共查询到20条相似文献,搜索用时 10 毫秒
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Elisa Stellaria Grassi Alexander Pietras 《The journal of histochemistry and cytochemistry》2022,70(1):17
DLK1 is a maternally imprinted, paternally expressed gene coding for the transmembrane protein Delta-like homologue 1 (DLK1), a non-canonical NOTCH ligand with well-described roles during development, and tumor-supportive functions in several aggressive cancer forms. Here, we review the many functions of DLK1 as a regulator of stem cell pools and tissue differentiation in tissues such as brain, muscle, and liver. Furthermore, we review recent evidence supporting roles for DLK1 in the maintenance of aggressive stem cell characteristics of tumor cells, specifically focusing on central nervous system tumors, neuroblastoma, and hepatocellular carcinoma. We discuss NOTCH -dependent as well as NOTCH-independent functions of DLK1, and focus particularly on the complex pattern of DLK1 expression and cleavage that is finely regulated from a spatial and temporal perspective. Progress in recent years suggest differential functions of extracellular, soluble DLK1 as a paracrine stem cell niche-secreted factor, and has revealed a role for the intracellular domain of DLK1 in cell signaling and tumor stemness. A better understanding of DLK1 regulation and signaling may enable therapeutic targeting of cancer stemness by interfering with DLK1 release and/or intracellular signaling. 相似文献
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Lisa A. Matlaf Lualhati E. Harkins Vladimir Bezrookove Charles S. Cobbs Liliana Soroceanu 《PloS one》2013,8(7)
Glioblastoma multiforme (GBM) is a highly malignant primary central nervous system neoplasm characterized by tumor cell invasion, robust angiogenesis, and a mean survival of 15 months. Human cytomegalovirus (HCMV) infection is present in >90% of GBMs, although the role the virus plays in GBM pathogenesis is unclear. We report here that HCMV pp71, a viral protein previously shown to promote cell cycle progression, is present in a majority of human GBMs and is preferentially expressed in the CD133+, cancer stem-like cell population. Overexpression of pp71 in adult neural precursor cells resulted in potent induction of stem cell factor (SCF), an important pro-angiogenic factor in GBM. Using double immunofluorescence, we demonstrate in situ co-localization of pp71 and SCF in clinical GBM specimens. pp71 overexpression in both normal and transformed glial cells increased SCF secretion and this effect was specific, since siRNA mediated knockdown of pp71 or treatment with the antiviral drug cidofovir resulted in decreased expression and secretion of SCF by HCMV-infected cells. pp71- induced upregulation of SCF resulted in downstream activation of its putative endothelial cell receptor, c-kit, and angiogenesis as measured by increased capillary tube formation in vitro. We demonstrate that pp71 induces a pro-inflammatory response via activation of NFΚB signaling which drives SCF expression. Furthermore, we show that pp71 levels and NFKB activation are selectively augmented in the mesenchymal subtype of human GBMs, characterized by worst patient outcome, suggesting that HCMV pp71-induced paracrine signaling may contribute to the aggressive phenotype of this human malignancy. 相似文献
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长链非编码RNAs(long non-coding RNAs, lncRNAs)是一类无蛋白质编码功能,长度大于 200 nt的RNAs。qRT-PCR实验证实,lncRNA RP1-506.5(命名为RP1)在人结肠癌细胞株中的表达量明显高于人正常结肠上皮细胞(P<0.01)。RP1在结肠癌组织中的表达量为癌旁组织中表达量的8.5倍。在HCT116中,上调RP1的表达,同时在HCT8中沉默RP1的表达,探讨RP1对结肠癌细胞生物学特性的影响。MTS实验、活细胞工作站增殖实验,结合平板克隆实验发现,过表达RP1能明显促进结肠癌细胞HCT116的增殖能力。而在HCT8细胞中沉默RP1表达后,该细胞的增殖能力明显减弱。流式细胞周期实验结果表明,RP1能促进细胞周期快速通过G1/S检测点,并能加速S期进程。荧光定量PCR、Western印迹实验发现,在HCT116中细胞中,上调RP1的表达后,P21的表达水平下调,细胞周期蛋白D1(cyclinD1)、依赖细胞周期蛋白激酶6(CDK6)表达水平上调;当沉默LncRNA RP1的表达后,能上调P21的表达水平,下调cyclinD1、CDK6的表达水平。这些结果表明,LncRNA RP1可通过调控周期相关蛋白质的表达促进结肠癌细胞增殖。 相似文献
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Carola Porcile Erika Di Zazzo Maria Ludovica Monaco Giorgia D'Angelo Daniela Passarella Claudio Russo Alfonso Di Costanzo Alessandra Pattarozzi Monica Gatti Adriana Bajetto Gianluigi Zona Federica Barbieri Giovannangelo Oriani Bruno Moncharmont Tullio Florio Aurora Daniele 《Journal of cellular physiology》2014,229(10):1444-1454
