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1.
Evelina Miele Agnese Po Angela Mastronuzzi Andrea Carai Zein Mersini Besharat Natalia Pediconi Luana Abballe Giuseppina Catanzaro Claudia Sabato Enrico De Smaele Gianluca Canettieri Lucia Di Marcotullio Alessandra Vacca Antonello Mai Massimo Levrero Stefan M. Pfister Marcel Kool Felice Giangaspero Franco Locatelli Elisabetta Ferretti 《Molecular oncology》2021,15(2):523
Persistent mortality rates of medulloblastoma (MB) and severe side effects of the current therapies require the definition of the molecular mechanisms that contribute to tumor progression. Using cultured MB cancer stem cells and xenograft tumors generated in mice, we show that low expression of miR‐326 and its host gene β‐arrestin1 (ARRB1) promotes tumor growth enhancing the E2F1 pro‐survival function. Our models revealed that miR‐326 and ARRB1 are controlled by a bivalent domain, since the H3K27me3 repressive mark is found at their regulatory region together with the activation‐associated H3K4me3 mark. High levels of EZH2, a feature of MB, are responsible for the presence of H3K27me3. Ectopic expression of miR‐326 and ARRB1 provides hints into how their low levels regulate E2F1 activity. MiR‐326 targets E2F1 mRNA, thereby reducing its protein levels; ARRB1, triggering E2F1 acetylation, reverses its function into pro‐apoptotic activity. Similar to miR‐326 and ARRB1 overexpression, we also show that EZH2 inhibition restores miR‐326/ARRB1 expression, limiting E2F1 pro‐proliferative activity. Our results reveal a new regulatory molecular axis critical for MB progression.
Abbreviations
- ARRB1
- β‐arrestin1
- BTC
- bulk tumor cell
- CSCs
- cancer stem cells
- EZH2
- enhancer of zeste homolog 2
- GCP
- granule cell progenitors
- MB
- medulloblastoma
- OFC
- oncosphere‐forming cell
2.
WenFei Wei XiaoJing Chen LuoJiao Liang Lan Yu XiangGuang Wu ChenFei Zhou ZiCi Wang LiangSheng Fan Zheng Hu Li Liang Wei Wang 《Molecular oncology》2021,15(1):210
Lymph node metastasis (LNM), a critical prognostic determinant in cancer patients, is critically influenced by the presence of numerous heterogeneous cancer‐associated fibroblasts (CAFs) in the tumor microenvironment. However, the phenotypes and characteristics of the various pro‐metastatic CAF subsets in cervical squamous cell carcinoma (CSCC) remain unknown. Here, we describe a CAF subpopulation with elevated periostin expression (periostin+CAFs), located in the primary tumor sites and metastatic lymph nodes, that positively correlated with LNM and poor survival in CSCC patients. Mechanistically, periostin+CAFs impaired lymphatic endothelial barriers by activating the integrin‐FAK/Src‐VE‐cadherin signaling pathway in lymphatic endothelial cells and consequently enhanced metastatic dissemination. In contrast, inhibition of the FAK/Src signaling pathway alleviated periostin‐induced lymphatic endothelial barrier dysfunction and its related effects. Notably, periostin‐CAFs were incapable of impairing endothelial barrier integrity, which may explain the occurrence of CAF‐enriched cases without LNM. In conclusion, we identified a specific periostin+CAF subset that promotes LNM in CSCC, mainly by impairing the lymphatic endothelial barriers, thus providing the basis for potential stromal fibroblast‐targeted interventions that block CAF‐dependent metastasis.
Abbreviations
- CAFs
- cancer‐associated fibroblasts
- CM
- conditioned medium
- CSCC
- cervical squamous cell carcinoma
- HDLECs
- human dermal lymphatic endothelial cells
- LN
- lymph node
- LNM
- lymph node metastasis
- LVs
- lymphatic vessels
- MFI
- mean fluorescence intensity
- NC
- negative control
- NOFs
- normal fibroblasts
- SFM
- serum‐free media
- TAMs
- tumor‐associated macrophages
- TEM
- transmission electron microscopy
- TME
- tumor microenvironment
3.
