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71.
Based on several previous studies indicating that transfection of genomic DNA can stably alter the character of the cells that take up the exogenous DNA, we investigated antitumor immunity conferred by fusions of syngeneic dendritic cells (DCs) and allogeneic fibroblasts (NIH3T3) transfected with genomic DNA from B16 tumor cells. Fusion cells (FCs) composed of dendritic and genetically engineered NIH3T3 cells were prepared with polyethylene glycol, and fusion efficiency was 30.3%. Prior immunization with FCs prevented tumor formation upon challenge with B16 tumor cells. Efficacy was reduced when studies were performed in mice depleted of NK cells. Vaccination with FCs containing DCs and fibroblasts transfected with denatured DNA did not inhibit tumor growth. Cytotoxic T cell (CTL) activity of spleen cells from immunized mice against both Yac-1 and tumor cells was also stimulated by administration of FCs compared with the activity observed for cells obtained from naïve mice. These data demonstrate the therapeutic efficacy of fusion cell–based vaccine therapy using syngeneic DCs and allogeneic fibroblasts transfected with tumor-derived genomic DNA. 相似文献
72.
泛素化能够促使底物蛋白降解或调节其它生理过程,在生命活动中具有极其重要的作用。E3即泛素连接酶,在泛素化过程中决定底物分子的特异性,因此,E3的功能研究一直是蛋白质泛素化研究领域的一个热点。NEDL1和NEDL2是HECT类泛素连接酶NEDD4家族中同源性较高的两个成员。它们通过不同的方式分别增强p53和p73的转录活性。NEDL1又与多种肿瘤(如神经母细胞瘤、结直肠癌、乳腺癌)和神经退行性疾病(如脊髓侧索硬化病)的发生发展密切相关。因此,对NEDL1和NEDL2的研究对于揭示相关疾病机理具有非常重要的意义。 相似文献
73.
目的:分析SDF-1在乳腺癌患者外周血中的表达水平,探讨其临床意义。方法:Elisa法检测乳腺癌患者术前及术后血清SDF-1水平,分析其与乳腺癌临床病理特征的关系。结果:乳腺癌患者术前(69例)血清SDF-1水平明显高于正常对照组(20例)(6406.7±1302.5 pg/m L vs 5217.4±1225.7 pg/m L),有明显统计学差异(P<0.01),发生远处转移的乳腺癌患者(11例)血清SDF-1水平明显高于未发生转移者(58例)(7656.4±784.1 pg/m L vs 6169.7±1364.6 pg/m L),差异具有明显统计学意义(P<0.01)。ER及Her-2表达阳性乳腺癌的患者SDF-1水平较ER及Her-2表达阴性者低,差异亦有统计学意义(P<0.05)。结论:SDF-1可能是预测乳腺癌发生及远处转移的重要标志物。 相似文献
74.
Yilin Yu Jie Yu Shengfang Ge Yun Su Xianqun Fan 《International journal of biological sciences》2023,19(3):811
Currently, cancer treatment mainly consists of surgery, radiotherapy, chemotherapy, immunotherapy, and molecular targeted therapy, of which radiotherapy is one of the major pillars. However, the occurrence of radioresistance largely limits its therapeutic effect. Metabolic reprogramming is an important hallmark in cancer progression and treatment resistance. In radiotherapy, DNA breakage is the major mechanism of cell damage, and in turn, cancer cells are prone to increase the metabolic flux of glucose, glutamine, serine, arginine, fatty acids etc., thus providing sufficient substrates and energy for DNA damage repair. Therefore, studying the linkage between metabolic reprogramming and cancer radioresistance may provide new ideas for improving the efficacy of tumor therapy. This review mainly focuses on the role of metabolic alterations, including glucose, amino acid, lipid, nucleotide and other ion metabolism, in radioresistance, and proposes possible therapeutic targets to improve the efficacy of cancer radiotherapy. 相似文献
75.
Araceli Lpez-Tejada Carmen Grin-Lisn Adrin Gonzlez-Gonzlez Francisca E. Cara Rafael J. Luque Carmen Rosa-Garrido Jos L. Blaya-Cnovas Alba Navarro-Ocn María Valenzuela-Torres Marisa Parra-Lpez Jesús Calahorra Isabel Blancas Juan A. Marchal Sergio Granados-Principal 《International journal of biological sciences》2023,19(1):204
In triple-negative breast cancer (TNBC), the pleiotropic NDRG1 (N-Myc downstream regulated gene 1) promotes progression and worse survival, yet contradictory results were documented, and the mechanisms remain unknown. Phosphorylation and localization could drive NDRG1 pleiotropy, nonetheless, their role in TNBC progression and clinical outcome was not investigated. We found enhanced p-NDRG1 (Thr346) by TGFβ1 and explored whether it drives NDRG1 pleiotropy and TNBC progression. In tissue microarrays of 81 TNBC patients, we identified that staining and localization of NDRG1 and p-NDRG1 (Thr346) are biomarkers and risk factors associated with shorter overall survival. We found that TGFβ1 leads NDRG1, downstream of GSK3β, and upstream of NF-κB, to differentially regulate migration, invasion, epithelial-mesenchymal transition, tumor initiation, and maintenance of different populations of cancer stem cells (CSCs), depending on the progression stage of tumor cells, and the combination of TGFβ and GSK3β inhibitors impaired CSCs. The present study revealed the striking importance to assess both total NDRG1 and p-NDRG1 (Thr346) positiveness and subcellular localization to evaluate patient prognosis and their stratification. NDRG1 pleiotropy is driven by TGFβ to differentially promote metastasis and/or maintenance of CSCs at different stages of tumor progression, which could be abrogated by the inhibition of TGFβ and GSK3β. 相似文献
76.
