共查询到20条相似文献,搜索用时 29 毫秒
1.
Linda Oyang Lei Ouyang Lixia Yang Jinguan Lin Longzheng Xia Shiming Tan Nayiyuan Wu Yaqian Han Yiqing Yang Jian Li Xiaohui Chen Yanyan Tang Min Su Xia Luo Jinyun Li Wei Xiong Zhaoyang Zeng Qianjin Liao Yujuan Zhou 《Cancer science》2023,114(3):870
Cancer cells prefer glycolysis to support their proliferation. Our previous studies have shown that the long palate, lung, and nasal epithelial cell clone 1 (LPLUNC1) can upregulate prohibitin 1 (PHB1) expression to inhibit the proliferation of nasopharyngeal carcinoma (NPC) cells. Given that PHB1 is an important regulator of cell energy metabolism, we explored whether and how LPLUNC1 regulated glucose glycolysis in NPC cells. LPLUNC1 or PHB1 overexpression decreased glycolysis and increased oxidative phosphorylation (OXPHOS)‐related protein expression in NPC cells, promoting phosphorylated PHB1 nuclear translocation through 14‐3‐3σ. LPLUNC1 overexpression also increased p53 but decreased c‐Myc expression in NPC cells, which were crucial for the decrease in glycolysis and increase in OXPHOS‐related protein expression induced by LPLUNC1 overexpression. Finally, we found that treatment with all‐trans retinoic acid (ATRA) reduced the viability and clonogenicity of NPC cells, decreased glycolysis, and increased OXPHOS‐related protein expression by enhancing LPLUNC1 expression in NPC cells. Therefore, the LPLUNC1‐PHB1‐p53/c‐Myc axis decreased glycolysis in NPC cells, and ATRA upregulated LPLUNC1 expression, ATRA maybe a promising drug for the treatment of NPC. 相似文献
2.
Lin Xie Shengchao Ma Ning Ding Yanhua Wang Guanjun Lu Lingbo Xu Qingqing Wang Kun Liu Yuzheng Jie Hui Zhang Anning Yang Yujing Gao Huiping Zhang Yideng Jiang 《Molecular oncology》2021,15(11):3203
Chronic kidney disease (CKD) is a common and complex disease in kidneys which has been associated with an increased risk of renal cell carcinoma. Elevated homocysteine (Hcy) levels are known to influence the development and progression of CKD by regulating podocyte injury and apoptosis. To investigate the molecular mechanisms triggered in podocytes by Hcy, we used cbs+/− mice and observed that higher Hcy levels increased the apoptosis rate of podocytes with accompanying glomerular damage. Hcy‐induced podocyte injury and apoptosis in cbs+/− mice was regulated by inhibition of microRNA (miR)‐1929‐5p expression. Overexpression of miR‐1929‐5p in podocytes inhibited apoptosis by upregulating Bcl‐2. Furthermore, the expression of miR‐1929‐5p was regulated by epigenetic modifications of its promoter. Hcy upregulated DNA methyltransferase 1 (DNMT1) and enhancer of zeste homolog 2 (EZH2) levels, resulting in increased DNA methylation and H3K27me3 levels on the miR‐1929‐5p promoter. Additionally, we observed that c‐Myc recruited DNMT1 and EZH2 to the miR‐1929‐5p promoter and suppressed the expression of miR‐1929‐5p. In summary, we demonstrated that Hcy promotes podocyte apoptosis through the regulation of the epigenetic modifiers DNMT1 and EZH2, which are recruited by c‐Myc to the promoter of miR‐1929‐5p to silence miR‐1929‐5p expression. 相似文献
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Hyeon-Ok Jin Sung-Eun Hong Jae-Hee Kim Ha-Na Choi Karam Kim Sungkwan An Tae-Boo Choe Chang-Sun Hwang Jae-Ho Lee Jong-Il Kim Hyun-Ah Kim Eun-Kyu Kim Woo Chul Noh Young-Joon Hong Seok-Il Hong Jin Kyung Lee In-Chul Park 《Cancer letters》2013
Herein, we show that the constitutive overexpression of Redd1, a negative regulator of mTORC1, induces Akt activation in lung cancer cells. Akt phosphorylation was reduced to basal levels by Rictor siRNA, suggesting the involvement of mTORC2 in this process. Perifosine and PP242, selective inhibitors of Akt and mTORC1/2, respectively, efficiently suppressed the Akt phosphorylation that was induced by the sustained overexpression of Redd1 and increased the sensitivity of the cells to cisplatin. Therefore, the sustained overexpression of Redd1 leads to mTORC1 inhibition and to consequent Akt activation that is involved in cell survival. This finding highlights the importance of Akt activation as a therapeutic target to overcome resistance to chemotherapy. 相似文献
4.