Debora Bencivenga Emanuela Stampone Arianna Aulitto Annunziata Tramontano Clementina Barone Aide Negri Domenico Roberti Silverio Perrotta Fulvio Della Ragione Adriana Borriello 《Molecular oncology》2021,15(4):915
CDKN1B haploinsufficiency promotes the development of several human cancers. The gene encodes p27Kip1, a protein playing pivotal roles in the control of growth, differentiation, cytoskeleton dynamics, and cytokinesis. CDKN1B haploinsufficiency has been associated with chromosomal or gene aberrations. However, very few data exist on the mechanisms by which CDKN1B missense mutations facilitate carcinogenesis. Here, we report a functional study on a cancer‐associated germinal p27Kip1 variant, namely glycine9‐>arginine‐p27Kip1 (G9R‐p27Kip1) identified in a parathyroid adenoma. We unexpectedly found that G9R‐p27Kip1 lacks the major tumor suppressor activities of p27Kip1 including its antiproliferative and pro‐apoptotic functions. In addition, G9R‐p27Kip1 transfection in cell lines induces the formation of more numerous and larger spheres when compared to wild‐type p27Kip1‐transfected cells. We demonstrated that the mutation creates a consensus sequence for basophilic kinases causing a massive phosphorylation of G9R‐p27Kip1 on S12, a residue normally never found modified in p27Kip1. The novel S12 phosphorylation appears responsible for the loss of function of G9R‐p27Kip1 since S12AG9R‐p27Kip1 recovers most of the p27Kip1 tumor suppressor activities. In addition, the expression of the phosphomimetic S12D‐p27Kip1 recapitulates G9R‐p27Kip1 properties. Mechanistically, S12 phosphorylation enhances the nuclear localization of the mutant protein and also reduces its cyclin‐dependent kinase (CDK)2/CDK1 inhibition activity. To our knowledge, this is the first reported case of quantitative phosphorylation of a p27Kip1 variant on a physiologically unmodified residue associated with the loss of several tumor suppressor activities. In addition, our findings demonstrate that haploinsufficiency might be due to unpredictable post‐translational modifications due to generation of novel consensus sequences by cancer‐associated missense mutations.
Abbreviations
- 1D/WB
- monodimensional western blotting
- 2D/WB
- two‐dimensional western blotting
- CDK
- cyclin‐dependent kinase
- CHX
- cycloheximide
- G9R‐p27
- glycine9‐>arginine‐p27
- IUPs
- intrinsically unstructured proteins
- mAbs
- monoclonal antibodies
- MEN
- multiple endocrine neoplasia
- MENX
- multiple endocrine neoplasia X
- PTMs
- post‐translational modifications
- rAbs
- rabbit antibodies
- TSG
- tumor suppressor gene
- wt‐p27
- wild‐type p27
4.
5.
Yawen Liu Dawei Wang Meng Zhou Hui Chen Huizhi Wang Jingyu Min Jiaxi Chen Shuhui Wu Xiufan Ni Youli Zhang Aihua Gong Min Xu 《Molecular oncology》2021,15(1):262
Increasing evidence demonstrates that Lin28B plays critical roles in numerous biological processes including cell proliferation and stemness maintenance. However, the molecular mechanisms underlying Lin28B nuclear translocation remain poorly understood. Here, we found for the first time that KRAS promoted Lin28B nuclear translocation through PKCβ, which directly bound to and phosphorylated Lin28B at S243. Firstly, we observed that Lin28B was upregulated in pancreatic cancer, contributing to cellular migration and proliferation. Furthermore, nuclear Lin28B upregulated TET3 messenger RNA and protein levels by blocking the production of mature let‐7i. Subsequently, increased TET3 expression could also promote the expression of Lin28B, thereby forming a Lin28B/let‐7i/TET3 feedback loop. Our results suggest that the KRAS/Lin28B axis drives the let‐7i/TET3 pathway to maintain the stemness of pancreatic cancer cells. These findings illuminate the distinct mechanism of Lin28B nuclear translocation and its important roles in KRAS‐driven pancreatic cancer, and have important implications for development of novel therapeutic strategies for this cancer.
Abbreviations
- CCK‐8
- cell counting kit‐8
- CSC
- cancer stem cells
- IP
- immunoprecipitation
- MUT
- mutant type
- NLS
- nuclear localization signal
- PC
- pancreatic cancer
- PCSC
- pancreatic cancer stem cells
- PKC
- protein kinase C
- WT
- wild‐type
6.
7.
