism, GENOME-wide association studies

Abstract

Background: The composition and distribution of fatty acids (FA) are important factors determining the quality, flavor, and nutrient value of meat. In addition, FAs synthesized in the body participate in energy metabolism and are involved in different regulatory pathways in the form of signaling molecules or by acting as agonist or antagonist ligands of different nuclear receptors. Finally, synthesis and catabolism of FAs affect adaptive immunity by regulating lymphocyte metabolism. The present study performed genome-wide association studies using FA profiles of blood, liver, backfat and muscle from 432 commercial Duroc pigs. Results: Twenty-five genomic regions located on 15 Sus scrofa chromosomes (SSC) were detected. Annotation of the quantitative trait locus (QTL) regions identified 49 lipid metabolism-related candidate genes. Among these QTLs, four were identified in more than one tissue. The ratio of C20:4n-6/C20:3n-6 was associated with the region on SSC2 at 7.56–14.26 Mb for backfat, liver, and muscle. Members of the fatty acid desaturase gene cluster (FADS1, FADS2, and FADS3) are the most promising candidate genes in this region. Two QTL regions on SSC14 (103.81–115.64 Mb and 100.91–128.14 Mb) were identified for FA desaturation in backfat and muscle. In addition, two separate regions on SSC9 at 0 – 14.55 Mb and on SSC12 at 0–1.91 Mb were both associated with the same multiple FA traits for backfat, with candidate genes involved in de novo FA synthesis and triacylglycerol (TAG) metabolism, such as DGAT2 and FASN. The ratio C20:0/C18:0 was associated with the region on SSC5 at 64.84–78.32 Mb for backfat. Furthermore, the association of the C16:0 content with the region at 118.92–123.95 Mb on SSC4 was blood specific. Finally, candidate genes involved in de novo lipogenesis regulate T cell differentiation and promote the generation of palmitoleate, an adipokine that alleviates inflammation. Conclusions: Several SNPs and candidate genes were associated with lipid metabolism in blood, liver, backfat, and muscle. These results contribute to elucidating the molecular mechanisms implicated in the determination of the FA profile in different pig tissues and can be useful in selection programs that aim to improve health and energy metabolism in pigs. [ABSTRACT FROM AUTHOR]

Published

2024

31. Mitochondrial Transplantation Promotes Protective Effector and Memory CD4+ T Cell Response During Mycobacterium Tuberculosis Infection and Diminishes Exhaustion and Senescence in Elderly CD4+ T cells.

Author

Headley, Colwyn A., Gautam, Shalini, Olmo‐Fontanez, Angelica, Garcia‐Vilanova, Andreu, Dwivedi, Varun, Schami, Alyssa, Weintraub, Susan, Tsao, Philip S., Torrelles, Jordi B., and Turner, Joanne

Subjects

*T-cell exhaustion, *T cell differentiation, *OLDER people, *IMMUNOLOGIC memory, *FATIGUE (Physiology), *IMMUNOSENESCENCE, *T cells

Abstract

Tuberculosis (TB), caused by Mycobacterium tuberculosis (M.tb), is a major global health concern, particularly affecting those with weakened immune systems, including the elderly. CD4+ T cell response is crucial for immunity against M.tb, but chronic infections and aging can lead to T cell exhaustion and senescence, worsening TB disease. Mitochondrial dysfunction, prevalent in aging and chronic diseases, disrupts cellular metabolism, increases oxidative stress, and impairs T‐cell functions. This study investigates the effect of mitochondrial transplantation (mito‐transfer) on CD4+ T cell differentiation and function in aged mouse models and human CD4+ T cells from elderly individuals. Mito‐transfer in naïve CD4+ T cells is found to promote protective effector and memory T cell generation during M.tb infection in mice. Additionally, it improves elderly human T cell function by increasing mitochondrial mass and altering cytokine production, thereby reducing markers of exhaustion and senescence. These findings suggest mito‐transfer as a novel approach to enhance aged CD4+ T cell functionality, potentially benefiting immune responses in the elderly and chronic TB patients. This has broader implications for diseases where mitochondrial dysfunction contributes to T‐cell exhaustion and senescence. [ABSTRACT FROM AUTHOR]

Published

2024

32. What's in a name: the multifaceted function of DNA‐ and RNA‐binding proteins in T cell responses.

Author

Bresser, Kaspar, Popović, Branka, and Wolkers, Monika C.

Subjects

*T cell differentiation, *T cells, *GENETIC transcription regulation, *CYTOLOGY, *CELL differentiation

Abstract

Cellular differentiation allows cells to transition between different functional states and adapt to various environmental cues. The diversity and plasticity of this process is beautifully exemplified by T cells responding to pathogens, which undergo highly specialized differentiation tailored to the ongoing infection. Such antigen‐induced T cell differentiation is regulated at the transcriptional level by DNA‐binding proteins and at the post‐transcriptional level by RNA‐binding proteins. Although traditionally defined as separate protein classes, a growing body of evidence indicates an overlap between these two groups of proteins, collectively coined DNA/RNA‐binding proteins (DRBPs). In this review, we describe how DRBPs might bind both DNA and RNA, discuss the putative functional relevance of this dual binding, and provide an exploratory analysis into characteristics that are associated with DRBPs. To exemplify the significance of DRBPs in T cell biology, we detail the activity of several established and putative DRBPs during the T cell response. Finally, we highlight several methodologies that allow untangling of the distinct functionalities of DRBPs at the DNA and RNA level, including key considerations to take into account when applying such methods. [ABSTRACT FROM AUTHOR]

Published

2024

33. Phenotypic profiling of human induced regulatory T cells at early differentiation: insights into distinct immunosuppressive potential.

