Your search keyword '"AURKA"' showing total 580 results

1. Lagerstroemin from Lagerstroemia speciosa as Antibreast Cancer Candidate Targeting AURKA, EGFR and SRC Protein: A Comprehensive Computational Study.

Author

Widyananda, Muhammad Hermawan, Rosyadah, Nuraini, Muflikhah, Lailil, Widodo, Nashi, Dwijayanti, Dinia Rizqi, and Ulfa, Siti Mariyah

Subjects

*CAFFEIC acid, *CHEMICAL bonds, *MOLECULAR docking, *BINDING energy, *BREAST cancer

Abstract

Breast cancer is a type of cancer that has a high rate of diagnosis and mortality in the world. Lagerestroemia speciosa is a herb that has anticancer activity. This study aims to analyze the compounds in L. speciosa that most act as anticancer of the breast. The compounds in L. speciosa were selected based on drug-likeness, physicochemical properties, ability to penetrate the lipid bilayer and toxicity. The Lagerstroemin target related to Lagestroemin breast cancer was predicted using DisGeNET, SWISS Target Prediction and cBioportal. Molecular docking between Lagerstroemin and AURKA, EGFR and SRC was performed using AutoDock Vina. The interaction stability of each complex was analyzed by molecular dynamic simulation using YASARA with parameters of RMSD protein, RMSD ligand, number of hydrogen bonds and molecular dynamic binding energy. Of the 22 compounds, Quercetin, Caffeic acid, Lagerstroemin and Dypirone were predicted to have good ADME properties and can easily penetrate lipid membranes. Therefore, Quercetin, Caffeic acid and Lagerstroemin were predicted to have anti-breast cancer bioactivity. Of the 3 compounds, Lagerstroemin had the lowest toxicity. Lagerstroemin was predicted to interact with breast cancer-related proteins AURKA, EGFR and SRC. Molecular docking and dynamics showed that Lagerestroemin interacted stably at the ATP binding site of the 3 proteins, so it was very potential as an inhibitor of these 3 proteins. Therefore, Lagerstroemin was predicted to be the compound in L. speciosa with the most potential breast anticancer agent by targeting AURKA, EGFR and SRC. [ABSTRACT FROM AUTHOR]

Published

2024

2. CircAKR1B10 interacts with EIF4A3 to stabilize AURKA and promotes IL-22-induced proliferation, migration and invasion in keratinocytes.

Author

Shi, Liping, Du, Xiaoqing, Wang, Bin, and Zhang, Guoqiang

Abstract

Circular RNAs (circRNAs) are demonstrated to be involved in psoriasis progression. CircRNAs can act as RNA-binding protein (RBP) sponges. Here, we investigated the action of circAKR1B10 in psoriasis, and explored the potential proteins interacted with circAKR1B10. Levels of genes and proteins were assayed by qRT-PCR and western blotting analyses. Keratinocytes in functional groups were treated with interleukin (IL)-22. Functional analysis were conducted using MTT, 5-ethynyl-2’-deoxyuridine (EdU), and transwell assays, respectively. Interaction analysis among circAKR1B10, Eukaryotic initiation factor 4 A-III (EIF4A3) and Aurora Kinase A (AURKA) was conducted using bioinformatics analysis, RNA pull-down assay, and RNA immunoprecipitation (RIP) assay. CircAKR1B10 was highly expressed in psoriasis patients and IL-22-induced keratinocytes. Functionally, knockdown of circAKR1B10 abolished IL-22-induced proliferation, migration and invasion in keratinocytes. AURKA expression was also higher in psoriasis patients and IL-22-induced keratinocytes, and was negatively correlated with circAKR1B10 expression. Moreover, AURKA silencing reduced the proliferative, migratory and invasive abilities of IL-22-induced keratinocytes. Mechanistically, circAKR1B10 interacted with EIF4A3 protein to stabilize and regulate AURKA expression. CircAKR1B10 contributes to IL-22-induced proliferation, migration and invasion in keratinocytes via up-regulating AURKA expression through interacting with EIF4A3 protein. [ABSTRACT FROM AUTHOR]

Published

2024

3. The significant others of aurora kinase a in cancer: combination is the key.

Author

Nikhil, Kumar and Shah, Kavita

Subjects

AURORA kinases, MITOCHONDRIAL dynamics, DNA replication, DRUG target, CELL cycle

Abstract

AURKA is predominantly famous as an essential mitotic kinase. Recent findings have also established its critical role in a plethora of other biological processes including ciliogenesis, mitochondrial dynamics, neuronal outgrowth, DNA replication and cell cycle progression. AURKA overexpression in numerous cancers is strongly associated with poor prognosis and survival. Still no AURKA-targeted drug has been approved yet, partially because of the associated collateral toxicity and partly due to its limited efficacy as a single agent in a wide range of tumors. Mechanistically, AURKA overexpression allows it to phosphorylate numerous pathological substrates promoting highly aggressive oncogenic phenotypes. Our review examines the most recent advances in AURKA regulation and focuses on 33 such direct cancer-specific targets of AURKA and their associated oncogenic signaling cascades. One of the common themes that emerge is that AURKA is often involved in a feedback loop with its substrates, which could be the decisive factor causing its sustained upregulation and hyperactivation in cancer cells, an Achilles heel not exploited before. This dynamic interplay between AURKA and its substrates offers potential opportunities for targeted therapeutic interventions. By targeting these substrates, it may be possible to disrupt this feedback loop to effectively reverse AURKA levels, thereby providing a promising avenue for developing safer AURKA-targeted therapeutics. Additionally, exploring the synergistic effects of AURKA inhibition with its other oncogenic and/or tumor-suppressor targets could provide further opportunities for developing effective combination therapies against AURKA-driven cancers, thereby maximizing its potential as a critical drug target. [ABSTRACT FROM AUTHOR]

Published

2024

4. Transcription Factor ETV4 Activates AURKA to Promote PD-L1 Expression and Mediate Immune Escape in Lung Adenocarcinoma.

Author

Yang, Ping, He, Shangxiang, Ye, Ling, and Weng, Heng

Subjects

*TRANSCRIPTION factors, *PEARSON correlation (Statistics), *PROGRAMMED death-ligand 1, *ENZYME-linked immunosorbent assay, *AURORA kinases

