Your search keyword '"Tumor-associated Macrophage"' showing total 2,403 results

1. In vivo self-assembled albumin nanoparticle elicit antitumor immunity of PD-1 inhibitor by imaging and clearing tumor-associated macrophages.

Author

Yu, Cheng, Hu, Linan, Yu, Qilin, Ren, Yulu, Zhang, Minping, Gao, Lujing, Lyu, Shiyi, Wang, Junli, Xiao, Enhua, Chen, Zhu, Shang, Quanliang, and Xu, Pengfei

Abstract

Eliciting anti-tumor immune responses and improving the tumor microenvironment crucial for boosting the effectiveness of anti-PD-1 immunotherapy. Tumor-associated macrophages (TAMs), the primary types of immune cells infiltrating tumors, play a critical role in the formation of an immunosuppressive microenvironment. In this study, we constructed a novel Evans Blue (EB)-based in vivo self-assembled nanocarrier system, mUNO-EB-ICG-Fc@Alb nanoparticles (designated as MA NPs), for targeted imaging and clearance of M2-TAMs to elicit antitumor immunotherapy of PD-1 inhibitor. In vitro experiments demonstrated the specific fluorescence imaging and killing effect of MA NPs on M2-TAMs. In vivo experiments shown that MA NPs-induced chemodynamic therapy (CDT) successfully reversed the tumor immunosuppressive microenvironment (ITM), promoted intratumoral infiltration of T lymphocytes, and ultimately enhancing the anti-tumor immunotherapy effect of PD-1 inhibitors. This study might provide good inspiration for improving the therapeutic efficacy of cancer immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

2. Surface Molecularly Engineered Mitochondria Conduct Immunophenotype Repolarization of Tumor‐Associated Macrophages to Potentiate Cancer Immunotherapy.

Author

Zhang, Cai‐Ju, Li, Jia‐Mi, Xu, Dan, Wang, Dan‐Dan, Qi, Ming‐Hui, Chen, Feng, Wu, Bo, Deng, Kai, and Huang, Shi‐Wen

Subjects

*TREATMENT effectiveness, *IMMUNE checkpoint proteins, *METABOLIC regulation, *OXIDATIVE phosphorylation, *CELL physiology

Abstract

Reprogramming tumor‐associated macrophages (TAMs) to an inflammatory phenotype effectively increases the potential of immune checkpoint blockade (ICB) therapy. Artificial mitochondrial transplantation, an emerging and safe strategy, has made brilliant achievements in regulating the function of recipient cells in preclinic and clinic, but its performance in reprogramming the immunophenotype of TAMs has not been reported. Here, the metabolism of M2 TAMs is proposed resetting from oxidative phosphorylation (OXPHOS) to glycolysis for polarizing M1 TAMs through targeted transplantation of mannosylated mitochondria (mPEI/M1mt). Mitochondria isolated from M1 macrophages are coated with mannosylated polyethyleneimine (mPEI) through electrostatic interaction to form mPEI/M1mt, which can be targeted uptake by M2 macrophages expressed a high level of mannose receptors. Mechanistically, mPEI/M1mt accelerates phosphorylation of NF‐κB p65, MAPK p38 and JNK by glycolysis‐mediated elevation of intracellular ROS, thus prompting M1 macrophage polarization. In vivo, the transplantation of mPEI/M1mt excellently potentiates therapeutic effects of anti‐PD‐L1 by resetting an antitumor proinflammatory tumor microenvironment and stimulating CD8 and CD4 T cells dependent immune response. Altogether, this work provides a novel platform for improving cancer immunotherapy, meanwhile, broadens the scope of mitochondrial transplantation technology in clinics in the future. [ABSTRACT FROM AUTHOR]

Published

2024

3. Interleukin-34-orchestrated tumor-associated macrophage reprogramming is required for tumor immune escape driven by p53 inactivation.

Author

Nian, Zhigang, Dou, Yingchao, Shen, Yiqing, Liu, Jintang, Du, Xianghui, Jiang, Yong, Zhou, Yonggang, Fu, Binqing, Sun, Rui, Zheng, Xiaohu, Tian, Zhigang, and Wei, Haiming

Subjects

*CANCER stem cells, *IMMUNE checkpoint inhibitors, *CELLULAR immunity, *IMMUNOREGULATION, *LIVER cancer

Abstract

As the most frequent genetic alteration in cancer, more than half of human cancers have p53 mutations that cause transcriptional inactivation. However, how p53 modulates the immune landscape to create a niche for immune escape remains elusive. We found that cancer stem cells (CSCs) established an interleukin-34 (IL-34)-orchestrated niche to promote tumorigenesis in p53-inactivated liver cancer. Mechanistically, we discovered that Il34 is a gene transcriptionally repressed by p53, and p53 loss resulted in IL-34 secretion by CSCs. IL-34 induced CD36-mediated elevations in fatty acid oxidative metabolism to drive M2-like polarization of foam-like tumor-associated macrophages (TAMs). These IL-34-orchestrated TAMs suppressed CD8+ T cell-mediated antitumor immunity to promote immune escape. Blockade of the IL-34-CD36 axis elicited antitumor immunity and synergized with anti-PD-1 immunotherapy, leading to a complete response. Our findings reveal the underlying mechanism of p53 modulation of the tumor immune microenvironment and provide a potential target for immunotherapy of cancer with p53 inactivation. [Display omitted] • Loss of p53 function triggers the secretion of IL-34 by cancer stem cells • IL-34-CD36 axis drives M2 polarization of foam-like macrophages in Trp53 −/− tumors • IL-34-orchestrated TAMs suppress T cell-mediated antitumor immunity • Blockade of IL-34 signaling and PD-1 cause complete remission of Trp53 −/− tumors How p53 modulates the immune landscape for immune escape remains elusive. Nian et al. report that p53 inactivation results in IL-34 secretion by CSCs, and IL-34-CD36-axis-orchestrated TAMs promote tumor immune escape by suppressing T cell-mediated antitumor immunity. [ABSTRACT FROM AUTHOR]

Published

2024

4. CD11b/CD86 involved in the microenvironment of colorectal cancer by promoting Wnt signaling activation.

Author

Ke, Junyu, Chen, Guirong, You, Yihui, Xie, Qinghua, Liu, Zheng‐lin, Song, Chunhui, Zheng, Yanqiu, Shan, Zejun, Song, Jinbin, Jiang, Zhangyu, Wang, Haiyan, Du, Qun, Wu, Yongqiang, Chen, Xin‐lin, and Li, Yanwu

Subjects

*WNT signal transduction, *COLON cancer, *COLORECTAL cancer, *TUMOR microenvironment, *CELLULAR signal transduction

Abstract

Background: Colorectal cancer (CRC) is a malignancy that arises within the gastrointestinal tract. Despite ongoing research, the etiology and pathogenesis of CRC remain elusive; particularly, the distribution and characteristics of tumor‐associated macrophages is currently an active area of investigation in understanding the pathological progression and prevention of CRC. Methods: This study utilized CRC patient surgical samples, mouse models of colitis‐associated cancer, colonic organoid, and co‐culture cell line to examine the changes in CD11b/CD86 at different pathological region and detect the Wnt signaling pathway activity. Results: Our findings revealed a sensitive and increased expression of CD11b from the early to the advanced CRC tissues and correlated with poor prognosis, while CD86 expression was reduced in advanced CRC tissues. CD133 expression was also elevated in advanced CRC tissues and mainly co‐localized with CD11b, suggesting a positive regulatory effect of CD11b and CD133 expression that may contribute to CRC progression. In AOM/DSS mouse models, activation of the Wnt signaling pathway was associated with increased CD133 and CD11b expression. In vitro, THP‐1 cell was induced to high expression of CD11b, and the above conditional cultural medium enhanced HCT116 cell colony number and CD133 protein expression. Furthermore, colonic crypts from AOM/DSS mouse models were isolated to culture, and the colonic organoids exhibited dilation and significant increases expression of CD133 and β‐Catenin/N‐P‐B‐Catenin. Conclusions: CD11b might be an important factor to participate the progress of CRC. And the high CD11b of CRC microenviroment might potentially promote CD133 expression and associate with Wnt signal activation. [ABSTRACT FROM AUTHOR]

Published

2024

5. Downregulation of IL-8 and IL-10 by LRRC8A Inhibition through the NOX2–Nrf2–CEBPB Transcriptional Axis in THP-1-Derived M 2 Macrophages.

Author

Matsui, Miki, Kajikuri, Junko, Kito, Hiroaki, Elboray, Elghareeb E., Suzuki, Takayoshi, and Ohya, Susumu

Subjects

*NICOTINAMIDE adenine dinucleotide phosphate, *INTERLEUKIN-10, *GENETIC transcription, *TUMOR microenvironment, *NUCLEAR factor E2 related factor, *CHEMOKINE receptors

Abstract

M2-polarized, tumor-associated macrophages (TAMs) produce pro-tumorigenic and angiogenic mediators, such as interleukin-8 (IL-8) and IL-10. Leucine-rich repeat-containing protein 8 members (LRRC8s) form volume-regulated anion channels and play an important role in macrophage functions by regulating cytokine and chemokine production. We herein examined the role of LRRC8A in IL-8 and IL-10 expression in THP-1-differentiated M2-like macrophages (M2-MACs), which are a useful tool for investigating TAMs. In M2-MACs, the pharmacological inhibition of LRRC8A led to hyperpolarizing responses after a transient depolarization phase, followed by a slight elevation in the intracellular concentration of Ca2+. Both the small interfering RNA-mediated and pharmacological inhibition of LRRC8A repressed the transcriptional expression of IL-8 and IL-10, resulting in a significant reduction in their secretion. The inhibition of LRRC8A decreased the nuclear translocation of phosphorylated nuclear factor-erythroid 2-related factor 2 (Nrf2), while the activation of Nrf2 reversed the LRRC8A inhibition-induced transcriptional repression of IL-8 and IL-10 in M2-MACs. We identified the CCAAT/enhancer-binding protein isoform B, CEBPB, as a downstream target of Nrf2 signaling in M2-MACs. Moreover, among several upstream candidates, the inhibition of nicotinamide adenine dinucleotide phosphate (NADPH) oxidase 2 (NOX2) suppressed the Nrf2–CEBPB transcriptional axis in M2-MACs. Collectively, the present results indicate that the inhibition of LRRC8A repressed IL-8 and IL-10 transcription in M2-MACs through the NOX2–Nrf2–CEBPB axis and suggest that LRRC8A inhibitors suppress the IL-10-mediated evasion of tumor immune surveillance and IL-8-mediated metastasis and neovascularization in TAMs. [ABSTRACT FROM AUTHOR]

Published

2024

6. Dissection of pro-tumoral macrophage subtypes and immunosuppressive cells participating in M2 polarization.

Author

Sezginer, Onurcan and Unver, Nese

Subjects

*REGULATORY B cells, *MYELOID-derived suppressor cells, *REGULATORY T cells, *MATRIX metalloproteinases, *MACROPHAGE activation

Abstract

Alternatively activated macrophage (M2) polarization can result in one of four subtypes based on cytokines and signaling pathways associated with macrophage activation: M2a, M2b, M2c, and M2d macrophages. The majority of M2 subtypes are anti-inflammatory and pro-angiogenic, secreting growth factors (VEGF, PDGF) and matrix metalloproteinases (MMP2, MMP9) which boost tumor growth, metastasis, and invasion. M2-polarized macrophages are associated with immune suppressor cells harboring Myeloid derived suppressor cells, Regulatory T cells (Tregs), Regulatory B cells as well as alternatively activated (N2) neutrophils. Treg cells selectively support the metabolic stability, mitochondrial integrity, and survival rate of M2-like TAMs in an indirect environment. Also, the contribution of Breg cells influences macrophage polarization towards the M2 direction. TAM is activated when TAN levels in the tumor microenvironment are insufficient or vice versa, suggesting that macrophage and its polarization are fine-tuned. Understanding the functions of immune suppressive cells, mediators, and signaling pathways involved with M2 polarization will allow us to identify potential strategies for targeting the TAM repolarization phenotype for innovative immunotherapy approaches. In this review, we have highlighted the critical factors for M2 macrophage polarization, differential cytokine/chemokine profiles of M1 and M2 macrophage subtypes, and other immune cells' impact on the polarization within the immunosuppressive niche. Highlights: M2 macrophages are targetable immune cells for immunotherapy strategies. M2 type macrophages are more heterogeneous populations than M1 macrophages. M2 polarization is influenced by Tregs, Bregs, MDSCs, and N2 neutrophils. [ABSTRACT FROM AUTHOR]

Published

2024

7. EL4 Murine-Lymphoma-Stromal-Cell Fusion Hybrids Observed With Multiple Distinct Morphologies in the Primary Tumor and Metastatic Organs of a Syngeneic Mouse Model.

Author

YAMASHITA, KOJI, SUETSUGU, ATSUSHI, HAYASHI, SADANARI, SHIMIZU, MASAHITO, and HOFFMAN, ROBERT M.