Aging represents the major risk factor for the development of cancer and many other diseases. Recent findings show that normal tissues become riddled with expanded clones that are frequently driven by cancer‐associated mutations in an aging‐dependent fashion. Additional studies show how aged tissue microenvironments promote the initiation and progression of malignancies, while young healthy tissues actively suppress the outgrowth of malignant clones. Here, we discuss conserved mechanisms that eliminate poorly functioning or potentially malignant cells from our tissues to maintain organismal health and fitness. Natural selection acts to preserve tissue function and prevent disease to maximize reproductive success but these mechanisms wane as reproduction becomes less likely. The ensuing age‐dependent tissue decline can impact the shape and direction of clonal somatic evolution, with lifestyle and exposures influencing its pace and intensity. We also consider how aging‐ and exposure‐dependent clonal expansions of “oncogenic” mutations might both increase cancer risk late in life and contribute to tissue decline and non‐malignant disease. Still, we can marvel at the ability of our bodies to avoid cancers and other diseases despite the accumulation of billions of cells with cancer‐associated mutations. 相似文献
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Annalisa Pianta Dora Fabbro Daniela Damiani Mario Tiribelli Renato Fanin Alessandra Franzoni Milena Romanello Gianluca Tell Carla Di Loreto Giuseppe Damante 《Hematological oncology》2010,28(3):151-155
Nucleophosmin 1 (NPM1) is an abundant phosphoprotein mainly located in the nucleolus but also shuttling between the nucleus and cytoplasm. NPM1 has been proposed to be involved in synthesis and processing of ribosomal RNA, regulation of chromatin structure and transport of rRNA and ribosomal proteins. NPM1 gene is considered to be implicated in human cancer as it is a frequent target of genetic alterations, primarily in haematopoietic neoplasms. We describe a case of a therapy‐responder acute myeloid leukaemia (AML) patient bearing two novel NPM1 mutations. Cells' transfection studies indicate that the presence of one of these mutations is associated to an abnormal nucleolar structure, suggesting that NPM1 may contribute to the control of nucleolar integrity. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
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Estela Snchez&#x;Herrero Roberto Serna&#x;Blasco Vadym Ivanchuk Rosario García&#x;Campelo Manuel Dmine Gmez Jos M. Snchez Bartomeu Massutí Noemi Reguart Carlos Camps Sandra Sanz&#x;Moreno Silvia Calabuig&#x;Farias Eloísa Jantus&#x;Lewintre Magdalena Arnal Dietmar Fernndez&#x;Orth Virginia Calvo Víctor Gonzlez&#x;Rumayor Mariano Provencio Atocha Romero 《Molecular oncology》2021,15(9):2363
Despite impressive and durable responses, nonsmall cell lung cancer (NSCLC) patients treated with anaplastic lymphoma kinase (ALK) inhibitors (ALK‐Is) ultimately progress due to development of resistance. Here, we have evaluated the clinical utility of circulating tumor DNA (ctDNA) profiling by next‐generation sequencing (NGS) upon disease progression. We collected 26 plasma and two cerebrospinal fluid samples from 24 advanced ALK‐positive NSCLC patients at disease progression to an ALK‐I. These samples were analyzed by NGS and digital PCR. A tool to retrieve variants at the ALK locus was developed (VALK tool). We identified at least one resistance mutation in the ALK locus in ten (38.5%) plasma samples; the G1269A and G1202R mutations were the most prevalent among patients progressing to first‐ and second‐generation ALK‐Is, respectively. Overall, 61 somatic mutations were detected in 14 genes: TP53, ALK, PIK3CA, SMAD4, MAP2K1 (MEK1), FGFR2, FGFR3, BRAF, EGFR, IDH2, MYC, MET, CCND3, and CCND1. Specifically, a deletion in exon 19 in EGFR, a non‐V600 BRAF mutation (G466V), and the F129L mutation in MAP2K1 were identified in four patients who showed no objective survival benefit from ALK‐Is. Potential ALK‐I‐resistance mutations were also found in PIK3CA and IDH2. Finally, a c‐MYC gain, along with a loss of CCND1 and FGFR3, was detected in a patient progressing on a first‐line treatment with crizotinib. We conclude that NGS analysis of liquid biopsies upon disease progression identified different putative ALK‐I‐resistance mutations in most cases and could be a valuable approach for therapy decision making. 相似文献