Abstract

Introduction: The occurrence and progression of lung adenocarcinoma (LUAD) impair T-cell immune responses, causing immune escape and subsequently affecting the efficacy of immunotherapy in patients. Aurora kinase A (AURKA) is upregulated in varying cancers, but its role in LUAD immune escape is elusive. This work attempted to explore molecular mechanisms of AURKA regulation in LUAD immune escape. Methods: Through bioinformatics analysis, AURKA level in LUAD was evaluated, and potential upstream transcription factors of AURKA were predicted using hTFtarget. ETS variant transcription factor 4 (ETV4) expression in LUAD was analyzed through The Cancer Genome Atlas. Pearson's correlation analysis was then utilized to test the correlation between AURKA and ETV4. Interaction and binding between AURKA and ETV4 were validated through dual-luciferase assay and chromatin immunoprecipitation. Quantitative reverse transcription-polymerase chain reaction (qRT-PCR) tested relative mRNA expression of AURKA and ETV4 in LUAD cells, cell counting kit-8 assayed cell viability, and Western blot analysis was conducted to determine the protein level of programmed death-ligand 1 (PD-L1). Coculture of LUAD cells with activated CD8+ T cells was carried out, and an LDH assay was used to assess the cytotoxicity of CD8+ T cells against LUAD cells. Interferon-γ (IFN-γ), interleukin-2 (IL-2), and tumor necrosis factor-α (TNF-α) levels in the coculture system were assessed by enzyme-linked immunosorbent assay (ELISA). Western blot assessed protein levels of JAK2, p-JAK2, STAT3, and p-STAT3. Results: Compared to normal tissues, AURKA and ETV4 were upregulated in tumor tissues, and AURKA presented a negative association with CD8+ T-cell immune infiltration but a positive association with PD-L1. qRT-PCR unveiled significantly upregulated mRNA of AURKA and ETV4 in LUAD cells compared to normal lung epithelial cells. Knockdown of AURKA significantly decreased cell viability and PD-L1 protein level in LUAD cells, enhanced cytotoxicity of CD8+ T cells against LUAD cells and IFN-γ, IL-2, and TNF-α expression, while overexpression of AURKA yielded opposite results. Furthermore, the knockdown of ETV4 could reverse the oncogenic characteristics of cells caused by AURKA overexpression. Conclusion: Our study illustrated that ETV4/AURKA axis promoted PD-L1 expression, suppressed CD8+ T-cell activity, and mediated immune escape in LUAD by regulating the JAK2/STAT3 signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

5. AURKA inhibition shows promise as a therapeutic strategy for ARID1A-mutant colorectal cancer

Author

Rong-Sheng Qin, Chun-Tao Li, Fei Chen, Shu Luo, Chao Wang, Jie Li, Shan Xu, MingWei Kang, and Hao-Wen Hu

Subjects

Colorectal cancer, ARID1A, AURKA, Ex vivo, SWI/SNF, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Purpose Mutations in ARID1A frequently occur in colorectal cancer (CRC) cells. However, there are currently no clinical treatment options specifically addressing this aberration. The preliminary in vitro experiments revealed a synthetic lethal interaction between ARID1A and Aurora kinase A (AURKA) in colorectal cancer (CRC) cells. Methods We collected samples from 80 CRC patients and evaluated the efficacy of AURKA inhibitor (AURKAi) using the ATP-tumor chemosensitivity assay (ATP-TCA) on untreated ARID1A-proficient (ARID1A +) and ARID1A-deficient (ARID1A-) CRC patient samples. In addition, we validated this result by a clonogenic assay. Additionally, we examined the effects of AURKA inhibitors on cell cycle progression and apoptosis in ARID1A + and ARID1A- CRC patient samples using flow cytometry. Results The results showed that AURKAi selectively inhibited the growth of ARID1A- CRC cells. Furthermore, AURKA inhibitors significantly increased G2/M arrest and induced apoptosis in ARID1A- cells. Conclusion We believe that AURKAi hold promise as potential therapeutics for ARID1A mutation colorectal cancer patients.

Published

2024

6. The significant others of aurora kinase a in cancer: combination is the key

Author

Kumar Nikhil and Kavita Shah

Subjects

AURKA, Cancer, Substrates, VHL, HURP, p53, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract AURKA is predominantly famous as an essential mitotic kinase. Recent findings have also established its critical role in a plethora of other biological processes including ciliogenesis, mitochondrial dynamics, neuronal outgrowth, DNA replication and cell cycle progression. AURKA overexpression in numerous cancers is strongly associated with poor prognosis and survival. Still no AURKA-targeted drug has been approved yet, partially because of the associated collateral toxicity and partly due to its limited efficacy as a single agent in a wide range of tumors. Mechanistically, AURKA overexpression allows it to phosphorylate numerous pathological substrates promoting highly aggressive oncogenic phenotypes. Our review examines the most recent advances in AURKA regulation and focuses on 33 such direct cancer-specific targets of AURKA and their associated oncogenic signaling cascades. One of the common themes that emerge is that AURKA is often involved in a feedback loop with its substrates, which could be the decisive factor causing its sustained upregulation and hyperactivation in cancer cells, an Achilles heel not exploited before. This dynamic interplay between AURKA and its substrates offers potential opportunities for targeted therapeutic interventions. By targeting these substrates, it may be possible to disrupt this feedback loop to effectively reverse AURKA levels, thereby providing a promising avenue for developing safer AURKA-targeted therapeutics. Additionally, exploring the synergistic effects of AURKA inhibition with its other oncogenic and/or tumor-suppressor targets could provide further opportunities for developing effective combination therapies against AURKA-driven cancers, thereby maximizing its potential as a critical drug target.

Published

2024

7. Research progress on the relationship between AURKA and tumorigenesis: the neglected nuclear function of AURKA.

Author

Menghua Chen, Huijun Zhu, Jian Li, Danjing Luo, Jiaming Zhang, Wenqi Liu, and Jue Wang

Subjects

GENETIC transcription, WNT signal transduction, TRANSCRIPTION factors, KINASE inhibitors, BREAST cancer

Abstract

AURKA is a threonine or serine kinase that needs to be activated by TPX2, Bora and other factors. AURKA is located on chromosome 20 and is amplified or overexpressed in many human cancers, such as breast cancer. AURKA regulates some basic cellular processes, and this regulation is realized via the phosphorylation of downstream substrates. AURKA can function in either the cytoplasm or the nucleus. It can promote the transcription and expression of oncogenes together with other transcription factors in the nucleus, including FoxM1, C-Myc, and NF-κB. In addition, it also sustains carcinogenic signaling, such as N-Myc and Wnt signaling. This article will focus on the role of AURKA in the nucleus and its carcinogenic characteristics that are independent of its kinase activity to provide a theoretical explanation for mechanisms of resistance to kinase inhibitors and a reference for future research on targeted inhibitors. [ABSTRACT FROM AUTHOR]

Published

2024

8. Hsa_circRNA_007630 knockdown delays colon cancer progression by modulation of ferroptosis via miR‐506‐3p/AURKA axis.

Author

Hu, Ying, Wu, Xiongjian, Tan, Xiaobin, and Zhang, Jingzhi

Subjects

COLON cancer, AURORA kinases, REACTIVE oxygen species, POLYMERASE chain reaction, CIRCULAR RNA