Abstract

Background/Aim: We and others have previously shown that cell fusion plays an important role in cancer metastasis. Color coding of cancer and stromal cells with spectrally-distinct fluorescent proteins is a powerful tool, as pioneered by our laboratory to detect cell fusion. We have previously reported color-coded cell fusion between cancer cells and stromal cells in metastatic sites by using color-coded EL4 murine lymphoma cells and host mice expressing spectrally-distinct fluorescent proteins. Cell fusion occurred between cancer cells or, between cancer cells and normal cells, such as macrophages, fibroblasts, and mesenchymal stem cells. In the present study, the aim was to morphologically classify the fusion-hybrid cells observed in the primary tumor and multiple metastases EL4 formed from cells expressing red fluorescent protein (RFP) in transgenic mice expressing green fluorescent protein (GFP), in a syngeneic model. Materials and Methods: RFP-expressing EL4 murine lymphoma cells were cultured in vitro. EL4-RFP cells were harvested and injected intraperitoneally into immunocompetent transgenic C57/BL6- GFP mice to establish a syngeneic model. Two weeks later, mice were sacrificed and each organ was harvested, cultured, and observed using confocal microscopy. Results: EL4 intraperitoneal tumors (primary) and metastases in the lung, liver, blood, and bone marrow were formed. All tumors were harvested and cultured. In all specimens, RFP-EL4 cells, GFPstromal cells, and fused yellow-fluorescent hybrid cells were observed. The fused hybrid cells showed various morphologies. Immune cell-like round-shaped yellow-fluorescent fused cells had a tendency to decrease with time in liver metastases and circulating blood. In contrast fibroblast-like spindle-shaped yellow-fluorescent fused cells increased in the intraperitoneal primary tumor, lung metastases, and bone marrow. Conclusion: Cell fusion between EL4-RFP cells and GFP stromal cells occurred in primary tumors and all metastatic sites. The morphology of the fused hybrid cells varied in the primary and metastatic sites. The present results suggest that fused cancer and stromal hybrid cells of varying morphology may play an important role in cancer progression. [ABSTRACT FROM AUTHOR]

Published

2024

8. Exosome miRNA-203 promotes M1 macrophage polarization and inhibits prostate cancer tumor progression.

Author

Zhang, Lian-Sheng, Chen, Qi-Chao, Zong, Hong-Tao, and Xia, Qiang

Abstract

Prostate cancer (PCa) is a prevalent malignant neoplasm affecting the male reproductive system globally. However, the diagnostic and therapeutic approaches fall short of meeting the demands posed by PCa. Poor expression of miRNA-203 (miR-203) within PCa tissues and cells implies its potential utility as a diagnostic indicator for PCa. Exosomes (Exo), membranous vesicles released by various cells, are rich reservoirs of miRNAs. However, the presence of miR-203 presents within Exo derived from PCa cells remains unclarified. In this study, Exo was isolated from urine specimens collected from clinical PCa patients and LNCaP cells to detect miR-203 expression. Meanwhile, the impact of overexpressed miR-203 on M0 macrophages (mø) was analyzed. Subsequently, alterations in the proliferative, migratory, and invasive capacities of LNCaP cells were examined within a co-culture system featuring elevated miR-203 levels in both macrophages and LNCaP cells. Furthermore, the repercussions of miR-203 upregulation or inhibition were explored in a murine PCa tumor model. The results revealed that Exo manifested a circular or elliptical morphology, encapsulating a phospholipid bilayer approximately 100 nm in diameter. Notably, Exo readily infiltrated, with both Exo and miR-203-overexpressing Exo prompting macrophage polarization toward the M1 subtype. In the co-culture system, miR-203 exhibited pronounced suppression of LNCaP cell proliferation, migration, and invasion, while concurrently fostering apoptosis as compared with the LNCaP group (Control). In vivo experiments further disclosed that miR-203 greatly inhibited the growth of PCa tumors in nude mice. Markedly heightened expression of M1 macrophage markers such as IL-1β, IL-6, IL-12, CXCL9, and CXCL10 was observed within the tumor microenvironment following miR-203 intervention, as opposed to the model group. However, the introduction of miR-203 antagomir led to a reversal in tumor growth trends. This investigation indicates the presence of miR-203 within the urine of PCa patients and Exo originating from cells, and that miR-203 exerted antitumor effect by facilitating M1 macrophage polarization. Our study furnishes valuable insights into the potential applicability of miR-203 as a diagnostic biomarker and therapeutic target for PCa. [ABSTRACT FROM AUTHOR]

Published

2024

9. Integrated bioinformatics analysis and experimental validation reveal the relationship between ALOX5AP and the prognosis and immune microenvironment in glioma

Author

Ping Song, Hui Deng, Yushu Liu, and Mengxian Zhang

Subjects

Glioma, ALOX5AP, Multiplex immunofluorescence, Tumor-associated macrophage, Prognosis, Internal medicine, RC31-1245, Genetics, QH426-470

Abstract

Abstract Background Treatment of gliomas, the most prevalent primary malignant neoplasm of the central nervous system, is challenging. Arachidonate 5-lipoxygenase activating protein (ALOX5AP) is crucial for converting arachidonic acid into leukotrienes and is associated with poor prognosis in multiple cancers. Nevertheless, its relationship with the prognosis and the immune microenvironment of gliomas remains incompletely understood. Methods The differential expression of ALOX5AP was evaluated based on public Databases. Kaplan–Meier, multivariate Cox proportional hazards regression analysis, time-dependent receiver operating characteristic, and nomogram were used to estimate the prognostic value of ALOX5AP. The relationship between ALOX5AP and immune infiltration was calculated using ESTIMATE and CIBERSORT algorithms. Relationships between ALOX5AP and human leukocyte antigen molecules, immune checkpoints, tumor mutation burden, TIDE score, and immunophenoscore were calculated to evaluate glioma immunotherapy response. Single gene GSEA and co-expression network-based GO and KEGG enrichment analysis were performed to explore the potential function of ALOX5AP. ALOX5AP expression was verified using multiplex immunofluorescence staining and its prognostic effects were confirmed using a glioma tissue microarray. Result ALOX5AP was highly expressed in gliomas, and the expression level was related to World Health Organization (WHO) grade, age, sex, IDH mutation status, 1p19q co-deletion status, MGMTp methylation status, and poor prognosis. Single-cell RNA sequencing showed that ALOX5AP was expressed in macrophages, monocytes, and T cells but not in tumor cells. ALOX5AP expression positively correlated with M2 macrophage infiltration and poor immunotherapy response. Immunofluorescence staining demonstrated that ALOX5AP was upregulated in WHO higher-grade gliomas, localizing to M2 macrophages. Glioma tissue microarray confirmed the adverse effect of ALOX5AP in the prognosis of glioma. Conclusion ALOX5AP is highly expressed in M2 macrophages and may act as a potential biomarker for predicting prognosis and immunotherapy response in patients with glioma.

Published

2024

10. Distinct tumor-TAM interactions in IDH-stratified glioma microenvironments unveiled by single-cell and spatial transcriptomics

Author

Meysam Motevasseli, Maryam Darvishi, Alireza Khoshnevisan, Mehdi Zeinalizadeh, Hiva Saffar, Shiva Bayat, Ali Najafi, Mohammad Javad Abbaspour, Ali Mamivand, Susan B. Olson, and Mina Tabrizi

Subjects

Glioblastoma, Tumor microenvironment, Tumor-associated macrophage, Tumor-TAM interaction, Immune checkpoint inhibitor, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Tumor-associated macrophages (TAMs) residing in the tumor microenvironment (TME) are characterized by their pivotal roles in tumor progression, antitumor immunity, and TME remodeling. However, a thorough comparative characterization of tumor-TAM crosstalk across IDH-defined categories of glioma remains elusive, likely contributing to mixed outcomes in clinical trials. We delineated the phenotypic heterogeneity of TAMs across IDH-stratified gliomas. Notably, two TAM subsets with a mesenchymal phenotype were enriched in IDH-WT glioblastoma (GBM) and correlated with poorer patient survival and reduced response to anti-PD-1 immune checkpoint inhibitor (ICI). We proposed SLAMF9 receptor as a potential therapeutic target. Inference of gene regulatory networks identified PPARG, ELK1, and MXI1 as master transcription factors of mesenchymal BMD-TAMs. Our analyses of reciprocal tumor-TAM interactions revealed distinct crosstalk in IDH-WT tumors, including ANXA1-FPR1/3, FN1-ITGAVB1, VEGFA-NRP1, and TNFSF12-TNFRSF12A with known contribution to immunosuppression, tumor proliferation, invasion and TAM recruitment. Spatially resolved transcriptomics further elucidated the architectural organization of highlighted communications. Furthermore, we demonstrated significant upregulation of ANXA1, FN1, NRP1, and TNFRSF12A genes in IDH-WT tumors using bulk RNA-seq and RT-qPCR. Longitudinal expression analysis of candidate genes revealed no difference between primary and recurrent tumors indicating that the interactive network of malignant states with TAMs does not drastically change upon recurrence. Collectively, our study offers insights into the unique cellular composition and communication of TAMs in glioma TME, revealing novel vulnerabilities for therapeutic interventions in IDH-WT GBM.

Published

2024

11. Suppression of SENP3 enhances macrophage alternative activation by mediating IRF4 de-SUMOylation in ESCC progression

Author

Shaoyuan Zhang, Jianmin Gu, Wenhan Wang, Linyi Sun, Tian Jiang, Xinyu Yang, Jun Yin, Miao Lin, Dong Lin, Hao Wang, and Lijie Tan

Subjects

Esophageal squamous cell carcinoma (ESCC), SENP3, Tumor-associated macrophage, IRF4, Alternative activation, SUMOylation, Medicine, Cytology, QH573-671

Abstract

Abstract Esophageal cancer is common worldwide, with ESCC being the most frequent tumor in East Asia. Tumor-associated macrophages are an important component of the ESCC microenvironment. SUMOylation is a post-translational modification of proteins, and SUMO-specific proteases (SENPs) play an important role in de-SUMOylation. In human patients, we discovered that the levels of SENP3 were upregulated in the tumor-associated macrophages. Furthermore, the loss of SENP3 enhanced the alternative activation of macrophages in the 4-NQO-induced ESCC mice model. This is the first study to identify SENP3-mediated macrophage polarization via the de-SUMOylation of interferon regulatory factor 4 (IRF4) at the K349 site. Alternative activation of macrophages increases the migration and invasion potential of ESCC cells and promotes their progression in vivo. Moreover, patients with relatively low SENP3 expression in macrophages exhibit higher primary PET SUVmax value and lymph node metastasis rates. In summary, this study revealed that SENP3-mediated IRF4 de-SUMOylation is crucial for the alternative activation of macrophages and influences the progression of ESCC. Graphical Abstract

Published

2024

12. Glutathione S‐transferase omega class 1 (GSTO1)‐associated large extracellular vesicles are involved in tumor‐associated macrophage‐mediated cisplatin resistance in bladder cancer

Author

Yi‐Cheng Pan, Pei‐Yi Chu, Ching‐Chan Lin, Ching‐Yun Hsieh, Wei‐Yu Hsu, Lie‐Fen Shyur, Juan‐Cheng Yang, Wei‐Chao Chang, and Yang‐Chang Wu

Subjects

bladder cancer, cisplatin resistance, extracellular vesicle, GSTO1, tumor‐associated macrophage, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Bladder cancer poses a significant challenge to chemotherapy due to its resistance to cisplatin, especially at advanced stages. Understanding the mechanisms behind cisplatin resistance is crucial for improving cancer therapy. The enzyme glutathione S‐transferase omega class 1 (GSTO1) is known to be involved in cisplatin resistance in colon cancer. This study focused on its role in cisplatin resistance in bladder cancer. Our analysis of protein expression in bladder cancer cells stimulated by secretions from tumor‐associated macrophages (TAMs) showed a significant increase in GSTO1. This prompted further investigation into the role of GSTO1 in bladder cancer. We found a strong correlation between GSTO1 expression and cisplatin resistance. Mechanistically, GSTO1 triggered the release of large extracellular vesicles (EVs) that promoted cisplatin efflux, thereby reducing cisplatin–DNA adduct formation and enhancing cisplatin resistance. Inhibition of EV release effectively counteracted the cisplatin resistance associated with GSTO1. In conclusion, GSTO1‐mediated EV release may contribute to cisplatin resistance caused by TAMs in bladder cancer. Strategies to target GSTO1 could potentially improve the efficacy of cisplatin in treating bladder cancer.

Published

2024

13. Exploring the immune landscape and drug prediction of an M2 tumor‐associated macrophage‐related gene signature in EGFR‐negative lung adenocarcinoma

Author

Yajie Huang, Yaozhong Zhang, Xiaoyang Duan, Ran Hou, Qi Wang, and Jian Shi

Subjects

bulk RNA‐seq, EGFR‐negative lung adenocarcinoma, immune landscape, single‐cell RNA‐seq, tumor‐associated macrophage, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Improving immunotherapy efficacy for EGFR‐negative lung adenocarcinoma (LUAD) patients remains a critical challenge, and the therapeutic effect of immunotherapy is largely determined by the tumor microenvironment (TME). Tumor‐associated macrophages (TAMs) are the top‐ranked immune infiltrating cells in the TME, and M2‐TAMs exert potent roles in tumor promotion and chemotherapy resistance. An M2‐TAM‐based prognostic signature was constructed by integrative analysis of single‐cell RNA‐seq (scRNA‐seq) and bulk RNA‐seq data to reveal the immune landscape and select drugs in EGFR‐negative LUAD. Methods M2‐TAM‐based biomarkers were obtained from the intersection of bulk RNA‐seq data and scRNA‐seq data. After consensus clustering of EGFR‐negative LUAD into different clusters based on M2‐TAM‐based genes, we compared the prognosis, clinical features, estimate scores, immune infiltration, and checkpoint genes among the clusters. Next, we combined univariate Cox and LASSO regression analyses to establish an M2‐TAM‐based prognostic signature. Results CCL20, HLA‐DMA, HLA‐DRB5, KLF4, and TMSB4X were verified as prognostic M2‐like TAM‐related genes by univariate Cox and LASSO regression analyses. IPS and TMB analyses revealed that the high‐risk group responded better to common immunotherapy. Conclusion The study shows the potential of the M2‐like TAM‐related gene signature in EGFR‐negative LUAD, explores the immune landscape based on M2‐like TAM‐related genes, and predict immunotherapy response of patients with EGFR‐negative LUAD, providing a new insight for individualized treatment.