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目的:明确STIM1是否参与调控细胞运动促进骨肉瘤的转移。方法:应用靶向STIM1的si RNA沉默MG-63骨肉瘤细胞中STIM1的表达,然后用侵袭实验、迁移实验以及黏附实验检测骨肉瘤细胞侵袭、迁移与黏附能力的变化,采用Western Blot检测细胞FAK和paxillin的表达及Rac1和RhoA信号通路的活性。结果:转染靶向STIM1的si RNA后,MG-63骨肉瘤细胞中STIM1的蛋白表达和m RNA表达均明显降低(P0.05),细胞的侵袭、迁移与黏附能力均显著下降(P0.05),细胞伪足与细胞骨架的重要组分FAK和paxillin的表达及调控细胞运动的Rac1和RhoA信号通路活性均显著降低(P0.05)。结论:STIM1可能通过激活RhoA和Rac1的信号通路,增加FAK和paxillin的表达,从而调控骨肉瘤细胞运动,促进骨肉瘤转移。 相似文献
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Hypoxia Promotes the Inflammatory Response and Stemness Features in Visceral Fat Stem Cells From Obese Subjects 下载免费PDF全文
Elisa Petrangeli Giuseppe Coroniti Anna T. Brini Laura de Girolamo Deborah Stanco Stefania Niada Gianfranco Silecchia Emanuela Morgante Carla Lubrano Matteo A. Russo Luisa Salvatori 《Journal of cellular physiology》2016,231(3):668-679
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Francesco Pini Nicole J. De Nisco Lorenzo Ferri Jon Penterman Antonella Fioravanti Matteo Brilli Alessio Mengoni Marco Bazzicalupo Patrick H. Viollier Graham C. Walker Emanuele G. Biondi 《PLoS genetics》2015,11(5)
In all domains of life, proper regulation of the cell cycle is critical to coordinate genome replication, segregation and cell division. In some groups of bacteria, e.g. Alphaproteobacteria, tight regulation of the cell cycle is also necessary for the morphological and functional differentiation of cells. Sinorhizobium meliloti is an alphaproteobacterium that forms an economically and ecologically important nitrogen-fixing symbiosis with specific legume hosts. During this symbiosis S. meliloti undergoes an elaborate cellular differentiation within host root cells. The differentiation of S. meliloti results in massive amplification of the genome, cell branching and/or elongation, and loss of reproductive capacity. In Caulobacter crescentus, cellular differentiation is tightly linked to the cell cycle via the activity of the master regulator CtrA, and recent research in S. meliloti suggests that CtrA might also be key to cellular differentiation during symbiosis. However, the regulatory circuit driving cell cycle progression in S. meliloti is not well characterized in both the free-living and symbiotic state. Here, we investigated the regulation and function of CtrA in S. meliloti. We demonstrated that depletion of CtrA cause cell elongation, branching and genome amplification, similar to that observed in nitrogen-fixing bacteroids. We also showed that the cell cycle regulated proteolytic degradation of CtrA is essential in S. meliloti, suggesting a possible mechanism of CtrA depletion in differentiated bacteroids. Using a combination of ChIP-Seq and gene expression microarray analysis we found that although S. meliloti CtrA regulates similar processes as C. crescentus CtrA, it does so through different target genes. For example, our data suggest that CtrA does not control the expression of the Fts complex to control the timing of cell division during the cell cycle, but instead it negatively regulates the septum-inhibiting Min system. Our findings provide valuable insight into how highly conserved genetic networks can evolve, possibly to fit the diverse lifestyles of different bacteria. 相似文献
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Chun Wang Ruilan Yan Dixian Luo Kounosuke Watabe Duan-Fang Liao Deliang Cao 《The Journal of biological chemistry》2009,284(39):26742-26748
Aldo-keto reductase family 1 member B10 (AKR1B10) is primarily expressed in the normal human colon and small intestine but overexpressed in liver and lung cancer. Our previous studies have shown that AKR1B10 mediates the ubiquitin-dependent degradation of acetyl-CoA carboxylase-α. In this study, we demonstrate that AKR1B10 is critical to cell survival. In human colon carcinoma cells (HCT-8) and lung carcinoma cells (NCI-H460), small-interfering RNA-induced AKR1B10 silencing resulted in caspase-3-mediated apoptosis. In these cells, the total and subspecies of cellular lipids, particularly of phospholipids, were decreased by more than 50%, concomitant with 2–3-fold increase in reactive oxygen species, mitochondrial cytochrome c efflux, and caspase-3 cleavage. AKR1B10 silencing also increased the levels of α,β-unsaturated carbonyls, leading to the 2–3-fold increase of cellular lipid peroxides. Supplementing the HCT-8 cells with palmitic acid (80 μm), the end product of fatty acid synthesis, partially rescued the apoptosis