Immune checkpoint blockade therapy is revolutionizing the traditional treatment model of multiple tumor types, but remains ineffective for a large subset of patients. Photodynamic therapy (PDT) has been shown to induce cancer cell death and provoke an immune response, and may represent a potential strategy to synergize with immune checkpoint blockade therapy. However, the limited tissue penetration of exciting light for conventional PDT largely hinders its application in the clinic and its further combination with immunotherapy. Here, a serrated packing covalent organic framework (COF), COF-606, with excellent two-photon absorption (2PA) property and photostability, largely avoids aggregation-caused quenching, therefore offering high reactive oxygen species (ROS) generation efficiency; it is used as a 2PA photo sensitizer for PDT in deep tumor tissue. COF-606 induced PDT is shown to be efficient in inducing immunogenic cell death, provoking an immune response and normalizing the immunosuppressive status for the first time. This makes it possible to combine 2PA induced PDT using COF with programmed cell death protein 1 immune checkpoint blockade therapy. Such combination leads to strong abscopal tumor-inhibiting efficiency and long-lasting immune memory effects, standing as a promising combinatorial therapeutic strategy for cancer treatment.
Gasdermin E (GSDME), as the major executive protein of pyroptosis, has been considered to be linked to antitumor immunity in recent years. However, the role of GSDME in oral squamous cell carcinoma (OSCC) remains to be elucidated. Here, by using a human OSCC tissue microarray, human OSCC tissue, and Tgfbr1/ Pten conditional knockout mice, we found that GSDME was strongly expressed in OSCC and that GSDME expression in primary tumors was higher than that in metastatic lymph nodes. In addition, GSDME expression in OSCC was positively related to better prognosis. Moreover, GSDME-mediated pyroptosis occurred upon stimulation with chemotherapy drugs, and functional knockdown of GSDME attenuated the cisplatin-induced antitumor effect. Consistent with these results, bioinformatic analysis indicated that GSDME expression was positively correlated with the sensitivity of a number of antitumor drugs approved by the US Food and Drug Administration. Inhibition of GSDME expression by small interfering RNA in SCC7 cells significantly increased the expression of the cancer stem cell markers, CD44 and ALDH1. Furthermore, multiplexed immunohistochemistry and flow cytometry indicated that the expression of GSDME positively correlated with tumor-infiltrating CD8+ T cells, granzyme B, and M1 phenotype macrophages. Collectively, these findings demonstrated that GSDME is a potential positive prognostic factor of OSCC, and GSDME-mediated pyroptosis induced by chemotherapy plays a role in antitumor response.
Di-(2-ethylhexyl) phthalate (DEHP) and genistein (GEN) are of the most common endocrine disrupting chemicals (EDCs) present in the environment or the diet. However, investigation of the effects of acute exposure to these two EDCs during prepuberty has been lacking. In this study, DEHP and GEN were administrated to prepubertal male Sprague-Dawley rats by gavage from PND22 to PND35 with vehicle control, GEN 50 mg/kg body weight (bw)/day, DEHP50, 150 and 450 mg/kg bw/day, and combined treatment. Reproductive parameters including testis weight, anogenital distance and organ coefficient were evaluated on PND36. Enzyme activity involved in the regulation of testicular redox state as well as expression of genes and proteins related to anti-oxidative ability and apoptosis were also investigated. The results revealed that by PND36, DEHP treatment had significantly decreased the testis weight, organ coefficient, testicular anti-oxidative enzyme activities and caused tubular vacuolation; however, co-administration of GEN partially alleviated DEHP-induced testicular injuries and enhanced testicular anti-oxidative enzyme activities and upregulated the expression of NF-E2 related factor 2 and heme oxygenase-1, which indicated that GEN partially attenuated DEHP-induced male reproductive system damage through anti-oxidative action following acute prepubertal exposure to DEHP. Thus, GEN may have use in attenuating the damaging effects of other EDCs that lead to reproductive disorders.
Mono-(2-ethylhexyl) phthalate (MEHP) and genistein are two of the most prevalent endocrine-disrupting chemicals (EDCs) that present in the environment and food. However, how these two EDCs would affect prepubertal Sertoli cells development was rarely studied. In this study, primary prepubertal Sertoli cells were isolated from 22-day-old Sprague Dawley rats and exposed to MEHP at 1 μmol/L, 10 μmol/L, and 100 μmol/L (M1, M10, and M100), genistein at 10 μmol/L (G), and their combination (G + M1, G + M10, and G + M100). Cell proliferation inhibition rate, apoptosis and necrosis rate, and cellular redox state were evaluated. Our results revealed that MEHP could significantly increase cell proliferation inhibition rate, apoptosis rate, necrosis rate, and intracellular reactive oxidative species level. However, coadministration of genistein could partially alleviate MEHP-induced prepubertal Sertoli cells oxidative injuries via enhancement of testicular antioxidative enzymes activities and upregulation of Nrf2 and HO-1, indicating that genistein could partially attenuate MEHP-induced prepubertal Sertoli cells damage through antioxidative action and may have promising future on its curative role for attenuating other EDCs-induced reproductive disorders.
This study focused on the expression of mitochondrial serine hydroxymethyltransferase (SHMT2) in oral squamous cell carcinoma (OSCC) and its correlation with clinical traits and the prognosis of OSCC patients. Immunochemical staining and Western blotting were used to quantify the expression of SHMT2 and related immune markers in OSCC. Using OSCC microarrays and The Cancer Genome Atlas (TCGA) database, we evaluated the association between SHMT2 and various clinical traits. We found that increased expression of SHMT2 was detected in OSCC and correlated with advanced pathological grade and recurrence of OSCC. By a multivariate Cox proportional hazard model, high expression of SHMT2 was shown to indicate a negative prognosis. In addition, in the OSCC microenvironment, increasing the expression of SHMT2 was associated with high expression levels of programmed cell death-ligand 1 (PD-L1), CKLF-like MARVEL transmembrane domain containing 6 (CMTM6), V-type immunoglobulin domain-containing suppressor (VISTA), B7-H4, Slug, and CD317. In the future, more effort will be required to investigate the role of SHMT2 in the OSCC microenvironment.
Objectives
Ribonucleotide reductase M2 (RRM2) is a rate‐limiting enzyme involved in DNA repair and synthesis. This study aimed to investigate the expression level, clinicopathological significance, and prognostic value of RRM2 in oral squamous cell carcinoma (OSCC).
Materials and methods
Human OSCC tissue microarrays were used to detect the expression of RRM2, cancer stem cell (CSC) markers CD44 and aldehyde dehydrogenase 1 (ALDH1), and the epithelial–mesenchymal transition (EMT) marker Slug. The correlation of RRM2 expression with clinicopathological parameters was evaluated. The effects of RRM2 on cell proliferation, migration, and apoptosis were investigated.
Results
Compared with normal and dysplastic tissues, the expression of RRM2 in human primary OSCC was significantly increased, and its overexpression was correlated with advanced pathological grade. The overall survival rate of patients with high RRM2 expression was lower than that of patients with low RRM2 expression. The overexpression of RRM2 was significantly associated with OSCC recurrence, and its overexpression was correlated with the CSC markers CD44 and ALDH1 and the EMT marker Slug. The expression of RRM2 promotes the proliferation and migration of human OSCC cells and inhibits apoptosis.
Conclusion
Ribonucleotide reductase M2 may be a novel target in the diagnosis, prognosis, and therapy of OSCC.
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