Abstract

Colon cancer contributes to high mortality rates internationally that has seriously endangered human health. Aurora kinase A (AURKA) served as a key molecule in colon cancer. However, its role of AURKA on regulating ferroptosis in colon cancer and their possible interactions with miRNAs and circRNAs remain still elusive. Comprehensive bioinformatics analysis after RNA‐sequencing was conducted to determine the differentially expressed genes (DEGs), ferroptosis‐related DEGs and hub genes. The direct relationship between miR‐506‐3p and hsa_circRNA_007630 or AURKA was predicted, then verified by dual luciferase reporter and quantitative real‐time polymerase chain reaction. The rescue experiments were conducted by cotransfection with si‐hsa_circRNA_007630, miR‐506‐3p inhibitor or pcDNA‐AURKA in HT29 cells. Erastin was used to induce ferroptosis in HT29 cells and validated by detecting levels of intracellular Fe2+, lipid reactive oxygen species, glutathione, malondialdehyde and ferroptosis markers expression. We screened a total of 331 DEGs, 26 ferroptosis‐related genes, among which 3 hub genes were identified through PPI network analysis. Therein, AURKA expression was elevated in colon cancer cells. Moreover, AURKA was targeted by miR‐506‐3p, and hsa_circRNA_007630 operated as miR‐506‐3p sponge. The effect of hsa_circRNA_007630 depletion on the inhibiting malignant phenotypes of HT29 cells was rescued by inhibition of miR‐506‐3p or AURKA overexpression. Additionally, AURKA reduced erastin‐induced ferroptosis in HT29 cells. Depletion of circRNA_007630 exerts as a suppressive role in colon cancer through a novel miR‐506‐3p/AURKA pathway related to ferroptosis, and might become a novel marker for colon cancer. [ABSTRACT FROM AUTHOR]

Published

2024

9. Exploring HMMR as a therapeutic frontier in breast cancer treatment, its interaction with various cell cycle genes, and targeting its overexpression through specific inhibitors.

Author

Shabir, Aisha, Qayoom, Hina, Ul Haq, Burhan, Mansoor, Adel Abo, Abdelrahim, Adil, Ahmad, Irshad, Almilabairy, Abdullah, Ahmad, Fuzail, and Mir, Manzoor Ahmad

Subjects

BREAST, BREAST cancer, CELL cycle, CANCER treatment, GENETIC overexpression, BREAST cancer prognosis

Abstract

Among women, breast carcinoma is one of the most complex cancers, with one of the highest death rates worldwide. There have been significant improvements in treatment methods, but its early detection still remains an issue to be resolved. This study explores the multifaceted function of hyaluronan-mediated motility receptor (HMMR) in breast cancer progression. HMMR's association with key cell cycle regulators (AURKA, TPX2, and CDK1) underscores its pivotal role in cancer initiation and advancement. HMMR's involvement in microtubule assembly and cellular interactions, both extracellularly and intracellularly, provides critical insights into its contribution to cancer cell processes. Elevated HMMR expression triggered by inflammatory signals correlates with unfavorable prognosis in breast cancer and various other malignancies. Therefore, recognizing HMMR as a promising therapeutic target, the study validates the overexpression of HMMR in breast cancer and various pan cancers and its correlation with certain proteins such as AURKA, TPX2, and CDK1 through online databases. Furthermore, the pathways associated with HMMR were explored using pathway enrichment analysis, such as Gene Ontology, offering a foundation for the development of effective strategies in breast cancer treatment. The study further highlights compounds capable of inhibiting certain pathways, which, in turn, would inhibit the upregulation of HMMR in breast cancer. The results were further validated via MD simulations in addition to molecular docking to explore protein-protein/ligand interaction. Consequently, these findings imply that HMMR could play a pivotal role as a crucial oncogenic regulator, highlighting its potential as a promising target for the therapeutic intervention of breast carcinoma. [ABSTRACT FROM AUTHOR]

Published

2024

10. Many kinases for controlling the water channel aquaporin‐2.

Author

Kharin, Andrii and Klussmann, Enno

Subjects

*AQUAPORINS, *VASOPRESSIN, *CELL membranes, *ARGININE, *PROTEOMICS, *MOLECULAR biology

Abstract

Aquaporin‐2 (AQP2) is a member of the aquaporin water channel family. In the kidney, AQP2 is expressed in collecting duct principal cells where it facilitates water reabsorption in response to antidiuretic hormone (arginine vasopressin, AVP). AVP induces the redistribution of AQP2 from intracellular vesicles and its incorporation into the plasma membrane. The plasma membrane insertion of AQP2 represents the crucial step in AVP‐mediated water reabsorption. Dysregulation of the system preventing the AQP2 plasma membrane insertion causes diabetes insipidus (DI), a disease characterised by an impaired urine concentrating ability and polydipsia. There is no satisfactory treatment of DI available. This review discusses kinases that control the localisation of AQP2 and points out potential kinase‐directed targets for the treatment of DI. [ABSTRACT FROM AUTHOR]

Published

2024

11. Cross-Reactivity of N6AMT1 Antibodies with Aurora Kinase A: An Example of Antibody-Specific Non-Specificity.

Author

Brūmele, Baiba, Serova, Evgeniia, Lupp, Aleksandra, Suija, Mihkel, Mutso, Margit, and Kurg, Reet

Subjects

*AURORA kinases, *MOLECULAR biology, *RECOMBINANT proteins, *CROSS reactions (Immunology), *IMMUNOGLOBULINS, *METHYLGUANINE

Abstract

Primary antibodies are one of the main tools used in molecular biology research. However, the often-occurring cross-reactivity of primary antibodies complicates accurate data analysis. Our results show that three commercial polyclonal antibodies raised against N-6 adenine-specific DNA methyltransferase 1 (N6AMT1) strongly cross-react with endogenous and recombinant mitosis-associated protein Aurora kinase A (AURKA). The cross-reactivity was verified through immunofluorescence, immunoblot, and immunoprecipitation assays combined with mass spectrometry. N6AMT1 and AURKA are evolutionarily conserved proteins that are vital for cellular processes. Both proteins share the motif ENNPEE, which is unique to only these two proteins. We suggest that N6AMT1 antibodies recognise this motif in N6AMT1 and AURKA proteins and exhibit an example of "specific" non-specificity. This serves as an example of the importance of controls and critical data interpretation in molecular biology research. [ABSTRACT FROM AUTHOR]

Published

2024

12. Involvement of Endolysosomes and Aurora Kinase A in the Regulation of Amyloid β Protein Levels in Neurons.

Author

Afghah, Zahra, Khan, Nabab, Datta, Gaurav, Halcrow, Peter W., Geiger, Jonathan D., and Chen, Xuesong

Subjects

*AURORA kinases, *CATHEPSIN D, *AMYLOID, *NEURONS, *AMYLOID plaque, *TUBULINS, *AMYLOID beta-protein precursor

Abstract

Aurora kinase A (AURKA) is a serine/threonine-protein kinase that regulates microtubule organization during neuron migration and neurite formation. Decreased activity of AURKA was found in Alzheimer's disease (AD) brain samples, but little is known about the role of AURKA in AD pathogenesis. Here, we demonstrate that AURKA is expressed in primary cultured rat neurons, neurons from adult mouse brains, and neurons in postmortem human AD brains. AURKA phosphorylation, which positively correlates with its activity, is reduced in human AD brains. In SH-SY5Y cells, pharmacological activation of AURKA increased AURKA phosphorylation, acidified endolysosomes, decreased the activity of amyloid beta protein (Aβ) generating enzyme β-site amyloid precursor protein cleaving enzyme (BACE-1), increased the activity of the Aβ degrading enzyme cathepsin D, and decreased the intracellular and secreted levels of Aβ. Conversely, pharmacological inhibition of AURKA decreased AURKA phosphorylation, de-acidified endolysosomes, decreased the activity of cathepsin D, and increased intracellular and secreted levels of Aβ. Thus, reduced AURKA activity in AD may contribute to the development of intraneuronal accumulations of Aβ and extracellular amyloid plaque formation. [ABSTRACT FROM AUTHOR]