Published

2024

14. SerpinB2 deficiency is associated with delayed mammary tumor development and decreased pro-tumorigenic macrophage polarization

Author

Yin Ji Piao, Hoe Suk Kim, Hyelim Kim, Jun Shen, and Woo Kyung Moon

Subjects

SerpinB2, Breast cancer, MMTV-PyMT transgenic mouse, Tumor-associated macrophage, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract The in vivo functions of SerpinB2 in tumor cells and tumor-associated macrophages (TAMs) during breast cancer development and metastasis remain elusive. SerpinB2-deficient MMTV-PyMT mice (PyMTSB2−/−) were previously produced to explore the biological roles of SerpinB2 in breast cancer. Compared with MMTV-PyMT wild-type (PyMTWT) mice, PyMTSB2−/− mice showed delayed tumor progression and reduced CK8 + tumor cell dissemination to lymph nodes. RNA-Seq data revealed significantly enriched genes associated with inflammatory responses, especially upregulated M1 and downregulated M2 macrophage marker genes in PyMTSB2−/− tumors. Decreased CD206+M2 and increased NOS2+M1 markers were detected in the primary tumors and metastatic lymph nodes of PyMTSB2−/− mice. In an in vitro study, SerpinB2 knockdown decreased the sphere formation and migration of MDA-MB-231 cells and suppressed protumorigenic M2 polarization of RAW264.7 cells. The combination of low SerpinB2, high NOS2, and low CD206 expression was favorable for survival in patients with breast cancer, as assessed in the BreastMark dataset. Our study demonstrates that SerpinB2 deficiency delays mammary tumor development and metastasis in PyMTWT mice, along with reduced sphere formation and migration abilities of tumor cells and decreased macrophage protumorigenic polarization.

Published

2024

15. Photosensitive and dual-targeted chromium nanoparticle delivering small interfering RNA YTHDF1 for molecular-targeted immunotherapy in liver cancer

Author

Shang Chen, Yan He, Xin Huang, Yao Shen, Qingshuang Zou, Gun Yang, Li Fu, Quan Liu, and Dixian Luo

Subjects

Liver cancer, Tumor-associated macrophage, Dual-targeting, Small interfering RNA, m6A reader YTHDF1, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Tumor-associated macrophages (TAMs) are a promising target for cancer immunotherapy, but delivering therapeutic agents to TAMs within the tumor microenvironment (TME) is challenging. In this study, a photosensitive, dual-targeting nanoparticle system (M.RGD@Cr-CTS-siYTHDF1 NPs) was developed. The structure includes a shell of DSPE-modified RGD peptides targeting integrin receptors on tumor cells and carboxymethyl mannose targeting CD206 receptors on macrophages, with a core of chitosan adsorbing m6A reading protein YTHDF1 siRNA and chromium nanoparticles (Cr NPs). The approach is specifically designed to target TAM and cancer cells, utilizing the photothermal effect of Cr NPs to disrupt the TME and deliver siYTHDF1 to TAM. In experiments with tumor-bearing mice, M.RGD@Cr-CTS-siYTHDF1 NPs, when exposed to laser irradiation, effectively killed tumor cells, disrupted the TME, delivered siYTHDF1 to TAMs, silenced the YTHDF1 gene, and shifted the STAT3-STAT1 equilibrium by reducing STAT3 and enhancing STAT1 expression. This reprogramming of TAMs towards an anti-tumor phenotype led to a pro-immunogenic TME state. The strategy also suppressed immunosuppressive IL-10 production, increased expression of immunostimulatory factors (IL-12 and IFN-γ), boosted CD8 + T cell infiltration and M1-type TAMs, and reduced Tregs and M2-type TAMs within the TME. In conclusion, the dual-targeting M.RGD@Cr-CTS-siYTHDF1 NPs, integrating dual-targeting capabilities with photothermal therapy (PTT) and RNA interference, offer a promising approach for molecular targeted cancer immunotherapy with potential for clinical application. Graphical Abstract

Published

2024

16. ALKBH5 promotes non-small cell lung cancer progression and susceptibility to anti-PD-L1 therapy by modulating interactions between tumor and macrophages

Author

Xin Hua, Qiuli Xu, Ranpu Wu, Wei Sun, Yanli Gu, Suhua Zhu, Xin Liu, Tangfeng Lv, and Yong Song

Subjects

ALKBH5, JAK2/p-STAT3 pathway, N6-methyladenosine demethylase, Non-small cell lung cancer, Tumor-associated macrophage, Tumor microenvironment, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Understanding the mechanisms that mediate the interaction between tumor and immune cells may provide therapeutic benefit to patients with cancer. The N6-methyladenosine (m6A) demethylase, ALKBH5 (alkB homolog 5), is overexpressed in non-small cell lung cancer. However, its role in the tumor microenvironment is unknown. Methods Datasets and tissue samples were used to determine the relationship between ALKBH5 expression and immunotherapy efficacy. Bioinformatic analysis, colorimetric assay to determine m6A RNA methylation, dual luciferase reporter assay, RNA/m6A-modified RNA immunoprecipitation, RNA stability assay, and RNA sequencing were used to investigate the regulatory mechanism of ALKBH5 in non-small cell lung cancer. In vitro and in vivo assays were performed to determine the contribution of ALKBH5 to the development of non-small cell lung cancer. Results ALKBH5 was upregulated in primary non-small cell lung cancer tissues. ALKBH5 was positively correlated with programmed death-ligand 1 expression and macrophage infiltration and was associated with immunotherapy response. JAK2 was identified as a target of ALKBH5-mediated m6A modification, which activates the JAK2/p-STAT3 pathway to promote non-small cell lung cancer progression. ALKBH5 was found to recruit programmed death-ligand 1-positive tumor-associated macrophages and promote M2 macrophage polarization by inducing the secretion of CCL2 and CXCL10. ALKBH5 and tumor-associated macrophage-secreted IL-6 showed a synergistic effect to activate the JAK2/p-STAT3 pathway in cancer cells. Conclusions ALKBH5 promotes non-small cell lung cancer progression by regulating cancer and tumor-associated macrophage behavior through the JAK2/p-STAT3 pathway and the expression of CCL2 and CXCL10, respectively. These findings suggest that targeting ALKBH5 is a promising strategy of enhancing the anti-tumor immune response in patients with NSCLC and that identifying ALKBH5 status could facilitate prediction of clinical response to anti-PD-L1 immunotherapy.

Published

2024

17. Integrated bioinformatics analysis and experimental validation reveal the relationship between ALOX5AP and the prognosis and immune microenvironment in glioma.

Author

Song, Ping, Deng, Hui, Liu, Yushu, and Zhang, Mengxian

Subjects

*HLA histocompatibility antigens, *BIOINFORMATICS, *PROGNOSIS, *RECEIVER operating characteristic curves, CENTRAL nervous system tumors

Abstract

Background: Treatment of gliomas, the most prevalent primary malignant neoplasm of the central nervous system, is challenging. Arachidonate 5-lipoxygenase activating protein (ALOX5AP) is crucial for converting arachidonic acid into leukotrienes and is associated with poor prognosis in multiple cancers. Nevertheless, its relationship with the prognosis and the immune microenvironment of gliomas remains incompletely understood. Methods: The differential expression of ALOX5AP was evaluated based on public Databases. Kaplan–Meier, multivariate Cox proportional hazards regression analysis, time-dependent receiver operating characteristic, and nomogram were used to estimate the prognostic value of ALOX5AP. The relationship between ALOX5AP and immune infiltration was calculated using ESTIMATE and CIBERSORT algorithms. Relationships between ALOX5AP and human leukocyte antigen molecules, immune checkpoints, tumor mutation burden, TIDE score, and immunophenoscore were calculated to evaluate glioma immunotherapy response. Single gene GSEA and co-expression network-based GO and KEGG enrichment analysis were performed to explore the potential function of ALOX5AP. ALOX5AP expression was verified using multiplex immunofluorescence staining and its prognostic effects were confirmed using a glioma tissue microarray. Result: ALOX5AP was highly expressed in gliomas, and the expression level was related to World Health Organization (WHO) grade, age, sex, IDH mutation status, 1p19q co-deletion status, MGMTp methylation status, and poor prognosis. Single-cell RNA sequencing showed that ALOX5AP was expressed in macrophages, monocytes, and T cells but not in tumor cells. ALOX5AP expression positively correlated with M2 macrophage infiltration and poor immunotherapy response. Immunofluorescence staining demonstrated that ALOX5AP was upregulated in WHO higher-grade gliomas, localizing to M2 macrophages. Glioma tissue microarray confirmed the adverse effect of ALOX5AP in the prognosis of glioma. Conclusion: ALOX5AP is highly expressed in M2 macrophages and may act as a potential biomarker for predicting prognosis and immunotherapy response in patients with glioma. [ABSTRACT FROM AUTHOR]

Published

2024

18. Distinct tumor-TAM interactions in IDH-stratified glioma microenvironments unveiled by single-cell and spatial transcriptomics.

Author

Motevasseli, Meysam, Darvishi, Maryam, Khoshnevisan, Alireza, Zeinalizadeh, Mehdi, Saffar, Hiva, Bayat, Shiva, Najafi, Ali, Abbaspour, Mohammad Javad, Mamivand, Ali, Olson, Susan B., and Tabrizi, Mina

Subjects

*IMMUNE checkpoint inhibitors, *TRANSCRIPTOMES, *TUMOR microenvironment, *GLIOBLASTOMA multiforme, *GLIOMAS

Abstract

Tumor-associated macrophages (TAMs) residing in the tumor microenvironment (TME) are characterized by their pivotal roles in tumor progression, antitumor immunity, and TME remodeling. However, a thorough comparative characterization of tumor-TAM crosstalk across IDH-defined categories of glioma remains elusive, likely contributing to mixed outcomes in clinical trials. We delineated the phenotypic heterogeneity of TAMs across IDH-stratified gliomas. Notably, two TAM subsets with a mesenchymal phenotype were enriched in IDH-WT glioblastoma (GBM) and correlated with poorer patient survival and reduced response to anti-PD-1 immune checkpoint inhibitor (ICI). We proposed SLAMF9 receptor as a potential therapeutic target. Inference of gene regulatory networks identified PPARG, ELK1, and MXI1 as master transcription factors of mesenchymal BMD-TAMs. Our analyses of reciprocal tumor-TAM interactions revealed distinct crosstalk in IDH-WT tumors, including ANXA1-FPR1/3, FN1-ITGAVB1, VEGFA-NRP1, and TNFSF12-TNFRSF12A with known contribution to immunosuppression, tumor proliferation, invasion and TAM recruitment. Spatially resolved transcriptomics further elucidated the architectural organization of highlighted communications. Furthermore, we demonstrated significant upregulation of ANXA1, FN1, NRP1, and TNFRSF12A genes in IDH-WT tumors using bulk RNA-seq and RT-qPCR. Longitudinal expression analysis of candidate genes revealed no difference between primary and recurrent tumors indicating that the interactive network of malignant states with TAMs does not drastically change upon recurrence. Collectively, our study offers insights into the unique cellular composition and communication of TAMs in glioma TME, revealing novel vulnerabilities for therapeutic interventions in IDH-WT GBM. [ABSTRACT FROM AUTHOR]

Published

2024

19. Suppression of SENP3 enhances macrophage alternative activation by mediating IRF4 de-SUMOylation in ESCC progression.

Author

Zhang, Shaoyuan, Gu, Jianmin, Wang, Wenhan, Sun, Linyi, Jiang, Tian, Yang, Xinyu, Yin, Jun, Lin, Miao, Lin, Dong, Wang, Hao, and Tan, Lijie

Subjects

*POST-translational modification, *INTERFERON regulatory factors, *LYMPHATIC metastasis, *SQUAMOUS cell carcinoma, *MACROPHAGE activation

Abstract

Esophageal cancer is common worldwide, with ESCC being the most frequent tumor in East Asia. Tumor-associated macrophages are an important component of the ESCC microenvironment. SUMOylation is a post-translational modification of proteins, and SUMO-specific proteases (SENPs) play an important role in de-SUMOylation. In human patients, we discovered that the levels of SENP3 were upregulated in the tumor-associated macrophages. Furthermore, the loss of SENP3 enhanced the alternative activation of macrophages in the 4-NQO-induced ESCC mice model. This is the first study to identify SENP3-mediated macrophage polarization via the de-SUMOylation of interferon regulatory factor 4 (IRF4) at the K349 site. Alternative activation of macrophages increases the migration and invasion potential of ESCC cells and promotes their progression in vivo. Moreover, patients with relatively low SENP3 expression in macrophages exhibit higher primary PET SUVmax value and lymph node metastasis rates. In summary, this study revealed that SENP3-mediated IRF4 de-SUMOylation is crucial for the alternative activation of macrophages and influences the progression of ESCC. Highlights: • SENP3 expression is upregulated in macrophages in esophageal squamous cell carcinoma. • The absence of SENP3 in macrophages promotes the progression of esophageal squamous cell carcinoma both in patients and in the 4-NQO-induced ESCC mice model. • Loss of SENP3 promotes macrophages' alternative activation by attenuating the de-SUMOylation of IRF4 at the K349 site. • ESCC patients with relatively low SENP3 expression in macrophages had higher primary tumor SUVmax and lymph node metastasis rates. [ABSTRACT FROM AUTHOR]

Published

2024

20. Glutathione S‐transferase omega class 1 (GSTO1)‐associated large extracellular vesicles are involved in tumor‐associated macrophage‐mediated cisplatin resistance in bladder cancer.