Author

Kattelus, Roosa, Starskaia, Inna, Lindén, Markus, Batkulwar, Kedar, Pietilä, Sami, Moulder, Robert, Marson, Alexander, Rasool, Omid, Suomi, Tomi, Elo, Laura L., Lahesmaa, Riitta, and Buchacher, Tanja

Subjects

*REGULATORY T cells, *TRANSCRIPTION factors, *T cell differentiation, *IMMUNE response, *CYTOMETRY, *T cells

Abstract

Regulatory T cells (Tregs) play a key role in suppressing systemic effector immune responses, thereby preventing autoimmune diseases but also potentially contributing to tumor progression. Thus, there is great interest in clinically manipulating Tregs, but the precise mechanisms governing in vitro-induced Treg (iTreg) differentiation are not yet fully understood. Here, we used multiparametric mass cytometry to phenotypically profile human iTregs during the early stages of in vitro differentiation at single-cell level. A panel of 25 metal-conjugated antibodies specific to markers associated with human Tregs was used to characterize these immunomodulatory cells. We found that iTregs highly express the transcription factor FOXP3, as well as characteristic Treg-associated surface markers (e.g. CD25, PD1, CD137, CCR4, CCR7, CXCR3, and CD103). Expression of co-inhibitory factors (e.g. TIM3, LAG3, and TIGIT) increased slightly at late stages of iTreg differentiation. Further, CD103 was upregulated on a subpopulation of iTregs with greater suppressive capacity than their CD103− counterparts. Using mass-spectrometry-based proteomics, we showed that sorted CD103+ iTregs express factors associated with immunosuppression. Overall, our study highlights that during early stages of differentiation, iTregs resemble memory-like Treg features with immunosuppressive activity, and provides opportunities for further investigation into the molecular mechanisms underlying Treg function. [ABSTRACT FROM AUTHOR]

Published

2024

34. IL-2 delivery to CD8+ T cells during infection requires MRTF/SRF-dependent gene expression and cytoskeletal dynamics.

Author

Maurice, Diane, Costello, Patrick, Diring, Jessica, Gualdrini, Francesco, Frederico, Bruno, and Treisman, Richard

Subjects

TRANSCRIPTION factors, T cell differentiation, T cells, REGULATOR genes, GENE expression

Abstract

Paracrine IL-2 signalling drives the CD8 + T cell expansion and differentiation that allow protection against viral infections, but the underlying molecular events are incompletely understood. Here we show that the transcription factor SRF, a master regulator of cytoskeletal gene expression, is required for effective IL-2 signalling during L. monocytogenes infection. Acting cell-autonomously with its actin-regulated cofactors MRTF-A and MRTF-B, SRF is dispensible for initial TCR-mediated CD8+ T cell proliferation, but is required for sustained IL-2 dependent CD8+ effector T cell expansion, and persistence of memory cells. Following TCR activation, Mrtfab-null CD8+ T cells produce IL-2 normally, but homotypic clustering is impaired both in vitro and in vivo. Expression of cytoskeletal structural and regulatory genes, most notably actins, is defective in Mrtfab-null CD8+ T cells. Activation-induced cell clustering in vitro requires F-actin assembly, and Mrtfab-null cell clusters are small, contain less F-actin, and defective in IL-2 retention. Clustering of Mrtfab-null cells can be partially restored by exogenous actin expression. IL-2 mediated CD8+ T cell proliferation during infection thus depends on the control of cytoskeletal dynamics and actin gene expression by MRTF-SRF signalling. The transcription factor SRF, together with its co-factors MRTF-A and MRTF-B, controls cytoskeletal gene expression. Here authors show that MRTF/SRF inactivation leads to decreased IL-2 mediated CD8 + T cell proliferation during infection, resulting from disrupted homotypic cell clustering and reduced retention of IL-2. [ABSTRACT FROM AUTHOR]

Published

2024

35. Impaired calcium influx underlies skewed T helper cell differentiation in children with IgE‐mediated food allergies.

Author

Lai, C. L., Santner‐Nanan, B., Maltese, P. J., Ong, C. K. S., Palmer, D. J., Campbell, D. E., Makrides, M., Gold, M., Nanan, R., Prescott, S. L., and Hsu, P. S.