Published

2024

13. Identification of AURKA as a Biomarker Associated with Cuproptosis and Ferroptosis in HNSCC.

Author

Jia, Xiao, Tian, Jiao, Fu, Yueyue, Wang, Yiqi, Yang, Yang, Zhang, Mengzhou, Yang, Cheng, and Liu, Yijin

Subjects

*BIOMARKERS, *AURORA kinases, *SMALL interfering RNA, *PEARSON correlation (Statistics), *GENE expression

Abstract

Cuproptosis and ferroptosis represent copper- and iron-dependent forms of cell death, respectively, and both are known to play pivotal roles in head and neck squamous cell carcinoma (HNSCC). However, few studies have explored the prognostic signatures related to cuproptosis and ferroptosis in HNSCC. Our objective was to construct a prognostic model based on genes associated with cuproptosis and ferroptosis. We randomly assigned 502 HSNCC samples from The Cancer Genome Atlas (TCGA) into training and testing sets. Pearson correlation analysis was utilized to identify cuproptosis-associated ferroptosis genes in the training set. Cox proportional hazards (COX) regression and least absolute shrinkage operator (LASSO) were employed to construct the prognostic model. The performance of the prognostic model was internally validated using single-factor COX regression, multifactor COX regression, Kaplan–Meier analysis, principal component analysis (PCA), and receiver operating curve (ROC) analysis. Additionally, we obtained 97 samples from the Gene Expression Omnibus (GEO) database for external validation. The constructed model, based on 12 cuproptosis-associated ferroptosis genes, proved to be an independent predictor of HNSCC prognosis. Among these genes, the increased expression of aurora kinase A (AURKA) has been implicated in various cancers. To further investigate, we employed small interfering RNAs (siRNAs) to knock down AURKA expression and conducted functional experiments. The results demonstrated that AURKA knockdown significantly inhibited the proliferation and migration of HNSCC cells (Cal27 and CNE2). Therefore, AURKA may serve as a potential biomarker in HNSCC. [ABSTRACT FROM AUTHOR]

Published

2024

14. AURKA Enhances the Glycolysis and Development of Ovarian Endometriosis Through ERβ.

Author

Sun, Yujun, Zhang, Shucai, Zhang, Xiaohui, Li, Guotao, Sun, Fangyuan, Wang, Mengxue, Ren, Chune, Jiang, Aifang, and Yang, Tingting

Subjects

GLYCOLYSIS, ENDOMETRIOSIS, ESTROGEN receptors

Abstract

Ovarian endometriosis (EMs) is a benign, estrogen-dependent gynecological disorder. Estrogen receptor beta (ERβ), a nuclear receptor for estradiol, plays an important role in the development of ovarian EMs. Here, we investigated the biological significance of aurora kinase A (AURKA) in ovarian EMs and the mechanism by which it regulates ERβ. We used immunohistochemical assays to verify that AURKA and ERβ were highly expressed in ectopic endometrial tissues. Cell proliferation and colony formation assays were used to demonstrate that AURKA promoted the proliferation of EMs cells. Wound-healing assay, Transwell migration assay, and Matrigel invasion assay further showed that AURKA enhanced the ability of EMs cells to migrate and invade. In addition, AURKA was shown to stimulate glycolysis in EMs cells by measuring the concentration of glucose and lactate in the cell supernatants. Moreover, the AURKA inhibitor alisertib was found to inhibit the progression of ovarian EMs and glycolysis in a mouse model of EMs by measuring ectopic tissues as well as by testing the peritoneal fluid of mice. Furthermore, coimmunoprecipitation assay showed that AURKA interacted with ERβ. The rescue experiments confirmed that AURKA regulated the development and glycolysis of ovarian EMs in an ERβ-dependent manner. AURKA contributed to the development of ovarian EMs by upregulating of ERβ. AURKA may represent a new target for the treatment of ovarian EMs. [ABSTRACT FROM AUTHOR]

Published

2024

15. Aurora kinase A inhibition plus Tumor Treating Fields suppress glioma cell proliferation in a cilium-independent manner

Author

Jia Tian, Julianne C. Mallinger, Ping Shi, Dahao Ling, Loic P. Deleyrolle, Min Lin, Habibeh Khoshbouei, and Matthew R. Sarkisian

Subjects

Tumor Treating Fields, AURKA, AURKB, Primary cilium, Autophagy, ARL13B, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Tumor Treating Fields (TTFields) extend the survival of glioblastoma (GBM) patients by interfering with a broad range of tumor cellular processes. Among these, TTFields disrupt primary cilia stability on GBM cells. Here we asked if concomitant treatment of TTFields with other agents that interfere with GBM ciliogenesis further suppress GBM cell proliferation in vitro. Aurora kinase A (AURKA) promotes both cilia disassembly and GBM growth. Inhibitors of AURKA, such as Alisertib, inhibit cilia disassembly and increase ciliary frequency in various cell types. However, we found that Alisertib treatment significantly reduced GBM cilia frequency in gliomaspheres across multiple patient derived cell lines, and in patient biopsies treated ex vivo. This effect appeared glioma cell-specific as it did not reduce normal neuronal or glial cilia frequencies. Alisertib-mediated depletion of glioma cilia appears specific to AURKA and not AURKB inhibition, and attributable in part to autophagy pathway activation. Treatment of two different GBM patient-derived cell lines with TTFields and Alisertib resulted in a significant reduction in cell proliferation compared to either treatment alone. However, this effect was not cilia-dependent as the combined treatment reduced proliferation in cilia-depleted cell lines lacking, ARL13B, or U87MG cells which are naturally devoid of ARL13B+ cilia. Thus, Alisertib-mediated effects on glioma cilia may be a useful biomarker of drug efficacy within tumor tissue. Considering Alisertib can cross the blood brain barrier and inhibit intracranial growth, our data warrant future studies to explore whether concomitant Alisertib and TTFields exposure prolongs survival of brain tumor-bearing animals in vivo.

Published

2024

16. Erratum: Exploring HMMR as a therapeutic frontier in breast cancer treatment, its interaction with various cell cycle genes, and targeting its overexpression through specific inhibitors

Author

Frontiers Production Office

Subjects

HMMR, breast cancer, biomarkers, Cdk1, AURKA, Tpx2, Therapeutics. Pharmacology, RM1-950

Published

2024

17. Assessment of AURKA expression and prognosis prediction in lung adenocarcinoma using machine learning-based pathomics signature

Author

Cuiqing Bai, Yan Sun, Xiuqin Zhang, and Zhitong Zuo

Subjects

Machine learning, Pathomics, AURKA, Lung adenocarcinoma, Prognosis, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Objective: This study aimed to develop quantitative feature-based models from histopathological images to assess aurora kinase A (AURKA) expression and predict the prognosis of patients with lung adenocarcinoma (LUAD). Methods: A dataset of patients with LUAD was derived from the cancer genome atlas (TCGA) with information on clinical characteristics, RNA sequencing and histopathological images. The TCGA-LUAD cohort was randomly divided into training (n = 229) and testing (n = 98) sets. We extracted quantitative image features from histopathological slides of patients with LUAD using computational approaches, constructed a predictive model for AURKA expression in the training set, and estimated their predictive performance in the test set. A Cox proportional hazards model was used to assess whether the pathomic scores (PS) generated by the model independently predicted LUAD survival. Results: High AURKA expression was an independent risk factor for overall survival (OS) in patients with LUAD (hazard ratio = 1.816, 95 % confidence intervals = 1.257–2.623, P = 0.001). The model based on histopathological image features had significant predictive value for AURKA expression: the area under the curve of the receiver operating characteristic curve in the training set and validation set was 0.809 and 0.739, respectively. Decision curve analysis showed that the model had clinical utility. Patients with high PS and low PS had different survival rates (P = 0.019). Multivariate analysis suggested that PS was an independent prognostic factor for LUAD (hazard ratio = 1.615, 95 % confidence intervals = 1.071–2.438, P = 0.022). Conclusion: Pathomics models based on machine learning can accurately predict AURKA expression and the PS generated by the model can predict LUAD prognosis.