Author

Pan, Yi‐Cheng, Chu, Pei‐Yi, Lin, Ching‐Chan, Hsieh, Ching‐Yun, Hsu, Wei‐Yu, Shyur, Lie‐Fen, Yang, Juan‐Cheng, Chang, Wei‐Chao, and Wu, Yang‐Chang

Abstract

Bladder cancer poses a significant challenge to chemotherapy due to its resistance to cisplatin, especially at advanced stages. Understanding the mechanisms behind cisplatin resistance is crucial for improving cancer therapy. The enzyme glutathione S‐transferase omega class 1 (GSTO1) is known to be involved in cisplatin resistance in colon cancer. This study focused on its role in cisplatin resistance in bladder cancer. Our analysis of protein expression in bladder cancer cells stimulated by secretions from tumor‐associated macrophages (TAMs) showed a significant increase in GSTO1. This prompted further investigation into the role of GSTO1 in bladder cancer. We found a strong correlation between GSTO1 expression and cisplatin resistance. Mechanistically, GSTO1 triggered the release of large extracellular vesicles (EVs) that promoted cisplatin efflux, thereby reducing cisplatin–DNA adduct formation and enhancing cisplatin resistance. Inhibition of EV release effectively counteracted the cisplatin resistance associated with GSTO1. In conclusion, GSTO1‐mediated EV release may contribute to cisplatin resistance caused by TAMs in bladder cancer. Strategies to target GSTO1 could potentially improve the efficacy of cisplatin in treating bladder cancer. [ABSTRACT FROM AUTHOR]

Published

2024

21. Exploring the immune landscape and drug prediction of an M2 tumor‐associated macrophage‐related gene signature in EGFR‐negative lung adenocarcinoma.

Author

Huang, Yajie, Zhang, Yaozhong, Duan, Xiaoyang, Hou, Ran, Wang, Qi, and Shi, Jian

Subjects

*RNA analysis, *ADENOCARCINOMA, *MACROPHAGES, *RESEARCH funding, *CELL physiology, *IMMUNE system, *TUMOR markers, *DESCRIPTIVE statistics, *GENE expression, *RNA, *GENES, *LUNG tumors, *STATISTICS, *EPIDERMAL growth factor receptors, *REGRESSION analysis

Abstract

Background: Improving immunotherapy efficacy for EGFR‐negative lung adenocarcinoma (LUAD) patients remains a critical challenge, and the therapeutic effect of immunotherapy is largely determined by the tumor microenvironment (TME). Tumor‐associated macrophages (TAMs) are the top‐ranked immune infiltrating cells in the TME, and M2‐TAMs exert potent roles in tumor promotion and chemotherapy resistance. An M2‐TAM‐based prognostic signature was constructed by integrative analysis of single‐cell RNA‐seq (scRNA‐seq) and bulk RNA‐seq data to reveal the immune landscape and select drugs in EGFR‐negative LUAD. Methods: M2‐TAM‐based biomarkers were obtained from the intersection of bulk RNA‐seq data and scRNA‐seq data. After consensus clustering of EGFR‐negative LUAD into different clusters based on M2‐TAM‐based genes, we compared the prognosis, clinical features, estimate scores, immune infiltration, and checkpoint genes among the clusters. Next, we combined univariate Cox and LASSO regression analyses to establish an M2‐TAM‐based prognostic signature. Results: CCL20, HLA‐DMA, HLA‐DRB5, KLF4, and TMSB4X were verified as prognostic M2‐like TAM‐related genes by univariate Cox and LASSO regression analyses. IPS and TMB analyses revealed that the high‐risk group responded better to common immunotherapy. Conclusion: The study shows the potential of the M2‐like TAM‐related gene signature in EGFR‐negative LUAD, explores the immune landscape based on M2‐like TAM‐related genes, and predict immunotherapy response of patients with EGFR‐negative LUAD, providing a new insight for individualized treatment. [ABSTRACT FROM AUTHOR]

Published

2024

22. SerpinB2 deficiency is associated with delayed mammary tumor development and decreased pro-tumorigenic macrophage polarization.

Author

Piao, Yin Ji, Kim, Hoe Suk, Kim, Hyelim, Shen, Jun, and Moon, Woo Kyung

Subjects

*MACROPHAGES, *CANCER invasiveness, *CELL migration, *BREAST cancer, *CANCER cell growth, *METASTASIS

Abstract

The in vivo functions of SerpinB2 in tumor cells and tumor-associated macrophages (TAMs) during breast cancer development and metastasis remain elusive. SerpinB2-deficient MMTV-PyMT mice (PyMTSB2−/−) were previously produced to explore the biological roles of SerpinB2 in breast cancer. Compared with MMTV-PyMT wild-type (PyMTWT) mice, PyMTSB2−/− mice showed delayed tumor progression and reduced CK8 + tumor cell dissemination to lymph nodes. RNA-Seq data revealed significantly enriched genes associated with inflammatory responses, especially upregulated M1 and downregulated M2 macrophage marker genes in PyMTSB2−/− tumors. Decreased CD206+M2 and increased NOS2+M1 markers were detected in the primary tumors and metastatic lymph nodes of PyMTSB2−/− mice. In an in vitro study, SerpinB2 knockdown decreased the sphere formation and migration of MDA-MB-231 cells and suppressed protumorigenic M2 polarization of RAW264.7 cells. The combination of low SerpinB2, high NOS2, and low CD206 expression was favorable for survival in patients with breast cancer, as assessed in the BreastMark dataset. Our study demonstrates that SerpinB2 deficiency delays mammary tumor development and metastasis in PyMTWT mice, along with reduced sphere formation and migration abilities of tumor cells and decreased macrophage protumorigenic polarization. [ABSTRACT FROM AUTHOR]

Published

2024

23. 基于 M2 型巨噬细胞来源的 Siglec15 对食管鳞癌细胞恶性生物学 行为影响的生物信息学分析及实验验证.

Author

任祎琳, 臧翌辰, 薛乐乐, 杨凯歌, 陈素芳, 王魏楠, 罗成华, 梁伟华, 王良海, 李 锋, and 胡建明

Subjects

*GENE expression, *SQUAMOUS cell carcinoma, *COLON cancer, *CELL migration, *ESOPHAGEAL cancer, *CETUXIMAB

Abstract

Objective: To discuss the effect of sialic acid-binding immunoglobulin-like lectin-15(Siglec15) derived from M2 tumor-associated macrophages (M2-TAMs) on promoting the malignant biological behavior of the esophageal squamous cell carcinoma (ESCC) through bioinformatics analysis, and to validate the findings through cell experiment. Methods: The Tumor Immune Estimation Resource (TIMER) online Database was used to analyze the expression differences and immune infiltration of Siglec15 in pan-cancer and adjacent normal tissues. Real-time fluorescence quantitative PCR (RT-qPCR) method was used to detect the expression levels of Siglec15 mRNA in M2-TAMs and ESCC EC109 and KYSE150 cells. Based on the non-contact co-culture of M2-TAMs and ESCC cells, the following groups were set up，such as EC109/KYSE150 group, EC109/KYSE150+si-NC group (transfected with si-NC sequence), and EC109/KYSE150+si-Siglec15 group (transfected with si-Siglec15#1 and si-Siglec15#2 sequences). CCK-8 method was used to detect the proliferation activities of the cells in various groups; wound healing assay was used to detect the wound healing rates of the cells in various groups; Transwell chamber assay was used to detect the numbers of migration and invasion cells in various groups; flow cytometry was used to detect the apoptotic rates of the cells in various groups. Results: The bioinformatics analysis results showed that compared with adjacent normal tissue, the expression levels of Siglec15 mRNA in pan-cancer tissues such as esophageal cancer, colon cancer, and head and neck squamous cell carcinoma tissues were increased (P<0. 05 or P<0. 01), and the expression level of Siglec15 mRNA in esophageal cancer tissue was significantly positively correlated with the infiltration of the macrophages (P<0. 05). Compared with the EC109 cells and KYSE150 cells, the expression level of Siglec15 mRNA in M2-TAMs was significantly increased (P<0. 01). There was no significant difference in the proliferation rate of the cells among EC109/KYSE150 group, EC109/KYSE150+si-NC group, and EC109/KYSE150+si-Siglec15 group(P>0. 05). Compared with EC109/KYSE150 group, after treated for 24 and 48 h, the wound healing rate of the cells in EC109/KYSE150+si-NC group was increased (P<0. 01), the numbers of migration and invasion cells were increased (P<0. 05), and the apoptotic rate was decreased (P<0. 01). Compared with EC109/KYSE150+si-NC group, the wound healing rates of the cells in EC109/ KYSE150+si-Siglec15#1 group and EC109/KYSE150+si-Siglec15#2 group were decreased (P< 0. 05), the numbers of migration and invasion cells were decreased (P<0. 05), and the apoptotic rates of the cells had no significant difference (P>0. 05). Conclusion: Siglec15 derived from M2-TAMs may be a key factor in promoting the migration and invasion of the ESCC cells. [ABSTRACT FROM AUTHOR]

Published

2024

24. Codonopsis pilosula-derived glycopeptide dCP1 promotes the polarization of tumor-associated macrophage from M2-like to M1 phenotype.

Author

Liu, Hongxu, Yao, Maojin, and Ren, Jiaoyan

Abstract

The majority of the immune cell population in the tumor microenvironment (TME) consists of tumor-associated macrophages (TAM), which are the main players in coordinating tumor-associated inflammation. TAM has a high plasticity and is divided into two main phenotypes, pro-inflammatory M1 type and anti-inflammatory M2 type, with tumor-suppressive and tumor-promoting functions, respectively. Considering the beneficial effects of M1 macrophages for anti-tumor and the high plasticity of macrophages, the conversion of M2 TAM to M1 TAM is feasible and positive for tumor treatment. This study sought to evaluate whether the glycopeptide derived from simulated digested Codonopsis pilosula extracts could regulate the polarization of M2-like TAM toward the M1 phenotype and the potential regulatory mechanisms. The results showed that after glycopeptide dCP1 treatment, the mRNA relative expression levels of some M2 phenotype marker genes in M2-like TAM in simulated TME were reduced, and the relative expression levels of M1 phenotype marker genes and inflammatory factor genes were increased. Analysis of RNA-Seq of M2-like TAM after glycopeptide dCP1 intervention showed that the gene sets such as glycolysis, which is associated with macrophage polarization in the M1 phenotype, were significantly up-regulated, whereas those of gene sets such as IL-6-JAK-STAT3 pathway, which is associated with polarization in the M2 phenotype, were significantly down-regulated. Moreover, PCA analysis and Pearson's correlation also indicated that M2-like TAM polarized toward the M1 phenotype at the transcriptional level after treatment with the glycopeptide dCP1. Lipid metabolomics was used to further explore the efficacy of the glycopeptide dCP1 in regulating the polarization of M2-like TAM to the M1 phenotype. It was found that the lipid metabolite profiles in dCP1-treated M2-like TAM showed M1 phenotype macrophage lipid metabolism profiles compared with blank M2-like TAM. Analysis of the key differential lipid metabolites revealed that the interconversion between phosphatidylcholine (PC) and diacylglycerol (DG) metabolites may be the central reaction of the glycopeptide dCP1 in regulating the conversion of M2-like TAM to the M1 phenotype. The above results suggest that the glycopeptide dCP1 has the efficacy to regulate the polarization of M2-like TAM to M1 phenotype in simulated TME. [ABSTRACT FROM AUTHOR]

Published

2024

25. TGF-β1-Induced SOX18 Elevation Promotes Hepatocellular Carcinoma Progression and Metastasis Through Transcriptionally Upregulating PD-L1 and CXCL12.

Author

Chen, Jie, Feng, Weibo, Sun, Mengyu, Huang, Wenjie, Wang, Guodong, Chen, Xilang, Yin, Yue, Chen, Xiaoping, Zhang, Bixiang, Nie, Yongzhan, Fan, Daiming, Wu, Kaichun, and Xia, Limin

Abstract

Hepatocellular carcinoma (HCC) is characterized by an immune-suppressive microenvironment, which contributes to tumor progression, metastasis, and immunotherapy resistance. Identification of HCC-intrinsic factors regulating the immunosuppressive microenvironment is urgently needed. Here, we aimed to elucidate the role of SYR-Related High-Mobility Group Box 18 (SOX18) in inducing immunosuppression and to validate novel combination strategies for SOX18-mediated HCC progression and metastasis. The role of SOX18 in HCC was investigated in orthotopic allografts and diethylinitrosamine/carbon tetrachloride–induced spontaneous models by using murine cell lines, adeno-associated virus 8, and hepatocyte-specific knockin and knockout mice. The immune cellular composition in the HCC microenvironment was evaluated by flow cytometry and immunofluorescence. SOX18 overexpression promoted the infiltration of tumor-associated macrophages (TAMs) and regulatory T cells (Tregs) while diminishing cytotoxic T cells to facilitate HCC progression and metastasis in cell-derived allografts and chemically induced HCC models. Mechanistically, transforming growth factor-beta 1 (TGF-β1) upregulated SOX18 expression by activating the Smad2/3 complex. SOX18 transactivated chemokine (C-X-C motif) ligand 12 (CXCL12) and programmed death ligand 1 (PD-L1) to induce the immunosuppressive microenvironment. CXCL12 knockdown significantly attenuated SOX18-induced TAMs and Tregs accumulation and HCC dissemination. Antagonism of chemokine receptor 4 (CXCR4), the cognate receptor of CXCL12, or selective knockout of CXCR4 in TAMs or Tregs likewise abolished SOX18-mediated effects. TGFβR1 inhibitor Vactosertib or CXCR4 inhibitor AMD3100 in combination with anti-PD-L1 dramatically inhibited SOX18-mediated HCC progression and metastasis. SOX18 promoted the accumulation of immunosuppressive TAMs and Tregs in the microenvironment by transactivating CXCL12 and PD-L1. CXCR4 inhibitor or TGFβR1 inhibitor in synergy with anti-PD-L1 represented a promising combination strategy to suppress HCC progression and metastasis. [Display omitted] We elucidated that SOX18 mediated by the TGF-β1-p-Smad2/3 axis shaped the immunosuppressive microenvironment. CXCR4 inhibitor AMD3100 or TGFβR1 inhibitor Vactosertib may boost anti-PD-L1 efficacy and represent novel combinational strategies. [ABSTRACT FROM AUTHOR]

Published

2024

26. Photosensitive and dual-targeted chromium nanoparticle delivering small interfering RNA YTHDF1 for molecular-targeted immunotherapy in liver cancer.