Subjects

*T helper cells, *REGULATORY T cells, *T cell differentiation, *T cells, *TH1 cells

Abstract

Background Methods Results Conclusions Reasons for Th2 skewing in IgE‐mediated food allergies remains unclear. Clinical observations suggest impaired T cell activation may drive Th2 responses evidenced by increased atopic manifestations in liver transplant patients on tacrolimus (a calcineurin inhibitor). We aimed to assess differentiation potential, T cell activation and calcium influx of naïve CD4+ T cells in children with IgE‐mediated food allergies.Peripheral blood mononuclear cells from infants in the Starting Time for Egg Protein (STEP) Trial were analyzed by flow cytometry to assess Th1/Th2/Treg development. Naïve CD4+ T cells from children with and without food allergies were stimulated for 7 days to assess Th1/Th2/Treg transcriptional factors and cytokines. Store operated calcium entry (SOCE) was measured in children with and without food allergies. The effect of tacrolimus on CD4+ T cell differentiation was assessed by treating stimulated naïve CD4+ T cells from healthy volunteers with tacrolimus for 7 days.Egg allergic infants had impaired development of IFNγ+ Th1 cells and FoxP3+ transitional CD4+ T cells compared with non‐allergic infants. This parallels reduced T‐bet, IFNγ and FoxP3 expression in naïve CD4+ T cells from food allergic children after in vitro culture. SOCE of naïve CD4+ T cells was impaired in food allergic children. Naïve CD4+ T cells treated with tacrolimus had reduced IFNγ, T‐bet, and FoxP3, but preserved IL‐4 expression.In children with IgE‐mediated food allergies, dysregulation of T helper cell development is associated with impaired SOCE, which underlies an intrinsic impairment in Th1 and Treg differentiation. Along with tacrolimus‐induced Th2 skewing, this highlights an important role of SOCE/calcineurin pathway in T helper cell differentiation. [ABSTRACT FROM AUTHOR]

Published

2024

36. Association of cytotoxic effector memory CD8+ T cells with sustained unresponsiveness after peanut oral immunotherapy.

Author

Seastedt, Hana, Han, Xiaorui, Fernandes, Andrea, Galli, Stephen J., Boyd, Scott D., Nadeau, Kari C., Manohar, Monali, and Chinthrajah, Sharon

Subjects

*LEUCOCYTES, *T cell differentiation, *ALLERGY desensitization, *T cells, *IMMUNOGLOBULIN genes, *PERFORINS, *GRANZYMES

Abstract

This article discusses the association between cytotoxic effector memory CD8+ T cells and sustained unresponsiveness (SU) after peanut oral immunotherapy (OIT). The study found that a higher frequency of effector memory CD8+ T cells was associated with a higher likelihood of achieving SU. The researchers also identified differentially expressed immune genes and observed that cytolytic molecules such as Granulysin (Gnly) and Granzyme B (GzB) may play a supportive role in the development of SU. However, the study acknowledges the need for further validation using larger cohorts. [Extracted from the article]

Published

2024

37. Modeling uncertainty: the impact of noise in T cell differentiation.

Author

Martínez-Méndez, David, Villarreal, Carlos, and Huerta, Leonor

Subjects

*T cell differentiation, *T cells, *STOCHASTIC differential equations, *NOISE

Abstract

Background: The regulatory mechanisms guiding CD4 T cell differentiation are complex and are further influenced by intrinsic cell variability along with that of microenvironmental cues, such as cytokine and nutrient availability. Objective: This study aims to expand our understanding of CD4 T cell differentiation by examining the influence of intrinsic noise on cell fate. Methodology: A model based on a complex regulatory network of early signaling events involved in CD4 T cell activation and differentiation was described in terms of a set of stochastic differential equation to assess the effect of noise intensity on differentiation efficiency to the Th1, Th2, Th17, Treg, and TFH effector phenotypes under defined cytokine and nutrient conditions. Results: The increase of noise intensity decreases differentiation efficiencies. In a microenvironment of Th1-inducing cytokines and optimal nutrient conditions, noise levels of 3%, 5% and 10% render Th1 differentiation efficiencies of 0.87, 0.76 and 0.62, respectively, underscoring the sensitivity of the network to random variations. Further increments of noise reveal that the network is relatively stable until noise levels of 20%, where the resulting cell phenotypes becomes heterogeneous. Notably, Treg differentiation showed the highest robustness to noise perturbations. A combined Th1-Th2 cytokine environment with optimal nutrient levels induces a dominant Th1 phenotype; however, removal of glutamine shifts the balance towards the Th2 phenotype at all noise levels, with an efficiency similar to that obtained under Th2-only cytokine conditions. Similarly, combinations of Th1/Treg and Treg/Th17-inducing cytokines along with the removal of either tryptophan or oxygen shift the dominant Th1 and Treg phenotypes towards Treg and Th17 respectively. Model results are consistent with differentiation efficiency patterns obtained under wellcontrolled experimental settings reported in the literature. Conclusion: The stochastic CD4 T cell mathematical model presented here demonstrates a noise-dependent modulation of T cell differentiation induced by cytokines and nutrient availability. Modeling results can be explained by the network topology, which assures that the system will arrive at stable states of cell functionality despite variable levels of biological intrinsic noise. Moreover, the model provides insights into the robustness of the T cell differentiation process. [ABSTRACT FROM AUTHOR]

Published

2024

38. Impact of anti leukemia inhibitory factor antibody on immune related gene expression in breast cancer Balb/c mouse model.