Published

2024

18. Meningioma achieves malignancy and erastin-induced ferroptosis resistance through FOXM1-AURKA-NRF2 axis

Author

Yangfan Ye, Lei Xu, Liuchao Zhang, Pengzhan Zhao, Wanzhi Cai, Guoqiang Fu, Tian Wang, Zeqiang Tao, Wenqian Shi, Wei Gu, Jingming Hu, Guangyao Yuan, Yutian Wei, Ke Xu, Zhongyuan Bao, Honglu Chao, Ning Liu, Lin Zhao, Yiming Tu, and Jing Ji

Subjects

Meningioma, Ferroptosis, Protein kinase, AURKA, NRF2, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

The oncogene Aurora kinase A (AURKA) has been implicated in various tumor, yet its role in meningioma remains unexplored. Recent studies have suggested a potential link between AURKA and ferroptosis, although the underlying mechanisms are unclear. This study presented evidence of AURKA upregulation in high grade meningioma and its ability to enhance malignant characteristics. We identified AURKA as a suppressor of erastin-induced ferroptosis in meningioma. Mechanistically, AURKA directly interacted with and phosphorylated kelch-like ECH-associated protein 1 (KEAP1), thereby activating nuclear factor erythroid 2 related factor 2 (NFE2L2/NRF2) and target genes transcription. Additionally, forkhead box protein M1 (FOXM1) facilitated the transcription of AURKA. Suppression of AURKA, in conjunction with erastin, yields significant enhancements in the prognosis of a murine model of meningioma. Our study elucidates an unidentified mechanism by which AURKA governs ferroptosis, and strongly suggests that the combination of AURKA inhibition and ferroptosis-inducing agents could potentially provide therapeutic benefits for meningioma treatment.

Published

2024

19. AURKA promotes renal cell carcinoma progression via regulation of CCNB1 transcription

Author

Jiling Wen, Xuechun Wang, Guosheng Yang, and Junhua Zheng

Subjects

AURKA, RCC, Transcriptional regulation, CCNB1, Proliferation, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

AURKA is a member of the serine/threonine kinase family and its kinase activity is crucial for the progression of mitosis. Recent studies have highlighted the therapeutic significance of AURKA inhibition in multiple cancer types. However, the specific mechanisms by which AURKA contributes to the progression of renal cell carcinoma (RCC) have not been fully elucidated. In this study, AURKA expression level was identified in human RCC tissues by immunohistochemical (IHC) staining. The function of AURKA on cell malignant phenotypes was evaluated in vitro after AURKA inhibition. The subcutaneous xenograft was conducted to confirm the in vivo effect of AURKA knockdown on growth of RCC cells. Finally, Co-IP, luciferase assay and ChIP experiments were performed to reveal the regulatory mechanism of AURKA on CCNB1. Our results showed a significant upregulation of AURKA in RCC tissues and cell lines, and a high AURKA expression was associated with poor prognosis. AURKA knockdown inhibited RCC cell proliferation and migration, induced cell apoptosis, and led to G1/G2 phase arrest. This effect was further confirmed by the use of an AURKA inhibitor. Mechanistically, AURKA interacted with E2F1, and subsequently recruited it to the promoter region of CCNB1. CCNB1 expression was essential for AURKA-induced RCC progression. Collectively, our results suggested that AURKA plays an important role in development of RCC via regulating CCNB1 transcription.

Published

2024

20. AURKA knockdown inhibits esophageal squamous cell carcinoma progression through ferroptosis

Author

Yuan Mi, Liying Chen, Cong Wang, Yuxin Miao, Chuntao Song, Jie Su, and Lei Wang

Subjects

Esophageal squamous cell carcinoma (ESCC), AURKA, Ferroptosis, Progression, Ferrostatin-1 (Fer-1), Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Aurora kinase A, as a pro-carcinogenic in gastric cancer and glioma kinase, is enhanced in several human tumors. However, it's regulatory mechanism in esophageal squamous cell carcinoma (ESCC) remains unclear. Thus, this study aimed to investigate the expression status, functional roles, and molecular mechanisms of AURKA in ESCC development. AURKA expression was analyzed by the screening of the GEO database and detected using an immunohistochemical method. The biological function of AURKA on ESCC was evaluated in vitro and in vivo. Western blot assay, malondialdehyde (MDA), iron, and glutathione (GSH) kits were utilized to assess changes in ferroptosis. Database analysis results showed that AURKA was a differential gene in ESCC and was highly expressed in human ESCC tissues. Functionally, AURKA knockdown decreased ESCC cell proliferation, invasion, and metastasis both in vitro and in vivo. Moreover, when AURKA was knockdown, cells were more correctly blocked in the G2/M phase, and the ferroptosis-related MDA and Fe increased, whereas the GSH reduced. Consistently, Glutathione peroxidase 4 (GPX4) and solute carrier family 7a member 11 (SLC7A11) expression were downregulated by AURKA knockdown. However, ferroptosis inhibitor partially restore ESCC cell proliferation, invasion, and metastasis caused by AURKA knockdown. AURKA knockdown enhances ferroptosis and acts against cancer progression in ESCC. AURKA acts as a tumor-promoting gene and may serve as potential target for ESCC treatment.

Published

2024

21. Exploring HMMR as a therapeutic frontier in breast cancer treatment, its interaction with various cell cycle genes, and targeting its overexpression through specific inhibitors

Author

Aisha Shabir, Hina Qayoom, Burhan Ul Haq, Adel Abo Mansoor, Adil Abdelrahim, Irshad Ahmad, Abdullah Almilabairy, Fuzail Ahmad, and Manzoor Ahmad Mir

Subjects

HMMR, breast cancer, biomarkers, Cdk1, AURKA, Tpx2, Therapeutics. Pharmacology, RM1-950

Abstract

Among women, breast carcinoma is one of the most complex cancers, with one of the highest death rates worldwide. There have been significant improvements in treatment methods, but its early detection still remains an issue to be resolved. This study explores the multifaceted function of hyaluronan-mediated motility receptor (HMMR) in breast cancer progression. HMMR’s association with key cell cycle regulators (AURKA, TPX2, and CDK1) underscores its pivotal role in cancer initiation and advancement. HMMR’s involvement in microtubule assembly and cellular interactions, both extracellularly and intracellularly, provides critical insights into its contribution to cancer cell processes. Elevated HMMR expression triggered by inflammatory signals correlates with unfavorable prognosis in breast cancer and various other malignancies. Therefore, recognizing HMMR as a promising therapeutic target, the study validates the overexpression of HMMR in breast cancer and various pan cancers and its correlation with certain proteins such as AURKA, TPX2, and CDK1 through online databases. Furthermore, the pathways associated with HMMR were explored using pathway enrichment analysis, such as Gene Ontology, offering a foundation for the development of effective strategies in breast cancer treatment. The study further highlights compounds capable of inhibiting certain pathways, which, in turn, would inhibit the upregulation of HMMR in breast cancer. The results were further validated via MD simulations in addition to molecular docking to explore protein–protein/ligand interaction. Consequently, these findings imply that HMMR could play a pivotal role as a crucial oncogenic regulator, highlighting its potential as a promising target for the therapeutic intervention of breast carcinoma.