Valentina Panzeri Isabella Manni Alessia Capone Chiara Naro Andrea Sacconi Silvia Di Agostino Luisa de Latouliere Andrea Montori Emanuela Pilozzi Giulia Piaggio Gabriele Capurso Claudio Sette 《Molecular oncology》2021,15(2):579
Pancreatic ductal adenocarcinoma (PDAC) is a highly aggressive cancer. Most patients present with advanced disease at diagnosis, which only permits palliative chemotherapeutic treatments. RNA dysregulation is a hallmark of most human cancers, including PDAC. To test the impact of RNA processing dysregulation on PDAC pathology, we performed a bioinformatics analysis to identify RNA‐binding proteins (RBPs) associated with prognosis. Among the 12 RBPs associated with progression‐free survival, we focused on MEX3A because it was recently shown to mark an intestinal stem cell population that is refractory to chemotherapeutic treatments, a typical feature of PDAC. Increased expression of MEX3A was correlated with higher disease stage in PDAC patients and with tumor development in a mouse model of PDAC. Depletion of MEX3A in PDAC cells enhanced sensitivity to chemotherapeutic treatment with gemcitabine, whereas its expression was increased in PDAC cells selected upon chronic exposure to the drug. RNA‐sequencing analyses highlighted hundreds of genes whose expression is sensitive to MEX3A expression, with significant enrichment in cell cycle genes. MEX3A binds to its target mRNAs, like cyclin‐dependent kinase 6 (CDK6), and promotes their stability. Accordingly, knockdown of MEX3A caused a significant reduction in PDAC cell proliferation and in progression to the S phase of the cell cycle. These findings uncover a novel role for MEX3A in the acquisition and maintenance of chemoresistance by PDAC cells, suggesting that it may represent a novel therapeutic target for PDAC.
Abbreviations
- CLIP
- UV‐crosslink and RNA immunoprecipitation
- DFS
- disease‐free survival
- DR
- drug resistant
- EMT
- mesenchymal transition
- MC
- MITO‐Cre
- MKC
- MITO‐Kras‐Cre
- PARG
- poly (ADP‐ribose) glycohydrolase
- PDAC
- pancreatic ductal adenocarcinoma
- PI
- propidium iodide
- RBPs
- RNA‐binding proteins
- RNA‐seq
- RNA sequencing
- RNP
- ribonucleoprotein
- TGCA
- The Cancer Genome Atlas
8.
9.
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
10.
Lara Paula Fernndez María Merino Gonzalo Colmenarejo Juan MorenoRubio Ruth SnchezMartínez Adriana QuijadaFreire Marta Gmez de Cedrn Guillermo Reglero Enrique Casado María Sereno Ana Ramírez de Molina 《Molecular oncology》2020,14(12):3135
Lung cancer is one of the most common cancers, still characterized by high mortality rates. As lipid metabolism contributes to cancer metabolic reprogramming, several lipid metabolism genes are considered prognostic biomarkers of cancer. Statins are a class of lipid‐lowering compounds used in treatment of cardiovascular disease that are currently studied for their antitumor effects. However, their exact mechanism of action and specific conditions in which they should be administered remains unclear. Here, we found that simvastatin treatment effectively promoted antiproliferative effects and modulated lipid metabolism‐related pathways in non‐small cell lung cancer (NSCLC) cells and that the antiproliferative effects of statins were potentiated by overexpression of acyl‐CoA synthetase long‐chain family member 3 (ACSL3). Moreover, ACSL3 overexpression was associated with worse clinical outcome in patients with high‐grade NSCLC. Finally, we found that patients with high expression levels of ACSL3 displayed a clinical benefit of statins treatment. Therefore, our study highlights ACSL3 as a prognostic biomarker for NSCLC, useful to select patients who would obtain a clinical benefit from statin administration.