Author

Chen, Shang, He, Yan, Huang, Xin, Shen, Yao, Zou, Qingshuang, Yang, Gun, Fu, Li, Liu, Quan, and Luo, Dixian

Subjects

*SMALL interfering RNA, *LIVER cancer, *NANOPARTICLES, *RNA interference, *CELL receptors, *NANOMEDICINE

Abstract

Tumor-associated macrophages (TAMs) are a promising target for cancer immunotherapy, but delivering therapeutic agents to TAMs within the tumor microenvironment (TME) is challenging. In this study, a photosensitive, dual-targeting nanoparticle system (M.RGD@Cr-CTS-siYTHDF1 NPs) was developed. The structure includes a shell of DSPE-modified RGD peptides targeting integrin receptors on tumor cells and carboxymethyl mannose targeting CD206 receptors on macrophages, with a core of chitosan adsorbing m6A reading protein YTHDF1 siRNA and chromium nanoparticles (Cr NPs). The approach is specifically designed to target TAM and cancer cells, utilizing the photothermal effect of Cr NPs to disrupt the TME and deliver siYTHDF1 to TAM. In experiments with tumor-bearing mice, M.RGD@Cr-CTS-siYTHDF1 NPs, when exposed to laser irradiation, effectively killed tumor cells, disrupted the TME, delivered siYTHDF1 to TAMs, silenced the YTHDF1 gene, and shifted the STAT3-STAT1 equilibrium by reducing STAT3 and enhancing STAT1 expression. This reprogramming of TAMs towards an anti-tumor phenotype led to a pro-immunogenic TME state. The strategy also suppressed immunosuppressive IL-10 production, increased expression of immunostimulatory factors (IL-12 and IFN-γ), boosted CD8 + T cell infiltration and M1-type TAMs, and reduced Tregs and M2-type TAMs within the TME. In conclusion, the dual-targeting M.RGD@Cr-CTS-siYTHDF1 NPs, integrating dual-targeting capabilities with photothermal therapy (PTT) and RNA interference, offer a promising approach for molecular targeted cancer immunotherapy with potential for clinical application. [ABSTRACT FROM AUTHOR]

Published

2024

27. ALKBH5 promotes non-small cell lung cancer progression and susceptibility to anti-PD-L1 therapy by modulating interactions between tumor and macrophages.

Author

Hua, Xin, Xu, Qiuli, Wu, Ranpu, Sun, Wei, Gu, Yanli, Zhu, Suhua, Liu, Xin, Lv, Tangfeng, and Song, Yong

Subjects

*NON-small-cell lung carcinoma, *CANCER invasiveness, *PROGRAMMED death-ligand 1, *RNA methylation, CANCER susceptibility

Abstract

Background: Understanding the mechanisms that mediate the interaction between tumor and immune cells may provide therapeutic benefit to patients with cancer. The N6-methyladenosine (m6A) demethylase, ALKBH5 (alkB homolog 5), is overexpressed in non-small cell lung cancer. However, its role in the tumor microenvironment is unknown. Methods: Datasets and tissue samples were used to determine the relationship between ALKBH5 expression and immunotherapy efficacy. Bioinformatic analysis, colorimetric assay to determine m6A RNA methylation, dual luciferase reporter assay, RNA/m6A-modified RNA immunoprecipitation, RNA stability assay, and RNA sequencing were used to investigate the regulatory mechanism of ALKBH5 in non-small cell lung cancer. In vitro and in vivo assays were performed to determine the contribution of ALKBH5 to the development of non-small cell lung cancer. Results: ALKBH5 was upregulated in primary non-small cell lung cancer tissues. ALKBH5 was positively correlated with programmed death-ligand 1 expression and macrophage infiltration and was associated with immunotherapy response. JAK2 was identified as a target of ALKBH5-mediated m6A modification, which activates the JAK2/p-STAT3 pathway to promote non-small cell lung cancer progression. ALKBH5 was found to recruit programmed death-ligand 1-positive tumor-associated macrophages and promote M2 macrophage polarization by inducing the secretion of CCL2 and CXCL10. ALKBH5 and tumor-associated macrophage-secreted IL-6 showed a synergistic effect to activate the JAK2/p-STAT3 pathway in cancer cells. Conclusions: ALKBH5 promotes non-small cell lung cancer progression by regulating cancer and tumor-associated macrophage behavior through the JAK2/p-STAT3 pathway and the expression of CCL2 and CXCL10, respectively. These findings suggest that targeting ALKBH5 is a promising strategy of enhancing the anti-tumor immune response in patients with NSCLC and that identifying ALKBH5 status could facilitate prediction of clinical response to anti-PD-L1 immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

28. Prognostic Significance of CD163+ and/or CD206+ Tumor-Associated Macrophages Is Linked to Their Spatial Distribution and Tumor-Infiltrating Lymphocytes in Breast Cancer.

Author

Fang, Canbin, Cheung, Maisy Y., Chan, Ronald C., Poon, Ivan K., Lee, Conrad, To, Curtis C., Tsang, Julia Y., Li, Joshua, and Tse, Gary M.

Subjects

*BREAST cancer prognosis, *MACROPHAGES, *RESEARCH funding, *SURVIVAL rate, *DIGITAL diagnostic imaging, *LYMPHOCYTES, *TUMOR markers, *CHI-squared test, *METASTASIS, *STROMAL cells, *COMPARATIVE studies, *PROGRESSION-free survival

Abstract

Simple Summary: The manual assessment and identification of tumor-associated macrophages (TAMs) with a single marker limits a thorough analysis of their spatial distribution and density. We applied a digital workflow to compare the features of TAM populations identified by CD163 and CD206 and showed that these markers highlighted TAM populations with distinct clinical implications. The spatial distribution of CD163 TAMs and their interactions with tumor-infiltrating lymphocytes (TILs) refined the prognostic value in breast cancer. Conversely, CD206 TAMs may not have any unfavorable prognostic impact. Tumor-associated macrophages (TAMs) is a key element in the breast tumor microenvironment. CD163 and CD206 have been utilized for TAM identification, but the clinical implications of TAMs identified by these markers have not been thoroughly explored. This study conducted a comparative analysis of CD163 and CD206 TAMs using digital image analysis, focusing on their spatial distribution and prognostic significance in relation to tumor-infiltrating lymphocytes (TILs). Distinct clinico-pathological and prognostic characteristics were noted between the two types of TAMs. CD163 TAMs were linked to high-grade tumors (p = 0.006), whereas CD206 TAMs were associated with a higher incidence of nodal metastasis (p = 0.033). CD206 TAMs were predominantly found in the stroma, with more cases being stromal CD206-high (sCD206-high) than tumoral CD206-high (tCD206-high) (p = 0.024). Regarding prognostication, patients stratified according to stromal and tumoral densities of CD163 showed different disease-free survival (DFS) time. Specifically, those that were sCD163-low but tCD163-high exhibited the poorest DFS (chi-square = 10.853, p = 0.013). Furthermore, a high sCD163-to-stromal-TILs ratio was identified as an independent predictor of unfavorable survival outcomes (DFS: HR = 3.477, p = 0.018). The spatial distribution and interactions with TILs enhanced the prognostic value of CD163 TAMs, while CD206 TAMs appeared to have limited prognostic utility in breast cancer cases. [ABSTRACT FROM AUTHOR]

Published

2024

29. Extracellular matrix stiffness and tumor-associated macrophage polarization: new fields affecting immune exclusion.

Author

Yu, Ke-Xun, Yuan, Wei-Jie, Wang, Hui-Zhen, and Li, Yong-Xiang

Abstract

In the malignant progression of tumors, there is deposition and cross-linking of collagen, as well as an increase in hyaluronic acid content, which can lead to an increase in extracellular matrix stiffness. Recent research evidence have shown that the extracellular matrix plays an important role in angiogenesis, cell proliferation, migration, immunosuppression, apoptosis, metabolism, and resistance to chemotherapeutic by the alterations toward both secretion and degradation. The clinical importance of tumor-associated macrophage is increasingly recognized, and macrophage polarization plays a central role in a series of tumor immune processes through internal signal cascade, thus regulating tumor progression. Immunotherapy has gradually become a reliable potential treatment strategy for conventional chemotherapy resistance and advanced cancer patients, but the presence of immune exclusion has become a major obstacle to treatment effectiveness, and the reasons for their resistance to these approaches remain uncertain. Currently, there is a lack of exact mechanism on the regulation of extracellular matrix stiffness and tumor-associated macrophage polarization on immune exclusion. An in-depth understanding of the relationship between extracellular matrix stiffness, tumor-associated macrophage polarization, and immune exclusion will help reveal new therapeutic targets and guide the development of clinical treatment methods for advanced cancer patients. This review summarized the different pathways and potential molecular mechanisms of extracellular matrix stiffness and tumor-associated macrophage polarization involved in immune exclusion and provided available strategies to address immune exclusion. [ABSTRACT FROM AUTHOR]

Published

2024

30. Breast cancer colonization by Malassezia globosa accelerates tumor growth

Author

Miao-Miao Liu, Hui-Hui Zhu, Jie Bai, Zi-Ye Tian, Yu-Jing Zhao, Teun Boekhout, and Qi-Ming Wang

Subjects

breast cancer, Malassezia, fungi, IL-17A, tumor-associated macrophage, Sphk1, Microbiology, QR1-502

Abstract

ABSTRACT Malassezia globosa is a lipophilic basidiomycetous yeast that occurs abundantly in breast tumors and that may contribute to a shortened overall survival of breast cancer (BRAC) patients, suggesting that the yeast may participate in the carcinogenesis of BRAC. However, the mechanisms involved in the M. globosa-based acceleration of BRAC are unknown. Here, we show that M. globosa can colonize mammary tissue in 7,12-dimethylbenz[a] anthracene-induced mice. The abundance of M. globosa shortened the overall survival and increased the tumor incidence. Transcriptome data illustrated that IL-17A plays a key role in tumor growth due to M. globosa colonization, and tumor-associated macrophage infiltration was elevated during M. globosa colonization which triggers M2 polarization of macrophages via toll-like receptors 4/nuclear factor kappa-B (Nf-κB) signaling. Our results show that the expression of sphingosine kinase 1 (Sphk1) is increased in breast tumors after inoculation with M. globosa. Moreover, we discovered that Sphk1-specific small interfering RNA blocked the formation of lipid droplets, which can effectively alleviate the expression of the signal transducer and activator of the transcription 3 (STAT3)/Nf-κB pathway. Taken together, our results demonstrate that M. globosa could be a possible factor for the progression of BRAC. The mechanisms by which M. globosa promotes BRAC development involve the IL-17A/macrophage axis. Meanwhile, Sphk1 overexpression was induced by M. globosa infection, which also promoted the proliferation of MCF-7 cells.IMPORTANCELiterature has suggested that Malassezia globosa is associated with breast tumors; however, this association has not been confirmed. Here, we found that M. globosa colonizes in breast fat pads leading to tumor growth. As a lipophilic yeast, the expression of sphingosine kinase 1 (Sphk1) was upregulated to promote tumor growth after M. globosa colonization. Moreover, the IL-17A/macrophages axis plays a key role in mechanisms involved in the M. globosa-induced breast cancer acceleration from the tumor immune microenvironment perspective.

Published

2024

31. Surface Molecularly Engineered Mitochondria Conduct Immunophenotype Repolarization of Tumor‐Associated Macrophages to Potentiate Cancer Immunotherapy

Author

Cai‐Ju Zhang, Jia‐Mi Li, Dan Xu, Dan‐Dan Wang, Ming‐Hui Qi, Feng Chen, Bo Wu, Kai Deng, and Shi‐Wen Huang

Subjects

immunotherapy, metabolic regulation, mitochondrial transplantation, surface molecular engineering, tumor‐associated macrophage, Science

Abstract

Abstract Reprogramming tumor‐associated macrophages (TAMs) to an inflammatory phenotype effectively increases the potential of immune checkpoint blockade (ICB) therapy. Artificial mitochondrial transplantation, an emerging and safe strategy, has made brilliant achievements in regulating the function of recipient cells in preclinic and clinic, but its performance in reprogramming the immunophenotype of TAMs has not been reported. Here, the metabolism of M2 TAMs is proposed resetting from oxidative phosphorylation (OXPHOS) to glycolysis for polarizing M1 TAMs through targeted transplantation of mannosylated mitochondria (mPEI/M1mt). Mitochondria isolated from M1 macrophages are coated with mannosylated polyethyleneimine (mPEI) through electrostatic interaction to form mPEI/M1mt, which can be targeted uptake by M2 macrophages expressed a high level of mannose receptors. Mechanistically, mPEI/M1mt accelerates phosphorylation of NF‐κB p65, MAPK p38 and JNK by glycolysis‐mediated elevation of intracellular ROS, thus prompting M1 macrophage polarization. In vivo, the transplantation of mPEI/M1mt excellently potentiates therapeutic effects of anti‐PD‐L1 by resetting an antitumor proinflammatory tumor microenvironment and stimulating CD8 and CD4 T cells dependent immune response. Altogether, this work provides a novel platform for improving cancer immunotherapy, meanwhile, broadens the scope of mitochondrial transplantation technology in clinics in the future.