Published

2024

22. Development and Validation of a Novel Diagnostic Nomogram Model Using Serum Oxidative Stress Markers and AURKA for Prediction of Nasopharyngeal Carcinoma

Author

Wu J, Luo H, Wang K, and Yi B

Subjects

nasopharyngeal carcinoma, aurka, sod, mda, nomogram, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Jiahui Wu,1,2 Huidan Luo,1,2 Kun Wang,1,2 Bin Yi1,2 1Department of Clinical Laboratory and Medical Research Center, Xiangya Hospital, Central South University, Changsha, Hunan, People’s Republic of China; 2National Clinical Research Center for Geriatric Disorders, Xiangya Hospital, Central South University, Changsha, Hunan, People’s Republic of ChinaCorrespondence: Bin Yi, Department of Clinical Laboratory and Medical Research Center, Xiangya Hospital, Central South University, Changsha, Hunan, 410008, People’s Republic of China, Tel +86-13707495781, Fax +86-73189753200, Email xyyibin@163.comPurpose: The mortality rate of nasopharyngeal carcinoma (NPC) remains high due to the absence of quick and accurate diagnostic approaches at its early stage. Our aim is to evaluate the diagnostic value of the elevated expression of Aurora kinase A (AURKA) and the oxidative stress markers (such as glutathione, superoxide dismutase and malondialdehyde) in serum of NPC patients and to establish a nomogram model for predicting NPC on the ground of these biomarkers.Patients and Methods: Serum samples from 93 NPC patients and 94 healthy subjects were collected. Enzyme-linked immunosorbent assay (ELISA) was adopted to determine the AURKA level, while oxidative stress markers were measured by commercially available appropriate kits. Logistic regression was used for NPC predictor identification and nomogram construction. The training and validation cohorts (3:1) were randomly split up from the participants. Receiver operating characteristic (ROC) curves, calibration curves, and decision curve analyses (DCAs) were performed to validate the nomogram.Results: AURKA and malondialdehyde (MDA) levels were significantly high in the NPC population compared to the healthy controls (P < 0.0001). The nomogram resulted in an area under the curve (AUC) of 0.897 (95% confidence interval: 0.848– 0.947) in the training set and AUC of 0.770 (0.628– 0.912) in the validation set. The predicted probability and the actual probability matched well in the nomogram (P > 0.05). DCAs showed good results too.Conclusion: Serum levels of AURKA, SOD, and MDA have diagnostic values in NPC. The nomogram based on the identified biomarkers is favorable for NPC prediction.Keywords: nasopharyngeal carcinoma, AURKA, SOD, MDA, nomogram

Published

2023

23. Involvement of Endolysosomes and Aurora Kinase A in the Regulation of Amyloid β Protein Levels in Neurons

Author

Zahra Afghah, Nabab Khan, Gaurav Datta, Peter W. Halcrow, Jonathan D. Geiger, and Xuesong Chen

Subjects

AURKA, endolysosomes, amyloid β, BACE-1, cathepsin D, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Aurora kinase A (AURKA) is a serine/threonine-protein kinase that regulates microtubule organization during neuron migration and neurite formation. Decreased activity of AURKA was found in Alzheimer’s disease (AD) brain samples, but little is known about the role of AURKA in AD pathogenesis. Here, we demonstrate that AURKA is expressed in primary cultured rat neurons, neurons from adult mouse brains, and neurons in postmortem human AD brains. AURKA phosphorylation, which positively correlates with its activity, is reduced in human AD brains. In SH-SY5Y cells, pharmacological activation of AURKA increased AURKA phosphorylation, acidified endolysosomes, decreased the activity of amyloid beta protein (Aβ) generating enzyme β-site amyloid precursor protein cleaving enzyme (BACE-1), increased the activity of the Aβ degrading enzyme cathepsin D, and decreased the intracellular and secreted levels of Aβ. Conversely, pharmacological inhibition of AURKA decreased AURKA phosphorylation, de-acidified endolysosomes, decreased the activity of cathepsin D, and increased intracellular and secreted levels of Aβ. Thus, reduced AURKA activity in AD may contribute to the development of intraneuronal accumulations of Aβ and extracellular amyloid plaque formation.

Published

2024

24. AURKA inhibition shows promise as a therapeutic strategy for ARID1A-mutant colorectal cancer

Author

Qin, Rong-Sheng, Li, Chun-Tao, Chen, Fei, Luo, Shu, Wang, Chao, Li, Jie, Xu, Shan, Kang, MingWei, and Hu, Hao-Wen

Published

2024

25. Expression of Soluble Form of Aurora A as a Predictive Factor for Neoadjuvant Therapy in Breast Cancer Patients: A Single-Center Pilot Study.

Author

Winter, Pawel, Fuksiewicz, Malgorzata, Jagiello-Gruszfeld, Agnieszka, Nowecki, Zbigniew, and Kotowicz, Beata

Subjects

*BREAST tumor treatment, *BREAST cancer prognosis, *CANCER patient psychology, *PILOT projects, *BIOMARKERS, *CONFIDENCE intervals, *EPIDERMAL growth factor receptors, *GENE expression, *TREATMENT effectiveness, *CANCER patients, *ENZYME-linked immunosorbent assay, *DESCRIPTIVE statistics, *RESEARCH funding, *COMBINED modality therapy, *ODDS ratio