Abbreviations
- 3‐HMGCR
- 3‐hydroxy‐3‐methylglutaryl‐coenzyme A reductase
- 95% CI
- 95% confidence intervals
- ACSL3
- acyl‐CoA synthetase long‐chain family member 3
- ACSLs
- long‐chain acyl‐CoA synthetases
- ALP
- alkaline phosphatase
- APOA1
- apolipoprotein A1
- ATCC
- American Type Culture Collection
- CASP9
- caspase 9
- ECAR
- extracellular acidification rate
- ECOG
- Eastern Cooperative Oncology Group
- EMT
- epithelial‐to‐mesenchymal transition
- ER
- endoplasmic reticulum
- FAs
- fatty acids
- FFPE
- formalin‐fixed, paraffin‐embedded
- GTEx
- genotype‐tissue expression
- HR
- Hazard ratio
- IC50
- half‐maximal inhibitory concentration
- LDH
- lactate dehydrogenase
- MTT
- 3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyltetrazolium
- NID1
- nidogen 1
- No ORF
- no open reading frame
- NSCLC
- non‐small cell lung cancer
- OCR
- oxygen consumption rate
- OS
- overall survival
- PGE2
- prostaglandins E2
- RETN
- resistin
- TCGA
- The Cancer Genome Atlas
- TMA
- tumor tissue microarray
11.
Abril Marcela HerreraSolorio Irlanda PeraltaArrieta Leonel Armas Lpez Nallely HernndezCigala Criselda Mendoza Milla Blanca Ortiz Quintero Rodrigo Cataln Crdenas Priscila Pineda Villegas Evelyn Rodríguez Villanueva Cynthia G. Trejo Iriarte Joaquín Zúiga Oscar Arrieta Federico vilaMoreno 《Molecular oncology》2021,15(4):1110
12.
The oncogenic fusion protein nucleophosmin‐anaplastic lymphoma kinase (NPM‐ALK), found in anaplastic large‐cell lymphoma (ALCL), localizes to the cytosol, nucleoplasm, and nucleolus. However, the relationship between its localization and transforming activity remains unclear. We herein demonstrated that NPM‐ALK localized to the nucleolus by binding to nucleophosmin 1 (NPM1), a nucleolar protein that exhibits shuttling activity between the nucleolus and cytoplasm, in a manner that was dependent on its kinase activity. In the nucleolus, NPM‐ALK interacted with Epstein–Barr virus nuclear antigen 1‐binding protein 2 (EBP2), which is involved in rRNA biosynthesis. Moreover, enforced expression of NPM‐ALK induced tyrosine phosphorylation of EBP2. Knockdown of EBP2 promoted the activation of the tumor suppressor p53, leading to G0/G1‐phase cell cycle arrest in Ba/F3 cells transformed by NPM‐ALK and ALCL patient‐derived Ki‐JK cells, but not ALCL patient‐derived SUDH‐L1 cells harboring p53 gene mutation. In Ba/F3 cells transformed by NPM‐ALK and Ki‐JK cells, p53 activation induced by knockdown of EBP2 was significantly inhibited by Akt inhibitor GDC‐0068, mTORC1 inhibitor rapamycin, and knockdown of Raptor, an essential component of mTORC1. These results suggest that the knockdown of EBP2 triggered p53 activation through the Akt‐mTORC1 pathway in NPM‐ALK‐positive cells. Collectively, the present results revealed the critical repressive mechanism of p53 activity by EBP2 and provide a novel therapeutic strategy for the treatment of ALCL.
Abbreviations
- ALCL
- anaplastic large‐cell lymphoma
- EBP2
- EBNA1‐binding protein 2
- IMT
- inflammatory myofibroblastic tumors
- mTOR
- mechanistic target of rapamycin
- mTORC1
- mTOR complex 1
- NoLS
- nucleolar localization signal
- NPM1
- nucleophosmin 1
- NPM‐ALK
- nucleophosmin‐anaplastic lymphoma kinase
- NSCLC
- non‐small cell lung cancer
- TPM3
- tropomyosin 3
13.