Author

Seifati, Seyed Mohammad, Zare, Fateme, Bafghi, Seyed Ali Mirghanizadeh, and Hadinedoushan, Hossein

Subjects

*LEUKEMIA inhibitory factor, *BRCA genes, *REGULATORY T cells, *T helper cells, *LABORATORY mice, *T cell differentiation, *T cells

Abstract

Leukemia inhibitory factor (LIF) is involved in the progression of different cancers. In this study, we investigated the effect of anti-LIF antibodies on immune-related gene expression in the Balb/c mouse model of breast cancer. To immunize mice against LIF, recombinant LIF with Freund adjuvant was injected into the test group, whereas the control group received phosphate-buffered saline with adjuvant. Tumor induction (4T1 cell line) was performed by increasing the antibody titer. The expression of immune-related genes was evaluated by real-time PCR. The anti-LIF titer was significantly increased in the immunized group. The expression of genes related to the differentiation of T helper (Th)-1, Th-2, and Th-17 cells was significantly higher in the immunized group than in the control group. In addition, anti-LIF did not have a significant effect on the expression of genes related to the differentiation of regulatory T cells, and immune checkpoint-associated genes. Additionally, the test group had higher survival and lower tumor development rates. The results demonstrated that the anti-LIF antibody may potentially play a role in the differentiation of immune cells or immune responses. However, further studies utilizing advanced techniques are necessary to validate its function. [ABSTRACT FROM AUTHOR]

Published

2024

39. mTOR 调控 T 细胞增殖与功能的研究进展.

Author

吴 涵, 黄 红, 易 欧 阳, 胡 明 月, 刘 良, and 蔡 雄

Subjects

*T cell differentiation, *LIPID metabolism, *T cells, *CARBOHYDRATE metabolism, *IMMUNE system

Abstract

The mechanistic target of rapamycin (mTOR) plays a pivotal role in various cellular processes, including growth, proliferation and differentiation. As an essential component of the human immune system, T lymphocytes are regulated by mTOR through metabolic pathways such as carbohydrate metabolism and lipid metabolism. This article summarizes the critical role of mTOR in T cell differentiation and reviews recent advances in natural compounds that modulate T cells via mTOR. These findings contribute to the development of mTOR-targeted therapies for diseases. [ABSTRACT FROM AUTHOR]

Published

2024

40. Sialic acid-modified doxorubicin liposomes target tumor-related immune cells to relieve multiple inhibitions of CD8+ T cells.

Author

Du, Zhouchunxiao, Sui, Dezhi, Xin, Dongzhe, Tang, Xueying, Li, Mingze, Liu, Xinrong, Deng, Yihui, and Song, Yanzhi

Subjects

*T cells, *LIPOSOMES, *DOXORUBICIN, *T cell differentiation, *SIALIC acids

Abstract

In different types of cancer treatments, cancer-specific T cells are required for effective anticancer immunity, which has a central role in cancer immunotherapy. However, due to the multiple inhibitions of CD8+ T cells by tumor-related immune cells, CD8+ T-cell mediated antitumor immunotherapy has not achieved breakthrough progress in the treatment of solid tumors. Receptors for sialic acid (SA) are highly expressed in tumor-associated immune cells, so SA-modified nanoparticles are a drug delivery nanoplatform using tumor-associated immune cells as vehicles. To relieve the multiple inhibitions of CD8+ T cells by tumor-associated immune cells, we prepared SA-modified doxorubicin liposomes (SL-DOX, Scheme 1A). In our study, free SA decreased the toxicity of SL-DOX to tumor-associated immune cells. Compared with common liposomes, SL-DOX could inhibit tumor growth more effectively. It is worth noting that SL-DOX could not only kill tumor-related neutrophils and monocytes to relieve the multiple inhibitions of CD8+ T cells but also induce immunogenic death of tumor cells to promote the infiltration and differentiation of CD8+ T cells (Scheme 1B). Therefore, SL-DOX has potential value for the clinical therapeutic effect of CD8+ T cells mediating anti-tumor immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

41. Shifting phenotype and differentiation of CD11b+Gr.1+ immature heterogeneous myeloid derived adjuster cells support inflammation and induce regulators of IL17A in imiquimod induced psoriasis.