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Xian‐Guo Chen Fei Liu Xing‐Fu Song Zhi‐Hua Wang Zi‐Qiang Dong Zhi‐Quan Hu Ru‐Zhu Lan Wei Guan Tian‐Gui Zhou Xiao‐Ming Xu Hong Lei Zhang‐Qun Ye E‐Jun Peng Li‐Huan Du Qian‐Yuan Zhuang 《Molecular carcinogenesis》2010,49(6):603-610
Numerous studies have shown that mammalian target of rapamycin (mTOR) inhibitor activates Akt signaling pathway via a negative feedback loop while inhibiting mTORC1 signaling. In this report, we focused on studying the role of mTORC1 and mTORC2 in rapamycin‐mediated Akt and ERK phosphorylation, and the antitumor effect of rapamycin in cancer cells in combination with Akt and ERK inhibitors. Moreover, we analyzed the effect of mTORC1 and mTORC2 on regulating cell cycle progression. We found that low concentrations rapamycin increased Akt and ERK phosphorylation through a mTORC1‐dependent mechanism because knockdowned raptor induced the activation of Akt and ERK, but higher doses of rapamycin inhibited Akt and ERK phosphorylation mainly via the mTORC2 signaling pathway because that the silencing of rictor led to the inhibition of Akt and ERK phosphorylation. We further showed that mTORC2 was tightly associated with the development of cell cycle through an Akt‐dependent mechanism. Therefore, we combined PI3K and ERK inhibitors prevent rapamycin‐induced Akt activation and enhanced antitumor effects of rapamycin. Collectively, we conclude that mTORC2 plays a much more important role than mTORC1 in rapamycin‐mediated phosphorylation of Akt and ERK, and cotargeting AKT and ERK signaling may be a new strategy for enhancing the efficacy of rapamycin‐based therapeutic approaches in cancer cells. © 2010 Wiley‐Liss, Inc. 相似文献
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《Molecular oncology》2021,15(5):1412
The cellular receptor Notch1 is a central regulator of T‐cell development, and as a consequence, Notch1 pathway appears upregulated in > 65% of the cases of T‐cell acute lymphoblastic leukemia (T‐ALL). However, strategies targeting Notch1 signaling render only modest results in the clinic due to treatment resistance and severe side effects. While many investigations reported the different aspects of tumor cell growth and leukemia progression controlled by Notch1, less is known regarding the modifications of cellular metabolism induced by Notch1 upregulation in T‐ALL. Previously, glutaminolysis inhibition has been proposed to synergize with anti‐Notch therapies in T‐ALL models. In this work, we report that Notch1 upregulation in T‐ALL induced a change in the metabolism of the important amino acid glutamine, preventing glutamine synthesis through the downregulation of glutamine synthetase (GS). Downregulation of GS was responsible for glutamine addiction in Notch1‐driven T‐ALL both in vitro and in vivo. Our results also confirmed an increase in glutaminolysis mediated by Notch1. Increased glutaminolysis resulted in the activation of the mammalian target of rapamycin complex 1 (mTORC1) pathway, a central controller of cell growth. However, glutaminolysis did not play any role in Notch1‐induced glutamine addiction. Finally, the combined treatment targeting mTORC1 and limiting glutamine availability had a synergistic effect to induce apoptosis and to prevent Notch1‐driven leukemia progression. Our results placed glutamine limitation and mTORC1 inhibition as a potential therapy against Notch1‐driven leukemia.