Published

2024

32. In vivo self-assembled albumin nanoparticle elicit antitumor immunity of PD-1 inhibitor by imaging and clearing tumor-associated macrophages

Author

Cheng Yu, Linan Hu, Qilin Yu, Yulu Ren, Minping Zhang, Lujing Gao, Shiyi Lyu, Junli Wang, Enhua Xiao, Zhu Chen, Quanliang Shang, and Pengfei Xu

Subjects

albumin nanoparticle, tumor-associated macrophage, NIR-II imaging, CDT, immunotherapy, Chemistry, QD1-999

Abstract

Eliciting anti-tumor immune responses and improving the tumor microenvironment crucial for boosting the effectiveness of anti-PD-1 immunotherapy. Tumor-associated macrophages (TAMs), the primary types of immune cells infiltrating tumors, play a critical role in the formation of an immunosuppressive microenvironment. In this study, we constructed a novel Evans Blue (EB)-based in vivo self-assembled nanocarrier system, mUNO-EB-ICG-Fc@Alb nanoparticles (designated as MA NPs), for targeted imaging and clearance of M2-TAMs to elicit antitumor immunotherapy of PD-1 inhibitor. In vitro experiments demonstrated the specific fluorescence imaging and killing effect of MA NPs on M2-TAMs. In vivo experiments shown that MA NPs-induced chemodynamic therapy (CDT) successfully reversed the tumor immunosuppressive microenvironment (ITM), promoted intratumoral infiltration of T lymphocytes, and ultimately enhancing the anti-tumor immunotherapy effect of PD-1 inhibitors. This study might provide good inspiration for improving the therapeutic efficacy of cancer immunotherapy.

Published

2024

33. CD11b/CD86 involved in the microenvironment of colorectal cancer by promoting Wnt signaling activation

Author

Junyu Ke, Guirong Chen, Yihui You, Qinghua Xie, Zheng‐lin Liu, Chunhui Song, Yanqiu Zheng, Zejun Shan, Jinbin Song, Zhangyu Jiang, Haiyan Wang, Qun Du, Yongqiang Wu, Xin‐lin Chen, and Yanwu Li

Subjects

colitis associated colon cancer, colorectal cancer, tumor microenvironment, tumor stem cell, tumor‐associated macrophage, Wnt signaling pathway, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Colorectal cancer (CRC) is a malignancy that arises within the gastrointestinal tract. Despite ongoing research, the etiology and pathogenesis of CRC remain elusive; particularly, the distribution and characteristics of tumor‐associated macrophages is currently an active area of investigation in understanding the pathological progression and prevention of CRC. Methods This study utilized CRC patient surgical samples, mouse models of colitis‐associated cancer, colonic organoid, and co‐culture cell line to examine the changes in CD11b/CD86 at different pathological region and detect the Wnt signaling pathway activity. Results Our findings revealed a sensitive and increased expression of CD11b from the early to the advanced CRC tissues and correlated with poor prognosis, while CD86 expression was reduced in advanced CRC tissues. CD133 expression was also elevated in advanced CRC tissues and mainly co‐localized with CD11b, suggesting a positive regulatory effect of CD11b and CD133 expression that may contribute to CRC progression. In AOM/DSS mouse models, activation of the Wnt signaling pathway was associated with increased CD133 and CD11b expression. In vitro, THP‐1 cell was induced to high expression of CD11b, and the above conditional cultural medium enhanced HCT116 cell colony number and CD133 protein expression. Furthermore, colonic crypts from AOM/DSS mouse models were isolated to culture, and the colonic organoids exhibited dilation and significant increases expression of CD133 and β‐Catenin/N‐P‐B‐Catenin. Conclusions CD11b might be an important factor to participate the progress of CRC. And the high CD11b of CRC microenviroment might potentially promote CD133 expression and associate with Wnt signal activation.

Published

2024

34. Blue light irradiation inhibits the M2 polarization of the cancer-associated macrophages in colon cancer

Author

Toshiaki Yoshimoto, Masaaki Nishi, Shohei Okikawa, Kozo Yoshikawa, Takuya Tokunaga, Toshihiro Nakao, Chie Takasu, Hideya Kashihara, Yuma Wada, Takayuki Noma, and Mitsuo Shimada

Subjects

Blue light, Colorectal cancer, Light-emitting diode, Opsin3, Tumor-associated macrophage, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Recent studies have shown that blue light-emitting diode (LED) light has anti-tumor effects, suggesting the possibility of using visible light in cancer therapy. However, the effects of blue light irradiation on cells in the tumor microenvironment, including tumor-associated macrophages (TAMs), are unknown. Here, THP-1 cells were cultured in the conditioned medium (CM) of HCT-116 cells to prepare TAMs. TAMs were divided into LED-irradiated and control groups. Then, the effects of blue LED irradiation on TAM activation were examined. Expression levels of M2 macrophage markers CD163 and CD206 expression were significantly decreased in LED-irradiated TAMs compared with the control group. While control TAM-CM could induce HCT-116 cell migration, these effects were not observed in cells cultured in TAM-CM with LED irradiation. Vascular endothelial growth factor (VEGF) secretion was significantly suppressed in LED-exposed TAMs. PD-L1 expression was upregulated in HCT-116 cells cultured with TAM-CM but attenuated in cells cultured with LED-irradiated TAM-CM. In an in vivo model, protein expression levels of F4/80 and CD163, which are TAM markers, were reduced in the LED-exposed group. These results indicate that blue LED light may have an inhibitory effect on TAMs, as well as anti-tumor effects on colon cancer cells.

Published

2024

35. Modulation of the tumor microenvironment and mechanism of immunotherapy-based drug resistance in breast cancer

Author

Moumita Kundu, Ramesh Butti, Venketesh K. Panda, Diksha Malhotra, Sumit Das, Tandrima Mitra, Prachi Kapse, Suresh W. Gosavi, and Gopal C. Kundu

Subjects

Breast cancer, Tumor microenvironment, Cancer-associated fibroblast, Tumor-associated macrophage, Immune resistance, Therapeutic approach, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Breast cancer, the most frequent female malignancy, is often curable when detected at an early stage. The treatment of metastatic breast cancer is more challenging and may be unresponsive to conventional therapy. Immunotherapy is crucial for treating metastatic breast cancer, but its resistance is a major limitation. The tumor microenvironment (TME) is vital in modulating the immunotherapy response. Various tumor microenvironmental components, such as cancer-associated fibroblasts (CAFs), tumor-associated macrophages (TAMs), and myeloid-derived suppressor cells (MDSCs), are involved in TME modulation to cause immunotherapy resistance. This review highlights the role of stromal cells in modulating the breast tumor microenvironment, including the involvement of CAF-TAM interaction, alteration of tumor metabolism leading to immunotherapy failure, and other latest strategies, including high throughput genomic screening, single-cell and spatial omics techniques for identifying tumor immune genes regulating immunotherapy response. This review emphasizes the therapeutic approach to overcome breast cancer immune resistance through CAF reprogramming, modulation of TAM polarization, tumor metabolism, and genomic alterations.

Published

2024

36. Single-cell transcriptomics reveal distinct immune-infiltrating phenotypes and macrophage–tumor interaction axes among different lineages of pituitary neuroendocrine tumors

Author

Shaojian Lin, Yuting Dai, Changxi Han, Tianyi Han, Linfeng Zhao, Renyan Wu, Jianyue Liu, Bo Zhang, Ning Huang, Yanting Liu, Shujing Lai, Jintong Shi, Yu Wang, Meiqing Lou, Jing Xie, Yijun Cheng, Hao Tang, Hong Yao, Hai Fang, Yan Zhang, Xuefeng Wu, Lei Shen, Youqiong Ye, Li Xue, and Zhe Bao Wu

Subjects

Pituitary neuroendocrine tumors, Single-cell RNA sequencing, Immune microenvironment subtypes, Tumor-associated macrophage, CX3CR1 + macrophage, INHBA-ACVR1B axis, Medicine, Genetics, QH426-470

Abstract

Abstract Background Pituitary neuroendocrine tumors (PitNETs) are common gland neoplasms demonstrating distinctive transcription factors. Although the role of immune cells in PitNETs has been widely recognized, the precise immunological environment and its control over tumor cells are poorly understood. Methods The heterogeneity, spatial distribution, and clinical significance of macrophages in PitNETs were analyzed using single-cell RNA sequencing (scRNA-seq), bulk RNA-seq, spatial transcriptomics, immunohistochemistry, and multiplexed quantitative immunofluorescence (QIF). Cell viability, cell apoptosis assays, and in vivo subcutaneous xenograft experiments have confirmed that INHBA-ACVR1B influences the process of tumor cell apoptosis. Results The present study evaluated scRNA-seq data from 23 PitNET samples categorized into 3 primary lineages. The objective was to explore the diversity of tumors and the composition of immune cells across these lineages. Analyzed data from scRNA-seq and 365 bulk RNA sequencing samples conducted in-house revealed the presence of three unique subtypes of tumor immune microenvironment (TIME) in PitNETs. These subtypes were characterized by varying levels of immune infiltration, ranging from low to intermediate to high. In addition, the NR5A1 lineage is primarily associated with the subtype characterized by limited infiltration of immune cells. Tumor-associated macrophages (TAMs) expressing CX3CR1 + , C1Q + , and GPNMB + showed enhanced contact with tumor cells expressing NR5A1 + , TBX19 + , and POU1F1 +, respectively. This emphasizes the distinct interaction axes between TAMs and tumor cells based on their lineage. Moreover, the connection between CX3CR1 + macrophages and tumor cells via INHBA-ACVR1B regulates tumor cell apoptosis. Conclusions In summary, the different subtypes of TIME and the interaction between TAM and tumor cells offer valuable insights into the control of TIME that affects the development of PitNET. These findings can be utilized as prospective targets for therapeutic interventions.

Published

2024

37. Chemotherapy-elicited extracellular vesicle CXCL1 from dying cells promotes triple-negative breast cancer metastasis by activating TAM/PD-L1 signaling

Author

Shengqi Wang, Jing Li, Shicui Hong, Neng Wang, Shang Xu, Bowen Yang, Yifeng Zheng, Juping Zhang, Bo Pan, Yudie Hu, and Zhiyu Wang

Subjects

TNBC, Dying cell, Extracellular vesicle, CXCL1, Tumor-associated macrophage, PD-L1, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Triple-negative breast cancer (TNBC) is the most aggressive subtype of breast cancer, and chemotherapy still serves as the cornerstone treatment functioning by inducing cytotoxic cell death. Notably, emerging evidence suggests that dying cell-released signals may induce cancer progression and metastasis by modulating the surrounding microenvironment. However, the underlying molecular mechanisms and targeting strategies are yet to be explored. Methods Apoptotic TNBC cells induced by paclitaxel or adriamycin treatment were sorted and their released extracellular vesicles (EV-dead) were isolated from the cell supernatants. Chemokine array analysis was conducted to identify the crucial molecules in EV-dead. Zebrafish and mouse xenograft models were used to investigate the effect of EV-dead on TNBC progression in vivo. Results It was demonstrated that EV-dead were phagocytized by macrophages and induced TNBC metastasis by promoting the infiltration of immunosuppressive PD-L1+ TAMs. Chemokine array identified CXCL1 as a crucial component in EV-dead to activate TAM/PD-L1 signaling. CXCL1 knockdown in EV-dead or macrophage depletion significantly inhibited EV-dead-induced TNBC growth and metastasis. Mechanistic investigations revealed that CXCL1EV-dead enhanced TAM/PD-L1 signaling by transcriptionally activating EED-mediated PD-L1 promoter activity. More importantly, TPCA-1 (2-[(aminocarbonyl) amino]-5-(4-fluorophenyl)-3-thiophenecarboxamide) was screened as a promising inhibitor targeting CXCL1 signals in EVs to enhance paclitaxel chemosensitivity and limit TNBC metastasis without noticeable toxicities. Conclusions Our results highlight CXCL1EV-dead as a novel dying cell-released signal and provide TPCA-1 as a targeting candidate to improve TNBC prognosis. Graphical abstract

Published

2024

38. Novel T cell exhaustion gene signature to predict prognosis and immunotherapy response in thyroid carcinoma from integrated RNA-sequencing analysis

Author

Yang Li, Zhen Wang, Fangting Lu, Yahu Miao, Qing Feng, Weixi Zhu, Qingqing Kang, Yijing Chen, and Qiu Zhang

Subjects

Thyroid carcinoma, T cell exhaustion, Tumor-associated macrophage, Immunotherapy, Single-cell RNA-sequencing, Gene signature, Medicine, Science

Abstract

Abstract Exhausted CD8+ T lymphocytes and tumor-associated macrophages play critical roles in determining cancer prognosis and the efficacy of immunotherapy. Our study revealed a negative correlation between exhausted CD8+ T lymphocytes and prognosis in thyroid carcinoma (THCA). Consensus clustering divided patients into two subgroups of exhaustion with different prognoses, as defined by marker genes of exhausted CD8+ T cells. Subsequently, we constructed an eight-gene prognostic signature, and developed a risk score named the exhaustion-related gene score (ERGS) to forecast both prognosis and immunotherapy response in THCA. Bulk RNA sequencing analysis revealed a higher prevalence of M2 macrophages, indicative of an immunosuppressive tumor microenvironment (TME), in the high-ERGS group. Single-cell RNA sequencing showed that SPP1+ macrophages and CD14+ monocytes infiltrations were positively associated with higher ERGS. Functionally, it was determined that SPP1+ macrophages exert an immunosuppressive role, while CD14+ monocytes were implicated in promoting tumor progression and angiogenesis. Analysis of cell–cell interactions between SPP1+ macrophages and T cells highlighted the activation of the SPP1-CD44 and MIF-CD74 axes, both of which could foster an immunosuppressive TME. Therapeutic strategies that target SPP1+ macrophages, CD14+ monocytes, and the SPP1-CD44 and MIF-CD74 axes may potentially improve the prognosis and amplify the immunotherapy response in THCA patients.