ZeWen Xiao Wendy Wu Chunlong Wu Man Li Fuming Sun Lu Zheng Gaojing Liu Xiaoling Li Zhiyuan Yun Jiebing Tang Yang Yu Shengnan Luo Wenji Sun Xiaohong Feng Qian Cheng Xue Tao Shuangxiu Wu Ji Tao 《Molecular oncology》2021,15(1):138
Approximately 85% colorectal cancers (CRCs) are thought to evolve through the adenoma‐to‐carcinoma sequence associated with specific molecular alterations, including the 5‐hydroxymethylcytosine (5hmC) signature in circulating cell‐free DNA (cfDNA). To explore colorectal disease progression and evaluate the use of cfDNA as a potential diagnostic factor for CRC screening, here, we performed genome‐wide 5hmC profiling in plasma cfDNA and tissue genomic DNA (gDNA) acquired from 101 samples (63 plasma and 38 tissues), collected from 21 early‐stage CRC patients, 21 AD patients, and 21 healthy controls (HC). The gDNA and cfDNA 5hmC signatures identified in gene bodies and promoter regions in CRC and AD groups were compared with those in HC group. All the differential 5hmC‐modified regions (DhMRs) were gathered into four clusters: Disease‐enriched, AD‐enriched, Disease‐lost, and AD‐lost, with no overlap. AD‐related clusters, AD‐enriched and AD‐lost, displayed the unique 5hmC signals in AD patients. Disease‐enriched and Disease‐lost clusters indicated the general 5hmC changes when colorectal lesions occurred. Cancer patients with a confirmable adenoma history segmentally gathered in AD‐enriched clusters. KEGG functional enrichment and GO analyses determined distinct differential 5hmC‐modified profiles in cfDNA of HC individuals, AD, and CRC patients. All patients had comprehensive 5hmC signatures where Disease‐enriched and Disease‐lost DhMR clusters demonstrated similar epigenetic modifications, while AD‐enriched and AD‐lost DhMR clusters indicated complicated subpopulations in adenoma. Analysis of CRC patients with adenoma history showed exclusive 5hmC‐gain characteristics, consistent with the ‘parallel’ evolution hypothesis in adenoma, either developed through the adenoma‐to‐carcinoma sequence or not. These findings deepen our understanding of colorectal disease and suggest that the 5hmC modifications of different pathological subtypes (cancer patients with or without adenoma history) could be used to screen early‐stage CRC and assess adenoma malignancy with large‐scale follow‐up studies in the future.
Abbreviations
- 5hmC
- 5‐hydroxymethylcytosine
- AD
- precancerous adenoma
- cfDNA
- cell‐free DNA
- CRC
- colorectal cancer
- DhmR
- differential 5hmC‐modified regions
- gDNA
- genomics DNA
- HC
- healthy control
- hMRs
- 5hmC‐modified regions
14.
PengXiang Wang YunFan Sun WeiXiang Jin JianWen Cheng HaiXiang Peng Yang Xu KaiQian Zhou LiMeng Chen Kai Huang SuiYi Wu Bo Hu ZeFan Zhang Wei Guo Ya Cao Jian Zhou Jia Fan XinRong Yang 《Molecular oncology》2021,15(9):2345
Circulating tumor cell (CTC) analysis holds great potential to be a noninvasive solution for clinical cancer management. A complete workflow that combined CTC detection and single‐cell molecular analysis is required. We developed the ChimeraX®‐i120 platform to facilitate negative enrichment, immunofluorescent labeling, and machine learning‐based identification of CTCs. Analytical performances were evaluated, and a total of 477 participants were enrolled to validate the clinical feasibility of ChimeraX®‐i120 CTC detection. We analyzed copy number alteration profiles of isolated single cells. The ChimeraX®‐i120 platform had high sensitivity, accuracy, and reproducibility for CTC detection. In clinical samples, an average value of > 60% CTC‐positive rate was found for five cancer types (i.e., liver, biliary duct, breast, colorectal, and lung), while CTCs were rarely identified in blood from healthy donors. In hepatocellular carcinoma patients treated with curative resection, CTC status was significantly associated with tumor characteristics, prognosis, and treatment response (all P < 0.05). Single‐cell sequencing analysis revealed that heterogeneous genomic alteration patterns resided in different cells, patients, and cancers. Our results suggest that the use of this ChimeraX®‐i120 platform and the integrated workflow has validity as a tool for CTC detection and downstream genomic profiling in the clinical setting.
Abbreviations
- ADABOOST
- AdaBoost classification trees
- AFP
- alpha‐fetoprotein
- AUC
- areas under the curve
- BC
- breast cancer
- BCLC
- barcelona clinic liver cancer
- BHL
- benign hepatic lesion
- CCD
- charge‐coupled device
- CHB
- chronic hepatitis B
- CK
- cytokeratin
- CNA
- copy number alteration
- CNLC
- Chinese staging for liver cancer
- CRC
- colorectal cancer
- CTC
- circulating tumor cell
- CTM
- circulating tumor microemboli
- CV
- coefficient of variation
- DAPI
- 4’,6‐diamidine‐2’‐phenylindole dihydrochloride
- EpCAM
- epithelial cell adhesion molecule
- FPR
- false‐positive rate
- GBM
- stochastic gradient boosting
- HCC
- hepatocellular carcinoma
- HD
- healthy donor
- ICC
- intrahepatic cholangiocarcinoma
- LC
- liver cirrhosis
- LCA
- lung cancer
- LOD
- limit of detection
- PBS
- phosphate‐buffered saline
- PCR
- polymerase chain reaction
- RF
- random forest
- ROC
- receiver operating characteristic
- SVM
- support vector machines
- TCGA
- The Cancer Genome Atlas
- TPR
- true‐positive rate
- TTR
- time to recurrence
- WBC
- white blood cell
- WGA
- whole‐genome amplification
- WGS
- whole‐genome sequencing
- XGB
- extreme gradient boosting
15.