Abbreviations
- 7‐AAD
- 7‐Aminoactinomycin D
- BPTES
- bis‐2‐(5‐phenylacetamido‐1,2,4‐thiadiazol‐2‐yl)ethyl sulfide
- DON
- diazo‐5‐oxo‐L‐norleucine
- ECAR
- extracellular acidification rate
- GDH
- glutamate dehydrogenase
- GLS
- glutaminase
- GS
- glutamine synthetase
- GSI
- γ‐secretase inhibitor
- MSO
- L‐methionine sulfoximine
- mTORC1
- mammalian target of rapamycin complex 1
- NICD
- Notch intracellular domain
- PI
- propidium iodide
- RAP
- rapamycin
- T‐ALL
- T‐cell acute lymphoblastic leukemia
- TCA
- tricarboxylic acid
- αKG
- α‐ketoglutarate
13.
Ying Zhang Weiqing Lu Yelong Chen Youbin Lin Xia Yang Hu Wang Zhaoyong Liu 《Molecular oncology》2021,15(5):1566
Esophageal squamous cell carcinoma (ESCC) is one of the most refractory malignancies worldwide. Mitogen‐activated protein kinase 3 (MAP2K3) has a contradictory role in tumor progression, and the function and expression patterns of MAP2K3 in ESCC remain to be determined. We found that MAP2K3 expression to be downregulated in ESCC, and MAP2K3 downregulation correlated with clinically poor survival. MAP2K3 inhibited ESCC cell proliferation and invasion in vitro and in vivo. MAP2K3 suppressed STAT3 expression and activation. Mechanistically, MAPSK3 interacted with MDM2 to promote STAT3 degradation via the ubiquitin–proteasome pathway. Furthermore, exosomal miR‐19b‐3p derived from the plasma of patients with ESCC could suppress MAP2K3 expression to promote ESCC tumorigenesis. STAT3 was found to bind to the MIR19B promoter and increased the expression of miR‐19b‐3p in ESCC cells. In summary, our results demonstrated that the miR‐19b‐3p‐MAP2K3‐STAT3 feedback loop regulates ESCC tumorigenesis and elucidates the potential of therapeutically targeting this pathway in ESCC. 相似文献
14.
Circular RNA (circRNA) participates in a variety of pathophysiological processes, including the development of gastric cancer (GC). However, the role of circ_0006089 in GC progression and its underlying molecular mechanism need to be further revealed. Quantitative real‐time PCR was utilized for detecting circ_0006089, microRNA (miR)‐361‐3p and transforming growth factor‐β1 (TGFB1) expression. The interaction between miR‐361‐3p and circ_0006089 or TGFB1 was confirmed using a dual‐luciferase reporter assay and an RNA immunoprecipitation (RIP) assay. Cell proliferation, metastasis, apoptosis, and angiogenesis were determined using colony formation assay, EdU assay, transwell assay, flow cytometry, and tube formation assay. Cell glycolysis was evaluated by detecting glucose consumption, lactate production, and ATP levels. In addition, western blot (WB) analysis was used to measure protein expression. Xenograft tumor models were used to assess the effect of circ_0006089 knockdown on GC tumorigenesis. circ_0006089 had been found to be upregulated in GC tissues and cells, and it could act as an miR‐361‐3p sponge. circ_0006089 knockdown suppressed GC proliferation, metastasis, glycolysis, angiogenesis, and increased apoptosis, while this effect could be revoked by miR‐361‐3p inhibitor. TGFB1 was targeted by miR‐361‐3p, and its overexpression reversed the effects of miR‐361‐3p on GC cell function. Also, circ_0006089 promoted TGFB1 expression via sponging miR‐361‐3p. Animal experiments showed that silenced circ_0006089 inhibited GC tumorigenesis through the miR‐361‐3p/TGFB1 pathway. Our results revealed that the circ_0006089/miR‐361‐3p/TGFB1 axis contributed to GC progression, confirming that circ_0006089 might be a potential therapeutic target for GC. 相似文献
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Dongwei Dou Xiaoyang Ren Mingli Han Xiaodong Xu Xin Ge Yuanting Gu Xinxing Wang Song Zhao 《Molecular oncology》2021,15(2):697