Published

2024

39. Tumor-associated Macrophage: Emerging Targets for Modulating the Tumor Microenvironment

Author

Yinxue ZHOU, Dunqiang REN, Huanhuan BI, Bingqian YI, Cai ZHANG, Hongmei WANG, and Jiaxing SUN

Subjects

tumor-associated macrophage, polarization, anti-angiogenic therapy, lung neoplasms, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Tumor-associated macrophage (TAM) play a crucial role in the immune microenvironment of lung cancer. Through changes in their phenotype and phagocytic functions, TAM contribute to the initiation and progression of lung cancer. By promoting the formation of an immune-suppressive microenvironment and accelerating the growth of abnormal tumor vasculature, TAM facilitate the invasion and metastasis of lung cancer. Macrophages can polarize into different subtypes with distinct functions and characteristics in response to various stimuli, categorized as anti-tumor M1 and pro-tumor M2 types. In tumor tissues, TAM typically polarize into the alternatively activated M2 phenotype, exhibiting inhibitory effects on tumor immunity. This article reviews the role of anti-angiogenic drugs in modulating TAM phenotypes, highlighting their potential to reprogram M2-type TAM into an anti-tumor M1 phenotype. Additionally, the functional alterations of TAM play a significant role in anti-angiogenic therapy and immunotherapy strategies. In summary, the regulation of TAM polarization and function opens up new avenues for lung cancer treatment and may serve as a novel target for modulating the immune microenvironment of tumors.

Published

2024

40. Involvement of CX3CR1+ cells appearing in the abdominal cavity in the immunosuppressive environment immediately after gastric cancer surgery

Author

Seiji Natsuki, Mami Yoshii, Hiroaki Tanaka, Takuya Mori, Sota Deguchi, Yuichiro Miki, Tatsuro Tamura, Takahiro Toyokawa, Shigeru Lee, and Kiyoshi Maeda

Subjects

CX3CR1, Fractalkine receptor, Tumor-associated macrophage, Myeloid-derived suppressor cell, Programmed death 1, Intraperitoneal lavage fluid, Surgery, RD1-811, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Gastric cancer is primarily treated by surgery; however, little is known about the changes in the intraperitoneal immune environment and the prognostic impact of surgery. Surgical stress and cancer-associated inflammation cause immune cells to mobilize into the abdominal cavity via numerous cytokines. One such cytokine, CX3CR1, has various immune-related functions that remain to be fully explained. We characterized the intraperitoneal immune environment by investigating CX3CR1+ cells in intraperitoneal lavage fluid during gastric cancer surgery. Methods Lavage fluid samples were obtained from a total of 41 patients who underwent gastrectomy. The relative expression of various genes was analyzed using quantitative real-time PCR. The association of each gene expression with clinicopathological features and surgical outcomes was examined. The fraction of CX3CR1+ cells was analyzed by flow cytometry. Cytokine profiles in lavage fluid samples were investigated using a cytometric beads array. Results CX3CR1high patients exhibited higher levels of perioperative inflammation in blood tests and more recurrences than CX3CR1low patients. CX3CR1high patients tended to exhibit higher pathological T and N stage than CX3CR1low patients. CX3CR1 was primarily expressed on myeloid-derived suppressor cells and tumor-associated macrophages. In particular, polymorphonuclear myeloid-derived suppressor cells were associated with perioperative inflammation, pathological N, and recurrences. These immunosuppressive cells were associated with a trend toward unfavorable prognosis. Moreover, CX3CR1 expression was correlated with programmed death–1 expression. Conclusions Our results suggest that CX3CR1+ cells are associated with an acute inflammatory response, tumor-promotion, and recurrence. CX3CR1 expression could be taken advantage of as a beneficial therapeutic target for improving immunosuppressive state in the future. In addition, analysis of intra-abdominal CX3CR1+ cells could be useful for characterizing the immune environment after gastric cancer surgery.

Published

2024

41. Blue light irradiation inhibits the M2 polarization of the cancer-associated macrophages in colon cancer.

Author

Yoshimoto, Toshiaki, Nishi, Masaaki, Okikawa, Shohei, Yoshikawa, Kozo, Tokunaga, Takuya, Nakao, Toshihiro, Takasu, Chie, Kashihara, Hideya, Wada, Yuma, Noma, Takayuki, and Shimada, Mitsuo

Subjects

*BLUE light, *COLON cancer, *VASCULAR endothelial growth factors, *CELL migration, *VISIBLE spectra, *RECTAL cancer

Abstract

Recent studies have shown that blue light-emitting diode (LED) light has anti-tumor effects, suggesting the possibility of using visible light in cancer therapy. However, the effects of blue light irradiation on cells in the tumor microenvironment, including tumor-associated macrophages (TAMs), are unknown. Here, THP-1 cells were cultured in the conditioned medium (CM) of HCT-116 cells to prepare TAMs. TAMs were divided into LED-irradiated and control groups. Then, the effects of blue LED irradiation on TAM activation were examined. Expression levels of M2 macrophage markers CD163 and CD206 expression were significantly decreased in LED-irradiated TAMs compared with the control group. While control TAM-CM could induce HCT-116 cell migration, these effects were not observed in cells cultured in TAM-CM with LED irradiation. Vascular endothelial growth factor (VEGF) secretion was significantly suppressed in LED-exposed TAMs. PD-L1 expression was upregulated in HCT-116 cells cultured with TAM-CM but attenuated in cells cultured with LED-irradiated TAM-CM. In an in vivo model, protein expression levels of F4/80 and CD163, which are TAM markers, were reduced in the LED-exposed group. These results indicate that blue LED light may have an inhibitory effect on TAMs, as well as anti-tumor effects on colon cancer cells. [ABSTRACT FROM AUTHOR]

Published

2024

42. CD133-containing microvesicles promote cancer progression by inducing M2-like tumor-associated macrophage polarization in the tumor microenvironment of colorectal cancer.

Author

Kim, Sang Yun, Park, Sungyeon, Kim, Suhyun, and Ko, Jesang

Subjects

*TUMOR microenvironment, *CANCER invasiveness, *COLORECTAL cancer, *MACROPHAGES, *EXTRACELLULAR vesicles

Abstract

Tumor-associated macrophages (TAMs) are among the most abundant cell types in the tumor microenvironment (TME). The immunosuppressive TME formed by TAMs is an essential prerequisite for cancer progression. Tumor-derived microvesicles (MVs), a subtype of extracellular vesicle shed directly from the plasma membrane, are important regulators of intercellular communication and TME modulation during tumorigenesis. However, the exact mechanism by which tumor-derived MVs induce the generation of the immunosuppressive TME and polarization of TAMs remains unclear. Here, we investigated the role of CD133-containing MVs derived from colorectal cancer (CRC) cells in macrophage polarization and cancer progression. CD133-containing MVs from CRC cells were incorporated into macrophages, and M0 macrophages were morphologically transformed into M2-like TAMs. CD133-containing MVs were found to increase the mRNA expression of M2 macrophage markers. Additionally, cytokine array analysis revealed that M2-like TAMs induced by CD133-containing MVs increased the secretion of interleukin 6, which activated the STAT3 pathway in CRC cells. Furthermore, the conditioned medium of M2-like TAMs promoted cell motility, epithelial–mesenchymal transition, and cell proliferation. However, MVs from CD133-knockdown cells had little effect on TAM polarization and CRC progression. These results demonstrate that CD133-containing MVs induce M2-like TAM polarization and contribute to cancer progression by mediating crosstalk between tumor cells and TAMs in the TME of CRC. [ABSTRACT FROM AUTHOR]

Published

2024

43. Reprogramming Tumor-Associated Macrophage Using Nanocarriers: New Perspectives to Halt Cancer Progression.

Author

Kuznetsova, Alyona B., Kolesova, Ekaterina P., Parodi, Alessandro, Zamyatnin Jr., Andrey A., and Egorova, Vera S.

Subjects

*CANCER invasiveness, *MEDICAL personnel, *MACROPHAGES, *TARGETED drug delivery, *TUMOR growth

Abstract

Cancer remains a significant challenge for public healthcare systems worldwide. Within the realm of cancer treatment, considerable attention is focused on understanding the tumor microenvironment (TME)—the complex network of non-cancerous elements surrounding the tumor. Among the cells in TME, tumor-associated macrophages (TAMs) play a central role, traditionally categorized as pro-inflammatory M1 macrophages or anti-inflammatory M2 macrophages. Within the TME, M2-like TAMs can create a protective environment conducive to tumor growth and progression. These TAMs secrete a range of factors and molecules that facilitate tumor angiogenesis, increased vascular permeability, chemoresistance, and metastasis. In response to this challenge, efforts are underway to develop adjuvant therapy options aimed at reprogramming TAMs from the M2 to the anti-tumor M1 phenotype. Such reprogramming holds promise for suppressing tumor growth, alleviating chemoresistance, and impeding metastasis. Nanotechnology has enabled the development of nanoformulations that may soon offer healthcare providers the tools to achieve targeted drug delivery, controlled drug release within the TME for TAM reprogramming and reduce drug-related adverse events. In this review, we have synthesized the latest data on TAM polarization in response to TME factors, highlighted the pathological effects of TAMs, and provided insights into existing nanotechnologies aimed at TAM reprogramming and depletion. [ABSTRACT FROM AUTHOR]

Published

2024

44. miR-487a 通过靶向调控 TIA1 对胃癌肿瘤相关巨噬细胞 M2 型极化的抑制作用.

Author

曲颜, 戴霖, 王彪, 阮笃激, 钟裕昌, and 杨雪峰

Abstract

Objective: To discuss the inhibitory effect of microRNA-487a (miR-487a) on the M2 polarization of tumor-associated macrophages (TAMs) in gastric cancer, and to clarify its effect on the proliferation, invasion, and migration of the gastric cancer AGS cells. Methods: The TAMs from gastric cancer tissue and adjacent normal tissue macrophages (NTMs) from adjacent tissue of the primary gastric cancer patients were isolated and cultured. The human monocyte THP-1 cells were induced in vitro to differentiate into TAMs, and the differentiated M0, M1, and M2 macrophages were cultured for 24 h by conditioned medium (CM) to obtain the TAMs, M1-TAMs, and M2-TAMs respectively. The TAMs were transfected and then divided into blank group, inhibitor-NC group, miR-487a inhibitor group, miR487a inhibitor+si-NC group, and miR-487a inhibitor+si-TIA1 group. The transfection efficiencies of the cells in various groups were detected by real-time fluorescence quantitative PCR (RT-qPCR) and Western blotting methods. The M2-TAMs were co-cultured with the AGS cells, and divided into AGS group, AGS+inhibitor-NC group, AGS+miR-487a inhibitor group, AGS+miR-487a inhibitor+si-NC group, and AGS+miR-487a inhibitor+si-TIA1 group. RT-qPCR method was used to detect the expression levels of miR-487a and lymphocyte intracytoplasmic antigen-1 (TIA1) mRNA in TAMs from gastric cancer tissue and NTMs from adjacent normal tissue in various groups; Western blotting method was used to detect the expression level of TIA1 protein in TAMs from gastric cancer tissue and NTMs from adjacent normal tissue and TAMs in various groups; flow cytometry was used to detect the levels of CD206 and CD163 in TAMs in various groups; enzyme-linked immunosorbent assay (ELISA) was used to detect the levels of interleukin-10 (IL-10), transforming growth factor-beta (TGF-β), vascular endothelial growth factor A (VEGF-A), and arginase-1 (Arg-1) in culture supernatant of the TAMs cells; CCK-8 assay was used to detect the proliferative activity of the AGS cells in various groups; wound healing assay was used to detect the migration rates of the AGS cells in various groups; Transwell assay was used to detect the number of invasion AGS cells in various groups. Results: The RT-qPCR results shoued that compared with NTMs from adjacent tissue, the expression level of miR-487a in the TAMs from gastric cancer tissue was significantly increased (P<0. 01) and the expression level of TIA1 mRNA was significantly decreased (P<0. 01). Compared with TAMs, the expression level of miR-487a in M1- TAMs was significantly decreased (P<0. 01), and the expression level of TIA1 mRNA was increased (P<0. 01)；the expression level of miR-487a in M2-TAMs was significantly increased (P<0. 01), and the expression level of TIA1 mRNA was decreased (P<0. 01). After transfection, compared with blank group and inhibitor-NC group, the expression level of miR-487a in the cells in miR-487a inhibitor group was significantly decreased (P<0. 01), indicating successful transfection. The Western blotting results showed that compared with NTMs from adjacent normal tissue, the expression level of TIA1 protein in TAMs from gastric cancer tissue was decreased (P<0. 01); compared with TAMs, the expression level of T1A1 protein in M1-TAMs was significantly increased (P<0. 01), and the expression of TIA1 protein in M2-TAMs was significantly decreased (P<0. 01); after co-transfection, compared with inhibitor-NC group, the expression level of TIA1 protein in the cells in miR-487a inhibitor group was significantly increased (P<0. 01); compared with miR-487a inhibitor+si-NC group, the expression level of TIA1 protein in the cells in miR-487a inhibitor+si-TIA1 group was significantly decreased (P<0. 01). The flow cytometry results showed that compared with blank group and inhibitor-NC group, the levels of CD206 and CD163 in the cells in miR-487a inhibitor group were significantly decreased (P<0. 01); after co-transfection, compared with inhibitor-NC group, the levels of CD206 and CD163 in the cells in miR-487a inhibitor group were significantly decreased (P<0. 01); compared with miR-487a inhibitor+siNC group, the levels of CD206 and CD163 in the cells in miR-487a inhibitor+si-TIA1 group were significantly increased (P<0. 01). The ELISA results showed that compared with blank group and inhibitor-NC group, the levels of IL-10, TGF-β, VEGF-A, and Arg-1 in culture supernatant of the TAMs in miR-487a inhibitor group were significantly decreased (P<0. 01); after co-transfection, compared with inhibitor-NC group, the levels of IL-10, TGF- β, VEGF-A, and Arg-1 in culture supernatant of the TAMs in miR-487a inhibitor group were significantly decreased (P<0. 01); compared with miR-487a inhibitor+si-NC group, the levels of IL-10, TGF- β, VEGF-A, and Arg-1 in culture supernatant of the TAMs in miR-487a inhibitor+si-TIA1 group were significantly increased (P<0. 01). The CCK-8 assay results showed that compared with AGS group, the proliferation activity of the cells in AGS+ inhibitor-NC group was significantly increased (P<0. 01); compared with AGS+inhibitor-NC group, the proliferation activity of the cells in AGS+miR-487a inhibitor group was significantly decreased (P< 0. 01); compared with AGS+miR-487a inhibitor+si-NC group, the proliferation activity of the cells in AGS+miR-487a inhibitor+si-TIA1 group was significantly increased (P<0. 01). The wound healing assay results showed that compared with AGS group, the migration rate of the cells in AGS+inhibitor-NC group was significantly (P<0. 05); compared with AGS+inhibitor-NC group, the migration rate of the cells in AGS+miR-487a inhibitor group was significantly decreased (P<0. 01); compared with AGS+miR-487a inhibitor+si-NC group, the migration rate of the cells in AGS+miR-487a inhibitor+siTIA1 group was significantly increased (P<0. 05). The Transwell assay results showed that compared with AGS group, the number of invasion AGS cells in AGS + inhibitor-NC group was significantly increased (P<0. 01); compared with AGS + inhibitor-NC group, the number of invasion AGS cells in AGS+miR-487a inhibitor group was significantly decreased (P<0. 01); compared with AGS+miR-487a inhibitor+si-NC group, the number of invasion AGS cells in AGS+miR-487a inhibitor+si-TIA1 group was significantly increased (P<0. 01). Conclusion: Silencing the miR-487a expression can inhibit the M2 polarization of the gastric cancer-associated macrophages by targeted upregulation of TIA1, and suppress the proliferation, migration, and invasion of the gastric cancer cells. [ABSTRACT FROM AUTHOR]

Published

2024

45. Chemotherapy-elicited extracellular vesicle CXCL1 from dying cells promotes triple-negative breast cancer metastasis by activating TAM/PD-L1 signaling.