Abstract

Simple Summary: AURKA tissue expression has been shown to be a predictive and prognostic factor in many solid tumors, including breast cancer. To improve the outcome of breast cancer (BC) treatment, further personalization and the exploration of the use of new biomarkers is needed to assess the effects of the applied treatment. New predictive markers may reduce the cost and toxicity of therapy. In our single-center prospective study, we determined the serum levels of Aurora A, thymidine kinase 1, and human epidermal growth factor receptor type 3 (HER3) using ELISA kits in 119 women with BC before neoadjuvant treatment (NAT). We showed that in a biologically heterogeneous group of BC patients, the pretreatment serum Aurora A levels were of significant value in predicting the response to NAT. The response to NAT was assessed in the postoperative material after systemic treatment as the pCR, that is, an indicator of the complete pathological response to neoadjuvant treatment. To our knowledge, this is the first study of the predictive value of serum AURKA in patients with breast cancer. Purpose: To search for new predictive breast cancer biomarkers. We analyzed the serum concentrations of biomarkers involved in carcinogenesis, which can also be targeted by therapy. Methods: In a single-center prospective study, the serum levels of Aurora A, thymidine kinase 1, and human epidermal growth factor receptor type 3 (HER3) were determined in 119 women with BC before neoadjuvant treatment using ELISA kits. Results: The following clinical data were analyzed: age; TNM; the expression of ER, PGR, HER2, and Ki67; histological grade (G); and the response to neoadjuvant treatment (NAT) in the residual tumor burden classification (RCB). A complete pathological response (pCR) was achieved after NAT in 41 patients (34%). The highest proportion of the patients with a confirmed pCR was found for triple negative breast cancer (TNBC) (62.5%); non-luminal HER2-positive (52.6%) cancer subtypes (p = 0.0003); and in the G3 group (50%; p = 0.0078). The patients with higher levels of Aurora A were more likely to achieve pCR (p = 0.039). In the multivariate analysis, the serum Aurora A levels ≥ 4.75 ng/mL correlated with a higher rate of pCR (OR: 3.5; 95% CI: 1.2–10.1; p = 0.023). Conclusions: We showed that in a biologically heterogeneous group of BC patients, the pretreatment serum Aurora A levels were of significant value in predicting the response to NAT. [ABSTRACT FROM AUTHOR]

Published

2023

26. Pan-cancer analysis and in vitro validation of the oncogenic and prognostic roles of AURKA in human cancers.

Author

Chuang Yang, Plum, Patrick Sven, Gockel, Ines, and Thieme, René

Subjects

AURORA kinases, ARACHIDONIC acid, TUMOR microenvironment, CELL cycle, PANCREATIC cancer, PANCREATIC intraepithelial neoplasia, PANCREATIC tumors

Abstract

Background: Aurora kinase A (AURKA) plays a pivotal role in regulating cell mitosis and tumor progression. However, its prognostic significance across diverse cancer types remains relatively unexplored. Methods: We conducted a comprehensive analysis of AURKA expression in various cancers using data from The Cancer Genome Atlas, Genotype-Tissue Expression, and The Human Protein Atlas databases. Our investigation encompassed an exploration of the associations between AURKA expression and clinical characteristics, shedding light on potential functional roles of AURKA. Additionally, we delved into the relationship between AURKA and the tumor microenvironment. To substantiate the role of AURKA, we carried out in vitro experiments in esophageal adenocarcinoma (EAC), prostate cancer (PRAD), and pancreatic cancer (PAAD) cells. Results: Our analysis revealed that AURKA is prominently overexpressed in a majority of the cancer types under investigation. Elevated AURKA expression correlated closely with poorer prognosis and advanced tumor stages. AURKA was found to be associated with key pathways involved in the cell cycle and arachidonic acid metabolism. Moreover, AURKA expression exhibited significant correlations with immunoregulatory genes and immune cell profiles. Notably, in vitro experiments demonstrated that silencing AURKA expression resulted in reduced cell viability in EAC, PRAD, and PAAD cells, as well as a decrease in clone formation, cell cycle elongation, diminished cell invasion and reduced spheroid size in EAC cells (OE33 and OE19). Conclusion: Our study elucidates the oncogenic role of AURKA and underscores its prognostic value across a spectrum of cancers, including EAC. These findings suggest that AURKA holds promise as a predictive biomarker for EAC and various other tumor types. [ABSTRACT FROM AUTHOR]

Published

2023

27. Ligand-based pharmacophore modeling and machine learning for the discovery of potent aurora A kinase inhibitory leads of novel chemotypes

Author

Banat, Rajaa, Daoud, Safa, and Taha, Mutasem Omar

Published

2024

28. STIL/AURKA axis promotes cell proliferation by influencing primary cilia formation in bladder cancer

Author

Jingxian Li, Yuanjiong Qi, Bo Li, Yan Liu, Kuo Yang, Zhihong Zhang, Jianqiang Zhu, and E. Du

Subjects

PC, Bladder cancer, STIL, AURKA, SHH signaling, Medicine

Abstract

Abstract Background The primary cilia (PC) is a microtubule-based and nonmotile organelle which protrudes from the surface of almost all mammalian cells. At present, PC has been found to be a deficiency or loss in multiple cancers. Restoring PC could be a novel targeting therapy strategy. Our research showed that PC was reduced in human bladder cancer (BLCA) cells, and PC deficiency promotes cell proliferation. However, the concrete mechanisms remain unknown. SCL/TAL1 interrupting locus (STIL), a PC-related protein, was screened in our previous study and could influence the cell cycle by regulating PC in tumor cells. In this study, we aimed to elucidate the function of STIL for PC to explore the underlying mechanism of PC in BLCA. Methods Public database analysis, western blot, and enzyme-linked immunosorbent assay (ELISA) were used to screen genes and explore gene expression alteration. Immunofluorescence and western blot were utilized to investigate PC. Wound healing assay, clone formation assay, and CCK-8 assay were used to explore cell migration, growth, and proliferation. The co-immunoprecipitation and western blot were employed to reveal the interaction of STIL and AURKA. Results We found that high STIL expression is correlated with poor outcomes of BLCA patients. Further analysis revealed that STIL overexpression could inhibit PC formation, activate SHH signaling pathways, and promote cell proliferation. In contrast, STIL-knockdown could promote PC formation, inactivate SHH signaling, and inhibit cell proliferation. Furthermore, we found that the regulatory functions of STIL for PC depend on AURKA. STIL could influence proteasome activity and maintain AURKA stabilization. AURKA-knockdown could reverse PC deficiency caused by STIL overexpression for PC in BLCA cells. We observed that co-knockdown in STIL and AURKA significantly enhanced PC assembly. Conclusion In summary, our result provides a potential therapy target for BLCA based on the restoration of PC.

Published

2023

29. USP21 contributes to the aggressiveness of laryngeal cancer cells by deubiquitinating and stabilizing AURKA

Author

Qing‐Dong Wang, Tao Shi, Yang Xu, Yang Liu, and Mei‐Jia Zhang

Subjects

AURKA, deubiquitination, laryngeal cancer, USP21, Medicine (General), R5-920

Abstract

Abstract Laryngeal cancer is a usual malignant tumor of the head and neck. The role and mechanism of deubiquitinase USP21 in laryngeal cancer are still unclear. We aimed to explore whether USP21 affected laryngeal cancer progress through deubiquitinating AURKA. USP21 and AURKA levels were evaluated by qRT‐PCR and Western blot. Kaplan–Meier analysis was conducted by survival package. MTT was performed to detect cell proliferation. The wound healing assay was applied to evaluate cell migration. Transwell was used to measure cell invasion. Co‐IP and GST‐pull down determined the interaction between USP21 and AURKA. In addition, AURKA ubiquitination levels were analyzed. USP21 was signally elevated in laryngeal cancer tissues and cells. USP21 level in clinical stages III–IV was higher than that in clinical stages I–II, and high levels of USP21 were highly correlated with poor prognosis in laryngeal cancer. USP21 inhibition suppressed AMC‐HN‐8 and TU686 cell proliferation, migration and invasion. Co‐IP and GST‐pull down confirmed the interaction between USP21 and AURKA. Knockdown of USP21 markedly increased the ubiquitination level of AURKA, and USP21 restored AURKA activity through deubiquitination. In addition, overexpression of AURKA reversed the effects of USP21 knockdown on cell growth, migration, and invasion. USP21 stabilized AURKA through deubiquitination to promote laryngeal cancer progression.