Circular RNAs (circRNAs) have been shown to modulate gene expression and participate in the development of multiple malignancies. The purpose of this study was to investigate the role of circ_0008039 in breast cancer (BC). The expression of circ_0008039, miR‐140‐3p, and spindle and kinetochore‐associated protein 2 (SKA2) was detected by qRT‐PCR. Cell viability, colony formation, migration, and invasion were evaluated using methylthiazolyldiphenyl‐tetrazolium bromide (MTT) assay, colony formation assay, and transwell assay, respectively. Glucose consumption and lactate production were measured using commercial kits. Protein levels of hexokinase II (HK2) and SKA2 were determined by western blot. The interaction between miR‐140‐3p and circ_0008039 or SKA2 was verified by dual‐luciferase reporter assay. Finally, a mouse xenograft model was established to investigate the roles of circ_0008039 in BC in vivo. We found that circ_0008039 and SKA2 were upregulated in BC tissues and cells, while miR‐140‐3p was downregulated. Knockdown of circ_0008039 suppressed BC cell proliferation, migration, invasion, and glycolysis. Moreover, miR‐140‐3p could bind to circ_0008039 and its inhibition reversed the inhibitory effect of circ_0008039 interference on proliferation, migration, invasion, and glycolysis in BC cells. SKA2 was verified as a direct target of miR‐140‐3p and its overexpression partially inhibited the suppressive effect of miR‐140‐3p restoration in BC cells. Additionally, circ_0008039 positively regulated SKA2 expression by sponging miR‐140‐3p. Consistently, silencing circ_0008039 restrained tumor growth via increasing miR‐140‐3p and decreasing SKA2. In conclusion, circ_0008039 downregulation suppressed BC cell proliferation, migration, invasion, and glycolysis partially through regulating the miR‐140‐3p/SKA2 axis, providing an important theoretical basis for treatment of BC.
Abbreviations
- ANOVA
- analysis of variance
- BC
- breast cancer
- circRNAs
- circular RNAs
- DMSO
- dimethyl sulfoxide
- ECAR
- extracellular acidification rate
- ECL
- enhanced chemiluminescence
- FBS
- fetal bovine serum
- HK2
- hexokinase II
- MEGM
- mammary epithelial growth medium
- miR‐140‐3p
- microRNA‐140‐3p
- MTT
- methylthiazolyldiphenyl‐tetrazolium bromide
- PBS
- phosphate‐buffered saline
- PRKAR1B
- protein kinase A regulatory subunit R1‐beta
- SD
- standard ± deviation
- SKA2
- spindle and kinetochore‐associated protein 2
17.
Anaïs Wambecke Mohammad Ahmad Pierre&#x;Marie Morice Bernard Lambert Louis&#x;Bastien Weiswald Mgane Vernon Nicolas Vigneron Edwige Abeilard Emilie Brotin Martin Figeac Pascal Gauduchon Laurent Poulain Christophe Denoyelle Matthieu Meryet&#x;Figuiere 《Molecular oncology》2021,15(12):3659
Ovarian cancer (OC) is the leading cause of death in patients with gynecologic cancers. Due to late diagnosis and resistance to chemotherapy, the 5‐year survival rate in patients with OC is below 40%. We observed that UCA1, a lncRNA previously reported to play an oncogenic role in several malignancies, is overexpressed in the chemoresistant OC cell line OAW42‐R compared to their chemotherapy‐sensitive counterpart OAW42. Additionally, UCA1 overexpression was related to poor prognosis in two independent patient cohorts. Currently, the molecular mechanisms through which UCA1 acts in OC are poorly understood. We demonstrated that downregulation of the short isoform of UCA1 sensitized OC cells to cisplatin and that UCA1 acted as competing endogenous RNA to miR‐27a‐5p. Upon UCA1 downregulation, miR‐27a‐5p downregulated its direct target UBE2N leading to the upregulation of BIM, a proapoptotic protein of the Bcl2 family. The upregulation of BIM is the event responsible for the sensitization of OC cells to cisplatin. In order to model response to therapy in patients with OC, we used several patient‐derived organoid cultures, a model faithfully mimicking patient’s response to therapy. Inhibition of UBE2N sensitized patient‐derived organoids to platinum salts. In conclusion, response to treatment in patients with OC is regulated by the UCA1/miR‐27a‐5p/UBE2N axis, where UBE2N inhibition could potentially represent a novel therapeutic strategy to counter chemoresistance in OC. 相似文献
18.