induced by AKR1B10 silencing, whereas exposing the HCT-8 cells to epalrestat, an AKR1B10 inhibitor, led to more than 2-fold elevation of the intracellular lipid peroxides, resulting in apoptosis. These data suggest that AKR1B10 affects cell survival through modulating lipid synthesis, mitochondrial function, and oxidative status, as well as carbonyl levels, being an important cell survival protein.Aldo-keto reductase family 1 member B10 (AKR1B10,2 also designated aldose reductase-like-1, ARL-1) is primarily expressed in the human colon, small intestine, and adrenal gland, with a low level in the liver (1–3). However, this protein is overexpressed in hepatocellular carcinoma, cervical cancer, lung squamous cell carcinoma, and lung adenocarcinoma in smokers, being a potential diagnostic and/or prognostic marker (1, 2, 4–6).The biological function of AKR1B10 in the intestine and adrenal gland, as well as its role in tumor development and progression, remains unclear. AKR1B10 is a monomeric enzyme that efficiently catalyzes the reduction to corresponding alcohols of a range of aromatic and aliphatic aldehydes and ketones, including highly electrophilic α,β-unsaturated carbonyls and antitumor drugs containing carbonyl groups, with NADPH as a co-enzyme (1, 7–12). The electrophilic carbonyls are constantly produced by lipid peroxidation, particularly in oxidative conditions, and are highly cytotoxic; through interaction with proteins, peptides, and DNA, the carbonyls cause protein dysfunction and DNA damage (breaks and mutations), resulting in mutagenesis, carcinogenesis, or apoptosis (10, 13–19). AKR1B10 also shows strong enzymatic activity toward all-trans-retinal, 9-cis-retinal, and 13-cis-retinal, reducing them to the corresponding retinols, which may regulate the intracellular retinoic acid, a signaling molecule modulating cell proliferation and differentiation (6, 20–23). In lung cancer, AKR1B10 expression is correlated with the patient smoking history and activates procarcinogens in cigarette smoke, such as polycyclic aromatic hydrocarbons, thus involved in lung tumorigenesis (24–26).Recent studies have shown that in breast cancer cells, AKR1B10 associates with acetyl-CoA carboxylase-α (ACCA) and blocks its ubiquitination and proteasome degradation (27). ACCA is a rate-limiting enzyme of de novo synthesis of long chain fatty acids, catalyzing the ATP-dependent carboxylation of acetyl-CoA to form malonyl-CoA (28). Long chain fatty acids are the building blocks of biomembranes and the precursor of lipid second messengers, playing a critical role in cell growth and proliferation (29, 30). Therefore, ACCA activity is tightly regulated by both metabolite-mediated allosteric mechanisms and phosphorylation-dependent mechanisms; the latter are controlled by multiple hormones, such as insulin, glucagon, and growth factors (31–33). ACCA activity is also regulated through physical protein-protein interaction. For instance, breast cancer 1 (BRCA1) protein associates with the ACCA and blocks its Ser79 residue from dephosphorylation (34, 35). The AKR1B10-mediated regulation on ACCA stability represents a novel regulatory mechanism, and this current study elucidated the biological significance of this regulation. The results show that AKR1B10 promotes cell survival via modulating lipid synthesis, mitochondrial function and oxidative stress, and carbonyl levels. 相似文献
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In the adult mammalian auditory epithelium, the organ of Corti, loss of sensory hair cells results in permanent hearing loss. The underlying cause for the lack of regenerative response is the depletion of otic progenitors in the cell pool of the sensory epithelium. Here, we show that an increase in the sequence-specific methylation of the otic Sox2 enhancers NOP1 and NOP2 is correlated with a reduced self-renewal potential in vivo and in vitro; additionally, the degree of methylation of NOP1 and NOP2 is correlated with the dedifferentiation potential of postmitotic supporting cells into otic stem cells. Thus, the stemness the organ of Corti is related to the epigenetic status of the otic Sox2 enhancers. These observations validate the continued exploration of treatment strategies for dedifferentiating or reprogramming of differentiated supporting cells into progenitors to regenerate the damaged organ of Corti. 相似文献