JeongYun Choi Haeseung Lee EunJi Kwon HyeonJoon Kong OkSeon Kwon HyukJin Cha 《Molecular oncology》2021,15(2):679
The acquisition of chemoresistance remains a major cause of cancer mortality due to the limited accessibility of targeted or immune therapies. However, given that severe alterations of molecular features during epithelial‐to‐mesenchymal transition (EMT) lead to acquired chemoresistance, emerging studies have focused on identifying targetable drivers associated with acquired chemoresistance. Particularly, AXL, a key receptor tyrosine kinase that confers resistance against targets and chemotherapeutics, is highly expressed in mesenchymal cancer cells. However, the underlying mechanism of AXL induction in mesenchymal cancer cells is poorly understood. Our study revealed that the YAP signature, which was highly enriched in mesenchymal‐type lung cancer, was closely correlated to AXL expression in 181 lung cancer cell lines. Moreover, using isogenic lung cancer cell pairs, we also found that doxorubicin treatment induced YAP nuclear translocation in mesenchymal‐type lung cancer cells to induce AXL expression. Additionally, the concurrent activation of TGFβ signaling coordinated YAP‐dependent AXL expression through SMAD4. These data suggest that crosstalk between YAP and the TGFβ/SMAD axis upon treatment with chemotherapeutics might be a promising target to improve chemosensitivity in mesenchymal‐type lung cancer.
Abbreviations
- AUC
- area under the curve
- AXL
- AXL receptor tyrosine kinase
- BCL2
- B‐cell lymphoma 2
- CTD2
- cancer target discovery and development
- CTGF
- connective tissue growth factor
- DEG
- differentially expressed genes
- DOXO
- doxorubicin
- EMT
- epithelial–mesenchymal transition
- Eto
- etoposide
- FDA
- Food and Drug Administration
- ITGB3
- integrin beta‐3
- MAPK
- mitogen‐activated protein kinase
- MMP2
- matrix metalloproteinase‐2
- MMP9
- matrix metalloproteinase‐9
- mRNA
- messenger RNA
- NF‐κB
- nuclear factor kappa‐light‐chain‐enhancer of activated B cells
- SBE
- SMAD binding element
- SERPINE1
- serpin family E member 1
- siRNA
- small interfering RNA
- ssGSEA
- single‐sample gene set enrichment analysis
- TCGA
- The Cancer Genome Atlas
- TGFβ
- transforming growth factor beta
- YAP
- Yes‐associated protein
- YAP8SA
- mutants of inhibitory phosphorylation site at eight serine to Alanine of YAP
- ZEB1
- zinc finger E‐box binding homeobox 1
- ZEB2
- zinc finger E‐box‐binding homeobox 2
16.
RongZong Liu WonShik Choi Saket Jain Deepak Dinakaran Xia Xu Woo Hyun Han XiaoHong Yang Darryl D. Glubrecht Ronald B. Moore Hlne Lemieux Roseline Godbout 《Molecular oncology》2020,14(12):3100
Early stage localized prostate cancer (PCa) has an excellent prognosis; however, patient survival drops dramatically when PCa metastasizes. The molecular mechanisms underlying PCa metastasis are complex and remain unclear. Here, we examine the role of a new member of the fatty acid‐binding protein (FABP) family, FABP12, in PCa progression. FABP12 is preferentially amplified and/or overexpressed in metastatic compared to primary tumors from both PCa patients and xenograft animal models. We show that FABP12 concurrently triggers metastatic phenotypes (induced epithelial‐to‐mesenchymal transition (EMT) leading to increased cell motility and invasion) and lipid bioenergetics (increased fatty acid uptake and accumulation, increased ATP production from fatty acid β‐oxidation) in PCa cells, supporting increased reliance on fatty acids for energy production. Mechanistically, we show that FABP12 is a driver of PPARγ activation which, in turn, regulates FABP12''s role in lipid metabolism and PCa progression. Our results point to a novel role for a FABP‐PPAR pathway in promoting PCa metastasis through induction of EMT and lipid bioenergetics.