Danmei Zhou Kehan Ren Meili Wang Jigang Wang Ermin Li Chenjian Hou Ying Su Yiting Jin Qiang Zou Ping Zhou Xiuping Liu 《Molecular oncology》2021,15(2):543
Long non‐coding RNAs (lncRNAs) are emerging as key molecules in various cancers, yet their potential roles in the pathogenesis of breast cancer are not fully understood. Herein, using microarray analysis, we revealed that the lncRNA RACGAP1P, the pseudogene of Rac GTPase activating protein 1 (RACGAP1), was up‐regulated in breast cancer tissues. Its high expression was confirmed in 25 pairs of breast cancer tissues and 8 breast cell lines by qRT‐PCR. Subsequently, we found that RACGAP1P expression was positively correlated with lymph node metastasis, distant metastasis, TNM stage, and shorter survival time in 102 breast cancer patients. Then, in vitro and in vivo experiments were designed to investigate the biological function and regulatory mechanism of RACGAP1P in breast cancer cell lines. Overexpression of RACGAP1P in MDA‐MB‐231 and MCF7 breast cell lines increased their invasive ability and enhanced their mitochondrial fission. Conversely, inhibition of mitochondrial fission by Mdivi‐1 could reduce the invasive ability of RACGAP1P‐overexpressing cell lines. Furthermore, the promotion of mitochondrial fission by RACGAP1P depended on its competitive binding with miR‐345‐5p against its parental gene RACGAP1, leading to the activation of dynamin‐related protein 1 (Drp1). In conclusion, lncRNA RACGAP1P promotes breast cancer invasion and metastasis via miR‐345‐5p/RACGAP1 pathway‐mediated mitochondrial fission.
Abbreviations
- CDS
- coding sequence
- ceRNAs
- competitive endogenous RNAs
- Drp1
- dynamin‐related protein 1
- FFPE
- formalin‐fixed paraffin‐embedded
- lncRNAs
- long non‐coding RNAs
- miRNAs
- microRNAs
- RACGAP1
- Rac GTPase activating protein 1
- TCGA
- The Cancer Genome Atlas
19.
Michael Lohmüller Bernhard F. Roeck Tamas G. Szabo Marina A. Schapfl Fragka Pegka Sebastian Herzog Andreas Villunger Fabian Schuler 《Molecular oncology》2022,16(15):2771
Checkpoint kinase 1 (CHK1; encoded by CHEK1) is an essential gene that monitors DNA replication fidelity and prevents mitotic entry in the presence of under‐replicated DNA or exogenous DNA damage. Cancer cells deficient in p53 tumor suppressor function reportedly develop a strong dependency on CHK1 for proper cell cycle progression and maintenance of genome integrity, sparking interest in developing kinase inhibitors. Pharmacological inhibition of CHK1 triggers B‐Cell CLL/Lymphoma 2 (BCL2)‐regulated cell death in malignant cells largely independently of p53, and has been suggested to kill p53‐deficient cancer cells even more effectively. Next to p53 status, our knowledge about factors predicting cancer cell responsiveness to CHK1 inhibitors is limited. Here, we conducted a genome‐wide CRISPR/Cas9‐based loss‐of‐function screen to identify genes defining sensitivity to chemical CHK1 inhibitors. Next to the proapoptotic BCL2 family member, BCL2 Binding Component 3 (BBC3; also known as PUMA), the F‐box protein S‐phase Kinase‐Associated Protein 2 (SKP2) was validated to tune the cellular response to CHK1 inhibition. SKP2 is best known for degradation of the Cyclin‐dependent Kinase Inhibitor 1B (CDKN1B; also known as p27), thereby promoting G1‐S transition and cell cycle progression in response to mitogens. Loss of SKP2 resulted in the predicted increase in p27 protein levels, coinciding with reduced DNA damage upon CHK1‐inhibitor treatment and reduced cell death in S‐phase. Conversely, overexpression of SKP2, which consequently results in reduced p27 protein levels, enhanced cell death susceptibility to CHK1 inhibition. We propose that assessing SKP2 and p27 expression levels in human malignancies will help to predict the responsiveness to CHK1‐inhibitor treatment. 相似文献
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