Endoscopy is essential for the diagnosis and treatment of cancers derived from the larynx. However, a laryngoscope with conventional white light (CWL) has technical limitations in detecting small or superficial lesions on the mucosa. Narrow band imaging especially combined with magnifying endoscopy (ME) is useful for the detection of superficial squamous cell carcinoma (SCC) within the oropharynx, hypopharynx, and oral cavity. A total of 3675 patients who have come to the outpatient clinic and complained of inspiratory stridor, dyspnea, phonation problems or foreign body sensation, were enrolled in this study. We describe the glottic conditions of the patients. All 3675 patients underwent laryngoscopy equipped with conventional white light (CWL) and NBI system. 1149 patients received a biopsy process. And 1153 lesions were classified into different groups according to their histopathological results. Among all the 1149 patients, 346 patients (312 males, 34 females; mean age 62.2±10.5 years) were suspected of having a total of 347 precancerous or cancerous (T1 or T2 without lymphnode involvement) lesions of the larynx under the CWL. Thus, we expected to attain a complete vision of what laryngeal lesions look like under the NBI view of a laryngoscope. The aim was to develop a complete description list of each laryngeal conditions (e.g. polyps, papilloma, leukoplakia, etc.), which can serve as a criteria for further laryngoscopic examinations and diagnosis.
Mesoporous silica nanoparticles (MSNs) represent a new form of drug nanocarrier with thermo/pH-coupling sensitivity and site-specificity. CD133(+) Hep-2 laryngeal cancer cells are responsible for multidrug resistance due to elevated expression of ABCG2. Since positively charged nanoparticles could easily uptake nucleic acids, we examined the possibility of using this new drug delivery system to simultaneously deliver different chemotherapeutic drugs and siRNA targeting ABCG2. Our results demonstrated that both antitumor drugs and siRNA against ABCG2 were successfully delivered into CD133(+) cancer cells by loaded MSNs. Down-regulation of ABCG2 significantly enhanced the efficacy of chemotherapeutic drug-induced apoptosis in laryngeal carcinoma cells. Furthermore, the chemotherapeutic drug and siRNA loaded nanoparticles inhibited tumor growth in vivo in a laryngeal cancer mouse model.
The objective of this study is to investigate the chemoresistance of CD133(+) cancer stem cells in Hep-2 cells of laryngeal cancer and detect the expression mRNA and protein levels of BMI-1 in CD133(+) cells and CD133(-) cells. The response of Hep-2 cells to different chemotherapeutic agents was investigated, and the expression of CD133 was studied. Fluorescence-activated cell sorting analysis was used to identify CD133, and the CD133(+) subset of cells was separated and analyzed chemotherapy resistance. Colony formation assays were studied and cells were injected subcutaneously into axillary fossa of node mice to measure the tumor-forming ability. RT-PCR and Western blot analyses were used to detect the expression levels of BMI-1 in the different subpopulation cells. It was concluded that chemotherapy enriched the CD133(+) subpopulation 2-fourfold, relative to the untreated cells. 1.55 ± 0.28% of Hep-2 cells were observed to be CD133(+) cells. Flow cytometric analysis revealed that after the treatment with these chemotherapeutic agents, the expression of CD133 was up to 5.16 ± 0.86%, 4.94 ± 0.58%, 3.66 ± 0.59%. After 5-FU treatment, the expression of CD133 was 6.7 ± 1.6% relative to the untreated mice 2.6 ± 0.96% by nude mice tumor xenograft model. CD133(+) cancer stem cells were more resistant to chemotherapy; the proliferation capability and tumor-forming ability were no difference after chemotherapy. Semi-quantitative RT-PCR and Western blot analyses provided strong evidence that BMI-1 expression in CD133(+) cells is different from CD133(-) cells remarkably. Taken together, it was confirmed that CD133(+) cancer stem cells were chemoresistant and BMI-1 was highly expressed in these CD133(+) cells.
Head and neck squamous cell carcinoma (HNSCC) has been found to be a complex group of malignancies characterized by their profound immunosuppression and high aggressiveness. In most cases of advanced HNSCC, treatment fails to obtain total cancer cure. Efforts are needed to develop new therapeutic approaches to improve HNSCC outcomes. In this light, T-cells “immune checkpoint” has attracted much attention in cancer immunotherapy. It has been broadly accepted that inhibitory T-cell immune checkpoints contribute to tumor immune escape through negative immune regulatory signals (cytotoxic T-lymphocyte-associated antigen 4 [CTLA-4], programmed cell death 1 [PD-1], B7-H3, and B7-H4, etc). Current data suggest that PD-1 and CTLA-4 receptors can inhibit T-cell receptors and T-cell proliferation. Blockade of PD-1/PD-L1 and/or CTLA-4/CD28 pathways has shown promising tumor outcomes in clinical trials for advanced solid tumors like melanoma, renal cell cancer, and non-small cell lung cancer. The present review attempts to explore what is known about PD-1/PD-L1 and CTLA-4/CD28 pathways with a focus on HNSCC. We further discuss how these pathways can be manipulated with therapeutic intent.
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