TREM2 Deficiency Reprograms Intestinal Macrophages and Microbiota to Enhance Anti–PD-1 Tumor Immunotherapy

TREM2 Deficiency Reprograms Intestinal Macrophages and Microbiota to Enhance Anti–PD-1 Tumor Immunotherapy

Medicine, Basic Medical Sciences, Oncology, Life Sciences, Immunology, Genetics,
TREM2   Anti-PD-1   Intestinal Macrophages   Microbiota   Tumor Immunotherapy   Tumor Suppression   Inflammatory Response  

TREM2 Deficiency Reprograms Gut Macrophages and Microbiota to Enhance Anti-PD-1 Tumor Immunotherapy Background Immune checkpoint inhibitors (CPIs), such as drugs that block programmed cell death protein-1 (PD-1), programmed death-ligand 1 (PD-L1), and cytotoxic T-lymphocyte-associated protein-4 (CTLA-4), have been successfully used to activate anti...

A Lactate-SREBP2 Signaling Axis Drives Tolerogenic Dendritic Cell Maturation and Promotes Cancer Progression

Medicine, Basic Medical Sciences, Oncology, Life Sciences, Immunology,
lactate   SREBP2   dendritic cells   tumor microenvironment   cancer progression   immune tolerance   antitumor immunity  

The Tumor Lactate-SREBP2 Signaling Pathway Drives Tolerogenic Dendritic Cell Maturation and Promotes Cancer Progression In recent years, the critical role of dendritic cells (DCs) in antitumor immunity has been widely recognized. However, many cancers cause DC dysfunction through mechanisms that are not fully understood. In a newly published study ...

Intratumoral Antigen Signaling Traps CD8+ T Cells to Confine Exhaustion to the Tumor Site

Intratumoral Antigen Signaling Traps CD8+ T Cells to Confine Exhaustion to the Tumor Site

Medicine, Rheumatology and Immunology, Basic Medical Sciences, Oncology, Life Sciences, Immunology,
Tumor Immunology   Antigen Signaling   CD8+ T Cells   Cell Exhaustion   Immunotherapy  

Research Progress in Cancer Immunology: Tumor-derived Antigen Signals Induce CD8+ T-cell Exhaustion Localized to the Tumor Site Research Background and Purpose In recent years, immunotherapy has shown great potential in cancer treatment. However, tracking the behavior of immune cells after receiving antigen signals remains a challenge. Within tumor...

Genome-Wide Repeat Landscapes in Cancer and Cell-Free DNA

Genome-Wide Repeat Landscapes in Cancer and Cell-Free DNA

Medicine, Basic Medical Sciences, Oncology, Life Sciences, Genetics,
cancer   genome-wide repeats   cell-free DNA   liquid biopsy   early detection   structural variant   epigenetics  

A Panoramic View of Whole Genome Repetitive Sequences in Cancer and Circulating Free DNA Research Background and Significance Throughout the development of cancer and other diseases, genetic changes in repetitive sequences within the genome are a significant characteristic. However, standard sequencing methods struggle to effectively characterize t...

Tumor-Associated NK Cells Drive MDSC-Mediated Tumor Immune Tolerance Through the IL-6/STAT3 Axis

Medicine, Oncology, Life Sciences, Immunology,
NK cells   MDSC   tumor immune escape   IL-6   STAT3   antigen presentation   immune checkpoint inhibition  

Tumor-Associated NK Cells Drive MDSC-Mediated Tumor Immune Tolerance via the IL-6/STAT3 Axis — Research by Neo et al. In recent years, researchers have delved deeply into the mechanisms of tumor immune escape to improve the success rate of cancer immunotherapy. The accumulation of CD8 T cells in the tumor microenvironment is a critical determinant ...

Reactivating PTEN to Impair Glioma Stem Cells by Inhibiting Cytosolic Iron-Sulfur Assembly

Medicine, Neurosurgery, Oncology, Life Sciences, Cell Biology, Biochemistry, Genetics,
PTEN   Glioma Stem Cells   Iron-Sulfur Clusters   Drug Combination   Desuccination  

Using the Suppression of Cytoplasmic Iron-Sulfur Cluster Assembly to Restore PTEN and Inhibit Glioma Stem Cells Background Glioblastoma (GBM) is one of the most lethal primary brain tumors. Glioma stem cells (GSCs) not only initiate and sustain the malignant phenotype but also enhance treatment resistance. Although PTEN frequently mutates in gliobl...