Abbreviations
- AR
- androgen receptor
- ATP
- adenosine triphosphate
- CN
- copy number
- CPT1
- carnitine palmitoyltransferase I
- CS
- citrate synthase
- EMT
- epithelial–mesenchymal transition
- ET
- electron transfer‐state
- FABP
- fatty acid‐binding protein
- LD
- lipid droplet
- OA
- oleic acid
- PCa
- prostate cancer
- PPAR
- peroxisome proliferator‐activated receptor
- PPRE
- peroxisome proliferator‐activated receptor response element
- TZD
- thiazolidinediones
17.
18.
19.
Esther Coronado Yania Yaez Enrique Vidal Luis Rubio Francisco VeraSempere Antonio Jos CaadaMartínez Joaquín Panadero Adela Caete Ruth Ladenstein Victoria Castel Jaime Font de Mora 《Molecular oncology》2021,15(2):364
High‐risk neuroblastoma (NB) patients with 11q deletion frequently undergo late but consecutive relapse cycles with fatal outcome. To date, no actionable targets to improve current multimodal treatment have been identified. We analyzed immune microenvironment and genetic profiles of high‐risk NB correlating with 11q immune status. We show in two independent cohorts that 11q‐deleted NB exhibits various immune inhibitory mechanisms, including increased CD4+ resting T cells and M2 macrophages, higher expression of programmed death‐ligand 1, interleukin‐10, transforming growth factor‐beta‐1, and indoleamine 2,3‐dioxygenase 1 (P < 0.05), and also higher chromosomal breakages (P ≤ 0.02) and hemizygosity of immunosuppressive miRNAs than MYCN‐amplified and other 11q‐nondeleted high‐risk NB. We also analyzed benefits of maintenance treatment in 83 high‐risk stage M NB patients focusing on 11q status, either with standard anti‐GD2 immunotherapy (n = 50) or previous retinoic acid‐based therapy alone (n = 33). Immunotherapy associated with higher EFS (50 vs. 30, P = 0.028) and OS (72 vs. 52, P = 0.047) at 3 years in the overall population. Despite benefits from standard anti‐GD2 immunotherapy in high‐risk NB patients, those with 11q deletion still face poor outcome. This NB subgroup displays intratumoral immune suppression profiles, revealing a potential therapeutic strategy with combination immunotherapy to circumvent this immune checkpoint blockade.
Abbreviations
- 11q‐del
- 11q‐deleted
- ADCC
- antibody‐dependent cellular cytotoxicity
- CDC
- complement‐dependent cytotoxicity
- COJEC
- chemotherapeutic agents cisplatin, vincristine, carboplatin, etoposide, and cyclophosphamide
- CTLA‐4
- cytotoxic T lymphocyte antigen 4
- EFS
- event‐free survival
- FISH
- fluorescence in situ hybridization
- HR
- hazard ratio
- ICI
- immune checkpoint inhibitor
- IDO1
- indoleamine 2,3‐dioxygenase 1
- IFN‐γ
- interferon‐γ
- IL‐10
- interleukin 10
- INRG
- International Neuroblastoma Risk Group
- miR
- microRNA
- MLPA
- multiplex ligation‐dependent probe amplification
- MMR
- mismatch repair
- MNA
- MYCN amplification
- MS
- metastatic special stage
- MSI
- microsatellite instability
- NB
- neuroblastoma
- NCA
- numerical chromosome aberrations
- NOS
- nitric oxide synthase
- OS
- overall survival
- PD‐1
- programmed cell death protein 1
- PD‐L1
- programmed death‐ligand 1
- SCA
- segmental chromosome aberrations
- TAM
- tumor‐associated macrophages
- Tfh
- follicular helper T cells
- TGF‐β
- tumor growth factor‐β
- TMB
- tumor mutational burden
- TME
- tumor microenvironment
- TNF‐α
- tumor necrosis factor‐α
- Treg
- regulatory T cells