Author

Sarkar, Debanjan, Pramanik, Anik, Das, Dona, and Bhattacharyya, Sankar

Subjects

*MYELOID cells, *T cell differentiation, *T cells, *FLOW cytometry, *IMIQUIMOD

Abstract

Objective and design: The exact immunological mechanism of widespread chronic inflammatory skin disorder psoriasis has not been fully established. CD11b+Gr.1+ myeloid-derived cells are immature heterogeneous cells with T-cell suppressive property in neoplasia; however, influence of these cells on adaptive immunity is highly contextual; therefore, we dubbed these cells as myeloid-derived adjuster cells (MDAC). We studied imiquimod induced psoriasis in mouse model and evaluated for the first time the RORγt-NFAT1 axis in MDACs and the function, differentiation and interaction of these cells with T cells. Materials and methods: The status of T cells and MDACs; their functionality and differentiation properties, and the roles of RORγt and NFAT1 in MDACs were evaluated using flow cytometry, qRT-PCR and confocal imaging. Results: We found gradual increase in T cells and MDACs and an increase in the number of IL17 -secreting MDACs and T cells in the skin of psoriatic animals. We also noted that MDAC differentiation is biased toward M1 macrophages and DCs which perpetuate inflammation. We found that psoriatic MDACs were unable to suppress T-cell proliferation or activation but seemingly helped these T cells produce more IL17. Inhibition of the RORγt/NFAT1 axis in MDACs increased the suppressive nature of MDACs, allowing these cells to suppress the activity of psoriatic T-cells. Conclusion: Our results indicate that altered MDAC properties in psoriatic condition sustains pathological inflammation and RORγt and NFAT1 as promising intervention target for psoriasis management. [ABSTRACT FROM AUTHOR]

Published

2024

42. MME and PTPRC: key renal biomarkers in lupus nephritis.

Author

Wen, Min, Hun, Marady, Zhao, Mingyi, and He, Qingnan

Subjects

T cell differentiation, GENE expression, RECEIVER operating characteristic curves, LUPUS nephritis, BIOMARKERS

Abstract

Background: Lupus nephritis (LN) is an autoimmune-related kidney disease with a poor prognosis, however the potential pathogenic mechanism remains unclear and there is a lack of precise biomarkers. Therefore, a thorough screening and identification of renal markers in LN are immensely beneficial to the research on its pathogenic mechanisms and treatment strategies. Methods: We utilized bioinformatics to analyze the differentially expressed genes (DEGs) at the transcriptome level of three clusters: total renal, glomeruli, and renal tubulointerstitium in the GEO database to discover potential renal biomarkers of LN. We utilized NephroSeq datasets and measured mRNA and protein levels in the kidneys of MRL/lpr mice to confirm the expression of key DEGs. Results: Seven significantly differential genes (EGR1, MME, PTPRC, RORC, MX1, ZBTB16, FKBP5) were revealed from the transcriptome database of GSE200306, which were mostly enriched in the pathway of the hematopoietic cell lineage and T cell differentiation respectively by KEGG and GO analysis. The seven hot differential genes were verified to have consistent change trends using three datasets from NephroSeq database. The receiver operating characteristic (ROC) curve indicated that five DEGs (PTPRC, MX1, EGR1, MME and RORC) exhibited a higher diagnostic ROC value in both the glomerulus and tubulointerstitium group. Validation of core genes using MRL/lpr mice showed that MME and PTPRC exhibit significantly differential mRNA and protein expression patterns in mouse kidneys like the datasets. Conclusions: This study identified seven key renal biomarkers through bioinformatics analysis using the GEO and NephroSeq databases. It was identified that MME and PTPRC may have a high predictive value as renal biomarkers in the pathogenesis of LN, as confirmed by animal validation. [ABSTRACT FROM AUTHOR]

Published

2024

43. Expansion of tumor-reactive CD8+ T cell clonotypes occurs in the spleen in response to immune checkpoint blockade.

Author

Morgan, Duncan M., Horton, Brendan L., Bhandarkar, Vidit, Van, Richard, Dinter, Teresa, Zagorulya, Maria, Love, J. Christopher, and Spranger, Stefani

Subjects

T cell differentiation, T cells, TUMOR antigens, IMMUNE checkpoint proteins, BLOOD cells

Abstract

Immune checkpoint blockade (ICB) enhances T cell responses against cancer, leading to long-term survival in a fraction of patients. CD8+ T cell differentiation in response to chronic antigen stimulation is highly complex, and it remains unclear precisely which T cell differentiation states at which anatomic sites are critical for the response to ICB. We identified an intermediate-exhausted population in the white pulp of the spleen that underwent substantial expansion in response to ICB and gave rise to tumor-infiltrating clonotypes. Increased systemic antigen redirected differentiation of this population toward a more circulatory exhausted KLR state, whereas a lack of cross-presented tumor antigen reduced its differentiation in the spleen. An analogous population of exhausted KLR CD8+ T cells in human blood samples exhibited diminished tumor-trafficking ability. Collectively, our data demonstrate the critical role of antigen density within the spleen for the differentiation and expansion of T cell clonotypes in response to ICB. Editor's summary: T cell dysfunction is a defining feature of many tumor types, but how tumor-specific T cells progress to a terminally exhausted state and which populations are targeted by immune checkpoint blockade (ICB) remains incompletely understood. Using single-cell transcriptomics, Morgan et al. profiled T cell differentiation states across different anatomical sites including tumors, draining lymph nodes, and the white pulp of the spleen from tumor-bearing mice treated with ICB. A population of splenic intermediate-exhausted T cells supplied most of the ICB-elicited tumor-specific T cell response, which required low levels of cross-presented tumor antigen in the spleen. Together, these findings identify the spleen as an important site for generating a tumor-specific T cell response after ICB. —Claire Olingy [ABSTRACT FROM AUTHOR]

Published

2024

44. NingXueShengBan Decoction Regulates Immune Homeostasis by PI3 K/Akt/mTOR and TLR4/NF-κB Signaling Pathways in Immune Thrombocytopenia Patients.