Havard Attramadal Sushanta K. Banerjee Brahim Chaqour Gary Fisher Lester Lau Bernard Perbal Ulf Smith Herman Yeger 《Journal of cell communication and signaling》2023,17(1):7
In celebration of the twentieth anniversary of the inception of the CCN society, and of the first post-Covid-19 live meeting, the executive board of the ICCNS had chosen Nice as the venue for the 11th International workshop on the CCN family of genes. On this occasion participation in the meeting was extended to colleagues from other cell signaling fields who were invited to present both an overview of their work and the future directions of their laboratory. Also, for the first time, the members of the JCCS Editorial Board were invited to participate in a JCCS special session during which all aspects of the journal « life » were addressed and opened to free critical discussion. The scientific presentations and the discussions that followed showed once more that an expansion of the session topics was beneficial to the quality of the meeting and confirmed that the ARBIOCOM project discussed last April in Nice was now on track to be launched in 2023. The participants unanimously welcomed Professor Attramadal’s proposition to organize the 2024, 12th International CCN workshop in Oslo, Norway. 相似文献
77.
Samil Jung Davaajargal Myagmarjav Taeyeon Jo Soonduk Lee Songyi Han Nguyen Thi Ngoc Quynh Nguyen Hai Anh Son Hai Vu Yeongseon Choi Myeong-Sok Lee 《International journal of biological sciences》2022,18(9):3859
Chemotherapy has been widely used as a clinical treatment for cancer over the years. However, its effectiveness is limited because of resistance of cancer cells to programmed cell death (PCD) after treatment with anticancer drugs. To elucidate the resistance mechanism, we initially focused on cancer cell-specific mitophagy, an autophagic degradation of damaged mitochondria. This is because mitophagy has been reported to provide cancer cells with high resistance to anticancer drugs. Our data showed that TRIP-Br1 oncoprotein level was greatly increased in the mitochondria of breast cancer cells after treatment with various anticancer drugs including staurosporine (STS), the main focus of this study. STS treatment increased cellular ROS generation in cancer cells, which triggered mitochondrial translocation of TRIP-Br1 from the cytosol via dephosphorylation of TRIP-Br1 by protein phosphatase 2A (PP2A). Up-regulated mitochondrial TRIP-Br1 suppressed cellular ROS levels. In addition, TRIP-Br1 rapidly removed STS-mediated damaged mitochondria by activating mitophagy. It eventually suppressed STS-mediated PCD via degradation of VDACI, TOMM20, and TIMM23 mitochondrial membrane proteins. TRIP-Br1 enhanced mitophagy by increasing expression levels of two crucial lysosomal proteases, cathepsins B and D. In conclusion, TRIP-Br1 can suppress the sensitivity of breast cancer cells to anticancer drugs by activating autophagy/mitophagy, eventually promoting cancer cell survival. 相似文献
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80.
Natalie J. Beveridge Paul A. Tooney Adam P. Carroll Nham Tran Murray J. Cairns 《Cellular signalling》2009,21(12):1837-1845
Whole-genome microRNA and gene expression analyses were used to monitor changes during retinoic acid induced differentiation of neuroblasts in vitro. Interestingly, the entire miR-17 family was over-represented among the down-regulated miRNA. The implications of these changes are considerable, as target gene prediction suggests that the miR-17 family is involved in the regulation of the mitogen-activated protein kinase (MAPK) signaling pathway, synaptic plasticity and other markers of neuronal differentiation. Significantly, many of the target responses predicted by changes in miRNA expression were supported by the observed changes in gene expression. As expected, markers of neuronal differentiation such as anti-apoptotic protein B-cell lymphoma 2 (BCL2), myocyte enhancer factor-2D (MEF2D) and zipper protein kinase (MAP3K12; aka ZPK/MUK/DLK) were each up-regulated in response to differentiation. The expression of these genes was also reduced in response to miR-17 and miR-20a transfection, and more specifically they were also shown to contain functional miRNA recognition elements for members of the miR-17 family by reporter gene assay. This suggests that the miR-17 family have an integral role in fine-tuning the pathways involved in the regulation of neuronal differentiation. 相似文献