Author

Wang, Shengqi, Li, Jing, Hong, Shicui, Wang, Neng, Xu, Shang, Yang, Bowen, Zheng, Yifeng, Zhang, Juping, Pan, Bo, Hu, Yudie, and Wang, Zhiyu

Subjects

*METASTATIC breast cancer, *TRIPLE-negative breast cancer, *EXTRACELLULAR vesicles, *PACLITAXEL, *BREAST cancer, *CANCER invasiveness

Abstract

Background: Triple-negative breast cancer (TNBC) is the most aggressive subtype of breast cancer, and chemotherapy still serves as the cornerstone treatment functioning by inducing cytotoxic cell death. Notably, emerging evidence suggests that dying cell-released signals may induce cancer progression and metastasis by modulating the surrounding microenvironment. However, the underlying molecular mechanisms and targeting strategies are yet to be explored. Methods: Apoptotic TNBC cells induced by paclitaxel or adriamycin treatment were sorted and their released extracellular vesicles (EV-dead) were isolated from the cell supernatants. Chemokine array analysis was conducted to identify the crucial molecules in EV-dead. Zebrafish and mouse xenograft models were used to investigate the effect of EV-dead on TNBC progression in vivo. Results: It was demonstrated that EV-dead were phagocytized by macrophages and induced TNBC metastasis by promoting the infiltration of immunosuppressive PD-L1+ TAMs. Chemokine array identified CXCL1 as a crucial component in EV-dead to activate TAM/PD-L1 signaling. CXCL1 knockdown in EV-dead or macrophage depletion significantly inhibited EV-dead-induced TNBC growth and metastasis. Mechanistic investigations revealed that CXCL1EV-dead enhanced TAM/PD-L1 signaling by transcriptionally activating EED-mediated PD-L1 promoter activity. More importantly, TPCA-1 (2-[(aminocarbonyl) amino]-5-(4-fluorophenyl)-3-thiophenecarboxamide) was screened as a promising inhibitor targeting CXCL1 signals in EVs to enhance paclitaxel chemosensitivity and limit TNBC metastasis without noticeable toxicities. Conclusions: Our results highlight CXCL1EV-dead as a novel dying cell-released signal and provide TPCA-1 as a targeting candidate to improve TNBC prognosis. [ABSTRACT FROM AUTHOR]

Published

2024

46. Single-cell transcriptomics reveal distinct immune-infiltrating phenotypes and macrophage–tumor interaction axes among different lineages of pituitary neuroendocrine tumors.

Author

Lin, Shaojian, Dai, Yuting, Han, Changxi, Han, Tianyi, Zhao, Linfeng, Wu, Renyan, Liu, Jianyue, Zhang, Bo, Huang, Ning, Liu, Yanting, Lai, Shujing, Shi, Jintong, Wang, Yu, Lou, Meiqing, Xie, Jing, Cheng, Yijun, Tang, Hao, Yao, Hong, Fang, Hai, and Zhang, Yan

Subjects

*PITUITARY tumors, *NEUROENDOCRINE tumors, *TRANSCRIPTOMES, *PHENOTYPES, *RNA sequencing

Abstract

Background: Pituitary neuroendocrine tumors (PitNETs) are common gland neoplasms demonstrating distinctive transcription factors. Although the role of immune cells in PitNETs has been widely recognized, the precise immunological environment and its control over tumor cells are poorly understood. Methods: The heterogeneity, spatial distribution, and clinical significance of macrophages in PitNETs were analyzed using single-cell RNA sequencing (scRNA-seq), bulk RNA-seq, spatial transcriptomics, immunohistochemistry, and multiplexed quantitative immunofluorescence (QIF). Cell viability, cell apoptosis assays, and in vivo subcutaneous xenograft experiments have confirmed that INHBA-ACVR1B influences the process of tumor cell apoptosis. Results: The present study evaluated scRNA-seq data from 23 PitNET samples categorized into 3 primary lineages. The objective was to explore the diversity of tumors and the composition of immune cells across these lineages. Analyzed data from scRNA-seq and 365 bulk RNA sequencing samples conducted in-house revealed the presence of three unique subtypes of tumor immune microenvironment (TIME) in PitNETs. These subtypes were characterized by varying levels of immune infiltration, ranging from low to intermediate to high. In addition, the NR5A1 lineage is primarily associated with the subtype characterized by limited infiltration of immune cells. Tumor-associated macrophages (TAMs) expressing CX3CR1+, C1Q+, and GPNMB+ showed enhanced contact with tumor cells expressing NR5A1 + , TBX19+, and POU1F1+, respectively. This emphasizes the distinct interaction axes between TAMs and tumor cells based on their lineage. Moreover, the connection between CX3CR1+ macrophages and tumor cells via INHBA-ACVR1B regulates tumor cell apoptosis. Conclusions: In summary, the different subtypes of TIME and the interaction between TAM and tumor cells offer valuable insights into the control of TIME that affects the development of PitNET. These findings can be utilized as prospective targets for therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published

2024

47. Tumor Microenvironment Modulation by Cancer-Derived Extracellular Vesicles.

Author

Ten, Artem, Kumeiko, Vadim, Farniev, Vladislav, Gao, Huile, and Shevtsov, Maxim

Subjects

*EXTRACELLULAR vesicles, *TUMOR microenvironment, *CANCER cell proliferation, *CANCER cells, *FIBROBLASTS, *CELL transformation

Abstract

The tumor microenvironment (TME) plays an important role in the process of tumorigenesis, regulating the growth, metabolism, proliferation, and invasion of cancer cells, as well as contributing to tumor resistance to the conventional chemoradiotherapies. Several types of cells with relatively stable phenotypes have been identified within the TME, including cancer-associated fibroblasts (CAFs), tumor-associated macrophages (TAMs), neutrophils, and natural killer (NK) cells, which have been shown to modulate cancer cell proliferation, metastasis, and interaction with the immune system, thus promoting tumor heterogeneity. Growing evidence suggests that tumor-cell-derived extracellular vesicles (EVs), via the transfer of various molecules (e.g., RNA, proteins, peptides, and lipids), play a pivotal role in the transformation of normal cells in the TME into their tumor-associated protumorigenic counterparts. This review article focuses on the functions of EVs in the modulation of the TME with a view to how exosomes contribute to the transformation of normal cells, as well as their importance for cancer diagnosis and therapy. [ABSTRACT FROM AUTHOR]

Published

2024

48. Novel T cell exhaustion gene signature to predict prognosis and immunotherapy response in thyroid carcinoma from integrated RNA-sequencing analysis.

Author

Li, Yang, Wang, Zhen, Lu, Fangting, Miao, Yahu, Feng, Qing, Zhu, Weixi, Kang, Qingqing, Chen, Yijing, and Zhang, Qiu

Subjects

*T-cell exhaustion, *THYROID cancer, *T cells, *RNA sequencing, *PROGNOSIS, *DISEASE risk factors

Abstract

Exhausted CD8+ T lymphocytes and tumor-associated macrophages play critical roles in determining cancer prognosis and the efficacy of immunotherapy. Our study revealed a negative correlation between exhausted CD8+ T lymphocytes and prognosis in thyroid carcinoma (THCA). Consensus clustering divided patients into two subgroups of exhaustion with different prognoses, as defined by marker genes of exhausted CD8+ T cells. Subsequently, we constructed an eight-gene prognostic signature, and developed a risk score named the exhaustion-related gene score (ERGS) to forecast both prognosis and immunotherapy response in THCA. Bulk RNA sequencing analysis revealed a higher prevalence of M2 macrophages, indicative of an immunosuppressive tumor microenvironment (TME), in the high-ERGS group. Single-cell RNA sequencing showed that SPP1+ macrophages and CD14+ monocytes infiltrations were positively associated with higher ERGS. Functionally, it was determined that SPP1+ macrophages exert an immunosuppressive role, while CD14+ monocytes were implicated in promoting tumor progression and angiogenesis. Analysis of cell–cell interactions between SPP1+ macrophages and T cells highlighted the activation of the SPP1-CD44 and MIF-CD74 axes, both of which could foster an immunosuppressive TME. Therapeutic strategies that target SPP1+ macrophages, CD14+ monocytes, and the SPP1-CD44 and MIF-CD74 axes may potentially improve the prognosis and amplify the immunotherapy response in THCA patients. [ABSTRACT FROM AUTHOR]

Published

2024

49. Role of Tumor-Associated Macrophages in Cervical Cancer: Integrating Classical Perspectives with Recent Technological Advances.

Author

Choi, Yeseul, Lee, Donghyeon, Kim, Na Young, Seo, Incheol, Park, Nora Jee-Young, and Chong, Gun Oh

Subjects

*CERVICAL cancer, *ENDOMETRIAL cancer, *OVARIAN cancer, *MACROPHAGES, *CANCER invasiveness

Abstract

Tumor-associated macrophages (TAMs) play a pivotal role in the tumor microenvironment, influencing cancer progression and contributing to poor prognosis. However, in cervical cancer (CC), their significance and involvement are relatively less studied than in other gynecological cancers such as ovarian and endometrial cancer. This review aims to provide an overview of TAMs, covering their origins and phenotypes and their impact on CC progression, along with major TAM-targeted therapeutic approaches. Furthermore, we advocate for the integration of cutting-edge research methodologies, such as single-cell RNA sequencing and spatial RNA sequencing, to enable in-depth and comprehensive investigations into TAMs in CC, which would be beneficial in leading to more personalized and effective immunotherapy strategies for patients with CC. [ABSTRACT FROM AUTHOR]

Published

2024

50. The Effect of Salvianolic Acid A on Tumor-Associated Macrophage Polarization and Its Mechanisms in the Tumor Microenvironment of Triple-Negative Breast Cancer.

Author

Tang, Chao, Jiang, Shi-Ting, Li, Cheng-Xia, Jia, Xiao-Fang, and Yang, Wen-Li

Subjects

*TRIPLE-negative breast cancer, *TUMOR microenvironment, *MACROPHAGES, *GENE expression, *PROTEIN expression

Abstract

Triple-negative breast cancer (TNBC) is the most aggressive subtype of breast cancer, with a high degree of malignancy and poor prognosis. Tumor-associated macrophages (TAMs) have been identified as significant contributors to the growth and metastasis of TNBC through the secretion of various growth factors and chemokines. Salvianolic acid A (SAA) has been shown to have anti-cancer activities. However, the potential activity of SAA on re-polarized TAMs remains unclear. As there is a correlation between the TAMs and TNBC, this study investigates the effect of SAA on TAMs in the TNBC microenvironment. For that purpose, M2 TAM polarization was induced by two kinds of TNBC-conditioned medium (TNBC-TCM) in the absence or presence of SAA. The gene and protein expression of TAM markers were analyzed by qPCR, FCM, IF, ELISA, and Western blot. The protein expression levels of ERK and p-ERK in M2-like TAMs were analyzed by Western blot. The migration and invasion properties of M2-like TAMs were analyzed by Transwell assays. Here, we demonstrated that SAA increased the expression levels of CD86, IL-1β, and iNOS in M2-like TAMs and, conversely, decreased the expression levels of Arg-1 and CD206. Moreover, SAA inhibited the migration and invasion properties of M2-like TAMs effectively and decreased the protein expression of TGF-β1 and p-ERK in a concentration-dependent manner, as well as TGF-β1 gene expression and secretion. Our current findings for the first time demonstrated that SAA inhibits macrophage polarization to M2-like TAMs by inhibiting the ERK pathway and promotes M2-like TAM re-polarization to the M1 TAMs, which may exert its anti-tumor effect by regulating M1/M2 TAM polarization. These findings highlight SAA as a potential regulator of M2 TAMs and the possibility of utilizing SAA to reprogram M2 TAMs offers promising insights for the clinical management of TNBC. [ABSTRACT FROM AUTHOR]

Published

2024