Author

Wang, Haijin, Wang, Mengxiao, Yang, Wuxia, Ni, Runfeng, Ma, Lin, Wang, Dan, Yan, Chao, Wu, Yuhong, Liu, Baoshan, and Wang, Aidi

Subjects

PROTEIN kinase B, T cell differentiation, REGULATORY T cells, IDIOPATHIC thrombocytopenic purpura, T cells, HOMEOSTASIS, THROMBOPOIETIN receptors

Abstract

Objective: Immune thrombocytopenia (ITP) is an autoimmune hemorrhagic disease. The immune imbalance of T cells is an essential pathological mechanism of ITP, more specific, the balance of Effector T cells (Teff)/Regulatory T cell (Treg) maintains T cell immune homeostasis. Dendritic cells (DC), the largest antigen-presenting cell, interfere with T cell differentiation pathways and exert immune regulatory functions. Our team created and applied the " NingXueShengBan" (NXSB) decoction. According to our prior studies, we found that NXSB decoction could restore Th17/Treg balance in ITP mice by regulating protein expression in Notch pathway. Therefore, we further research the mechanism of NXSB decoction that regulates ITP immune homeostasis through affecting the interaction between DC and T cells. Methods: In this study, we collected peripheral blood from health donors and ITP patients and extracted DC and CD4 + T cells then grouped in control group, model group and NXSB group. Moreover, we established a co-culture model simulating the immune environment in ITP patient to further investigate whether NXSB had therapeutic effects by the interaction between DC and CD4 + T cells. Results: In the current study, we found that NXSB decoction potently regulated interaction between DC and T cells by inhibiting DC development and function, specifically, the differentiation of CD4+ T cells was inhibited after NXSB decoction intervened. Our data showed that NXSB decoction inhibited Toll-like receptor 4 (TLR-4), reduced the expression of Nuclear factor kappa-B (NF-κB) and led to the reduction of downstream inflammatory factors, thereby inhibiting the inflammatory response. More importantly, NXSB decoction reduced the DC surface expression of activation and maturation markers. Moreover, we detected that the decreased expression of the phosphorylated Phosphatidylinositol 3-kinase (PI3 K), Protein kinase B (Akt), Mammalian target of rapamycin (mTOR), and their downstream effectors indicated, we found that NXSB decoction could inhibit PI3 K/Akt/mTOR signaling pathways significantly. Conclusions: Collectively, our data suggested that NXSB decoction ameliorates ITP-induced immune imbalance via its anti-inflammation and immunosuppressive by regulating TLR-4/ NF-κB and PI3 K/Akt/mTOR signaling pathways. [ABSTRACT FROM AUTHOR]

Published

2024

45. The expression of RBPJ and its potential role in rheumatoid arthritis

Author

Shuaishuai Chen, Weibo Zhao, Juping Du, Suyun Chen, Jun Li, Bo Shen, Yuanlin Zhou, and Shiyong Chen

Subjects

Rheumatoid arthritis, DAS28 score, RBPJ, Gene expression Omnibus, T cell differentiation, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Recombination signal-binding protein for immunoglobulin kappa J region (RBPJ) is a transcriptional regulator that plays an important role in maintaining immune homeostasis. This study aimed to estimate the expression of RBPJ in rheumatoid arthritis (RA) patients and investigate its relationship with RA. Methods A total of 83 newly diagnosed RA patients and 70 healthy controls were included. mRNA was extracted from peripheral blood mononuclear cells (PBMCs), and the expression of RBPJ was detected using quantitative real-time PCR (qRT‒PCR). An RA dataset (GSE89408) was obtained from the Gene Expression Omnibus (GEO) database, and RA synovial tissues were divided into two groups. The differentially expressed genes (DEGs) were selected with the “DESeq2” R package. Results RBPJ expression was lower in RA patients than in health controls and was negatively correlated with the DAS28 score, C-reactive protein (CRP) level and erythrocyte sedimentation rate (ESR). RA synovial tissues from GSE89408 were classified into RBPJ-low (≤ 25%) and RBPJ-high (≥ 75%) groups according to RBPJ expression, and 562 DEGs were identified. Gene Ontology (GO) enrichment analyses revealed that the DEGs significantly affected the regulation of T cell activation and lymphocyte/mononuclear cell differentiation. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis revealed that the most enriched pathways of DEGs were the T cell receptor signaling pathway, Th1/2 and Th17 cell differentiation, the PI3K − Akt signaling pathway and cytokine‒cytokine receptor interaction. CytoHubba Plugin revealed that most of the top 10 genes were involved in osteoclast differentiation, the T cell receptor signaling pathway and cytokine‒cytokine receptor interaction. Conclusions RBPJ expression was significantly lower in RA patients and negatively correlated with disease activity. GEO dataset analysis demonstrated that RBPJ may be involved in osteoclast differentiation, T cell activation and differentiation, and the T cell receptor signaling pathway. Our research may contribute to understanding the potential mechanisms by which RBPJ regulates T cell differentiation and cytokine‒cytokine receptor interaction in RA patients.

Published

2024

46. USP25 attenuates anti-GBM nephritis in mice by negative feedback regulation of Th17 cell differentiation.

Author

Xu, Ranran, Huang, Fei, Liu, Qingquan, Lv, Yongman, Hu, Liu, and Zhang, Qian

Subjects

*T helper cells, *ANTI-glomerular basement membrane disease, *T cell differentiation, *CELL differentiation, *CELLULAR control mechanisms

Abstract

This study aimed to elucidate the role of USP25 in a mouse model of anti-glomerular basement membrane glomerulonephritis (anti-GBM GN). USP25-deficient anti-GBM GN mice were generated, and their nephritis progression was monitored. Naïve CD4+ T cells were isolated from spleen lymphocytes and stimulated to differentiate into Th1, Th2, and Th17 cells. This approach was used to investigate the impact of USP25 on CD4+ T lymphocyte differentiation in vitro. Furthermore, changes in USP25 expression were monitored during Th17 differentiation, both in vivo and in vitro. USP25−/− mice with anti-GBM GN exhibited accelerated renal function deterioration, increased infiltration of Th1 and Th17 cells, and elevated RORγt transcription. In vitro experiments demonstrated that USP25−/− CD4+ T lymphocytes had a higher proportion for Th17 cell differentiation and exhibited higher RORγt levels upon stimulation. Wild-type mice with anti-GBM GN showed higher USP25 levels compared to healthy mice, and a positive correlation was observed between USP25 levels and Th17 cell counts. Similar trends were observed in vitro. USP25 plays a crucial role in mitigating renal histopathological and functional damage during anti-GBM GN in mice. This protective effect is primarily attributed to USP25's ability to inhibit the differentiation of naïve CD4+ T cells into Th17 cells. The underlying mechanism may involve the downregulation of RORγt. Additionally, during increased inflammatory responses or Th17 cell differentiation, USP25 expression is activated, forming a negative feedback regulatory loop that attenuates immune activation. [ABSTRACT FROM AUTHOR]

Published

2024

47. Activation and antitumor immunity of CD8+ T cells are supported by the glucose transporter GLUT10 and disrupted by lactic acid.

Author

Liu, Ying, Wang, Feng, Peng, Dongxue, Zhang, Dan, Liu, Luping, Wei, Jun, Yuan, Jian, Zhao, Luyao, Jiang, Huimin, Zhang, Tingting, Li, Yunxuan, Zhao, Chenxi, He, Shuhua, Wu, Jie, Yan, Yechao, Zhang, Peitao, Guo, Chunyi, Zhang, Jiaming, Li, Xia, and Gao, Huan

Subjects

CELL death inhibition, T cells, T cell differentiation, LACTIC acid, CELL physiology

Abstract

CD8+ T cell activation leads to the rapid proliferation and differentiation of effector T cells (Teffs), which mediate antitumor immunity. Although aerobic glycolysis is preferentially activated in CD8+ Teffs, the mechanisms that regulate CD8+ T cell glucose uptake in the low-glucose and acidic tumor microenvironment (TME) remain poorly understood. Here, we report that the abundance of the glucose transporter GLUT10 is increased during CD8+ T cell activation and antitumor immunity. Specifically, GLUT10 deficiency inhibited glucose uptake, glycolysis, and antitumor efficiency of tumor-infiltrating CD8+ T cells. Supplementation with glucose alone was insufficient to rescue the antitumor function and glucose uptake of CD8+ T cells in the TME. By analyzing tumor environmental metabolites, we found that high concentrations of lactic acid reduced the glucose uptake, activation, and antitumor effects of CD8+ T cells by directly binding to GLUT10's intracellular motif. Disrupting the interaction of lactic acid and GLUT10 by the mimic peptide PG10.3 facilitated CD8+ T cell glucose utilization, proliferation, and antitumor functions. The combination of PG10.3 and GLUT1 inhibition or anti–programmed cell death 1 antibody treatment showed synergistic antitumor effects. Together, our data indicate that GLUT10 is selectively required for glucose uptake of CD8+ T cells and identify that TME accumulated lactic acid inhibits CD8+ T cell effector function by directly binding to GLUT10 and reducing its glucose transport capacity. Last, our study suggests disrupting lactate-GLUT10 binding as a promising therapeutic strategy to enhance CD8+ T cell–mediated antitumor effects. Editor's summary: CD8+ T cells are a critical part of antitumor immunity and depend on metabolites including glucose to maintain their function. Here, Liu et al. have evaluated targeting glucose transport 10 (GLUT10) as a way to increase CD8+ T cell function by disrupting the competitive binding of lactic acid that increased glucose uptake, thereby increasing proliferation and antitumor capacity. Authors developed a mimic peptide, PG10.3, to treat mouse models alone or in combination with anti–programmed cell death 1 to improve antitumor effects. This represents a new potential therapeutic option to improve outcomes for patients undergoing immunotherapy that will require further study. —Dorothy Hallberg [ABSTRACT FROM AUTHOR]

Published

2024

48. Current Science Reports.

Author

Mullali, V. R., Jadav, Ravindra, Aneaus, Sheikh, Mullasseri, Sileesh, Hans, Aradhana, and Udham, Atig

Subjects

*SCIENCE journalism, *MOBILE genetic elements, *CLIMATE change adaptation, *CYTOTOXIC T cells, *T cell differentiation, *LUCIFERASES

Abstract

The article focuses on the impact of climate change on temperature patterns in the Arabian Peninsula. Topics include the projected increase in temperature extremes under various global warming scenarios, the effects of a solar eclipse on bee activity, and advancements in using deep learning for wildlife identification through camera traps.

Published

2024

49. Microglia-specific IL-10 gene delivery inhibits neuroinflammation and neurodegeneration in a mouse model of Parkinson's disease.

Author

Bido, Simone, Nannoni, Melania, Muggeo, Sharon, Gambarè, Diana, Ruffini, Giorgia, Bellini, Edoardo, Passeri, Laura, Iaia, Silvia, Luoni, Mirko, Provinciali, Martino, Giannelli, Serena Gea, Giannese, Francesca, Lazarevic, Dejan, Gregori, Silvia, and Broccoli, Vania

Subjects

REGULATORY T cells, T cell differentiation, PARKINSON'S disease, T cells, TRANSGENE expression

Abstract

Neuroinflammation plays a key role in exacerbating dopaminergic neuron (DAN) loss in Parkinson's disease (PD). However, it remains unresolved how to effectively normalize this immune response given the complex interplay between the innate and adaptive immune responses occurring within a scarcely accessible organ like the brain. In this study, we uncovered a consistent correlation between neuroinflammation, brain parenchymal lymphocytes, and DAN loss among several commonly used mouse models of PD generated by a variety of pathological triggers. We validated a viral therapeutic approach for the microglia-specific expression of interleukin 10 (IL-10) to selectively mitigate the excessive inflammatory response. We found that this approach induced a local nigral IL-10 release that alleviated DAN loss in mice overexpressing the human SNCA gene in the substantia nigra. Single-cell transcriptomics revealed that IL-10 induced the emergence of a molecularly distinct microglial cell state, enriched in markers of cell activation with enhanced expression of prophagocytic pathways. IL-10 promoted microglial phagocytotic and clearance activities in vitro and reduced αSYN aggregate burden in the nigral area in mice overexpressing SNCA. Furthermore, IL-10 stimulated the differentiation of CD4+ T lymphocytes into active T regulatory cells and promoted inhibitory characteristics in CD8+ T cells. In summary, our results show that local and microglia-specific IL-10 transduction elicited strong immunomodulation in the nigral tissue with enhanced suppression of lymphocyte toxicity that was associated with DAN survival. These results offer insights into the therapeutic benefits of IL-10 and showcase a promising gene delivery approach that could minimize undesired side effects. Editor's summary: Reactive microglia contribute to Parkinson's disease (PD) pathogenesis. Certain cytokines such as interleukin-10 (IL-10) can restore microglia homeostasis, but targeting maladaptive immune responses without inducing systemic side effects remains a challenge. Bido et al. adopted a microRNA-detargeting system that inhibits the expression of a transgene in all but the cell type of choice. Using this system for lentiviral-mediated, local, and microglia-specific expression of IL-10 in PD mice led to reduced neuropathology and the emergence of microglial subtypes with enhanced clearance signatures. These results suggest the therapeutic potential of cell type–specific gene delivery for PD. —Daniela Neuhofer [ABSTRACT FROM AUTHOR]

Published

2024

50. Differentiation and regulation of CD4+ T cell subsets in Parkinson's disease.

Author

Sun, Xiaowei, Gu, Rou, and Bai, Jie

Subjects

*T cell differentiation, *PARKINSON'S disease, *CEREBROSPINAL fluid, *SUBSTANTIA nigra, *NEURODEGENERATION, *BLOOD-brain barrier, *T cells, *DOPAMINERGIC neurons, *CEREBROSPINAL fluid examination

Abstract

Parkinson's disease (PD) is the second most common neurodegenerative disease, and its hallmark pathological features are the loss of dopaminergic (DA) neurons in the midbrain substantia nigra pars compacta (SNpc) and the accumulation of alpha-synuclein (α-syn). It has been shown that the integrity of the blood-brain barrier (BBB) is damaged in PD patients, and a large number of infiltrating T cells and inflammatory cytokines have been detected in the cerebrospinal fluid (CSF) and brain parenchyma of PD patients and PD animal models, including significant change in the number and proportion of different CD4+ T cell subsets. This suggests that the neuroinflammatory response caused by CD4+ T cells is an important risk factor for the development of PD. Here, we systematically review the differentiation of CD4+ T cell subsets, and focus on describing the functions and mechanisms of different CD4+ T cell subsets and their secreted cytokines in PD. We also summarize the current immunotherapy targeting CD4+ T cells with a view to providing assistance in the diagnosis and treatment of PD. [ABSTRACT FROM AUTHOR]

Published

2024