Published

2023

30. The promotion action of AURKA on post-ischemic angiogenesis in diabetes-related limb ischemia

Author

Tao Bai, Mingxing Li, Yuanfeng Liu, Zhentao Qiao, Xusheng Zhang, Yafeng Wang, and Zhiwei Wang

Subjects

Diabetic limb ischemia, AURKA, Angiogenesis, Therapeutics. Pharmacology, RM1-950, Biochemistry, QD415-436

Abstract

Abstract Background Diabetes-related limb ischemia is a challenge for lower extremity amputation. Aurora Kinase A (AURKA) is an essential serine/threonine kinase for mitosis, while its role in limb ischemia remains unclear. Method Human microvascular endothelial cells (HMEC-1) were cultured in high glucose (HG, 25 mmol/L d-glucose) and no additional growth factors (ND) medium to mimic diabetes and low growth factors deprivation as in vitro model. Diabetic C57BL/6 mice were induced by streptozotocin (STZ) administration. After seven days, ischemia was surgically performed by left unilateral femoral artery ligation on diabetic mice. The vector of adenovirus was utilized to overexpress AURKA in vitro and in vivo. Results In our study, HG and ND-mediated downregulation of AURKA impaired the cell cycle progression, proliferation, migration, and tube formation ability of HMEC-1, which were rescued by overexpressed AURKA. Increased expression of vascular endothelial growth factor A (VEGFA) induced by overexpressed AURKA were likely regulatory molecules that coordinate these events. Mice with AURKA overexpression exhibited improved angiogenesis in response to VEGF in Matrigel plug assay, with increased capillary density and hemoglobin content. In diabetic limb ischemia mice, AURKA overexpression rescued blood perfusion and motor deficits, accompanied by the recovery of gastrocnemius muscles observed by H&E staining and positive Desmin staining. Moreover, AURKA overexpression rescued diabetes-related impairment of angiogenesis, arteriogenesis, and functional recovery in the ischemic limb. Signal pathway results revealed that VEGFR2/PI3K/AKT pathway might be involved in AURKA triggered angiogenesis procedure. In addition, AURKA overexpression impeded oxidative stress and subsequent following lipid peroxidation both in vitro and in vivo, indicating another protective mechanism of AURKA function in diabetic limb ischemia. The changes in lipid peroxidation biomarkers (lipid ROS, GPX4, SLC7A11, ALOX5, and ASLC4) in in vitro and in vivo were suggestive of the possible involvement of ferroptosis and interaction between AUKRA and ferroptosis in diabetic limb ischemia, which need further investigation. Conclusions These results implicated a potent role of AURKA in diabetes-related impairment of ischemia-mediated angiogenesis and implied a potential therapeutic target for ischemic diseases of diabetes.

Published

2023

31. Cross-Reactivity of N6AMT1 Antibodies with Aurora Kinase A: An Example of Antibody-Specific Non-Specificity

Author

Baiba Brūmele, Evgeniia Serova, Aleksandra Lupp, Mihkel Suija, Margit Mutso, and Reet Kurg

Subjects

methyltransferase, N6AMT1, AURKA, antibodies, cross-reactivity, Immunologic diseases. Allergy, RC581-607

Abstract

Primary antibodies are one of the main tools used in molecular biology research. However, the often-occurring cross-reactivity of primary antibodies complicates accurate data analysis. Our results show that three commercial polyclonal antibodies raised against N-6 adenine-specific DNA methyltransferase 1 (N6AMT1) strongly cross-react with endogenous and recombinant mitosis-associated protein Aurora kinase A (AURKA). The cross-reactivity was verified through immunofluorescence, immunoblot, and immunoprecipitation assays combined with mass spectrometry. N6AMT1 and AURKA are evolutionarily conserved proteins that are vital for cellular processes. Both proteins share the motif ENNPEE, which is unique to only these two proteins. We suggest that N6AMT1 antibodies recognise this motif in N6AMT1 and AURKA proteins and exhibit an example of “specific” non-specificity. This serves as an example of the importance of controls and critical data interpretation in molecular biology research.

Published

2024

32. Identification of AURKA as a Biomarker Associated with Cuproptosis and Ferroptosis in HNSCC

Author

Xiao Jia, Jiao Tian, Yueyue Fu, Yiqi Wang, Yang Yang, Mengzhou Zhang, Cheng Yang, and Yijin Liu

Subjects

head and neck squamous cell carcinoma, prognostic model, cuproptosis, ferroptosis, AURKA, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Cuproptosis and ferroptosis represent copper- and iron-dependent forms of cell death, respectively, and both are known to play pivotal roles in head and neck squamous cell carcinoma (HNSCC). However, few studies have explored the prognostic signatures related to cuproptosis and ferroptosis in HNSCC. Our objective was to construct a prognostic model based on genes associated with cuproptosis and ferroptosis. We randomly assigned 502 HSNCC samples from The Cancer Genome Atlas (TCGA) into training and testing sets. Pearson correlation analysis was utilized to identify cuproptosis-associated ferroptosis genes in the training set. Cox proportional hazards (COX) regression and least absolute shrinkage operator (LASSO) were employed to construct the prognostic model. The performance of the prognostic model was internally validated using single-factor COX regression, multifactor COX regression, Kaplan–Meier analysis, principal component analysis (PCA), and receiver operating curve (ROC) analysis. Additionally, we obtained 97 samples from the Gene Expression Omnibus (GEO) database for external validation. The constructed model, based on 12 cuproptosis-associated ferroptosis genes, proved to be an independent predictor of HNSCC prognosis. Among these genes, the increased expression of aurora kinase A (AURKA) has been implicated in various cancers. To further investigate, we employed small interfering RNAs (siRNAs) to knock down AURKA expression and conducted functional experiments. The results demonstrated that AURKA knockdown significantly inhibited the proliferation and migration of HNSCC cells (Cal27 and CNE2). Therefore, AURKA may serve as a potential biomarker in HNSCC.

Published

2024

33. Corrigendum: Single-cell RNA sequencing reveals the role of phosphorylation-related genes in hepatocellular carcinoma stem cells

Author

Fuwen Yao, Yongqiang Zhan, Changzheng Li, Ying Lu, Jiao Chen, Jing Deng, Zijing Wu, Qi Li, Yi’an Song, Binhua Chen, Jinjun Chen, Kuifeng Tian, Zuhui Pu, Yong Ni, and Lisha Mou

Subjects

AURKA, EZH2, tyrosine kinase inhibitors, TKI, protein kinases, cell cycle, Biology (General), QH301-705.5

Published

2023

34. CDCA2 promotes melanoma progression by inhibiting ubiquitin-mediated degradation of Aurora kinase A.

Author

Sun, Wei, Jin, Yongjia, Wei, Chuanyuan, Xu, Yu, Liu, Wanlin, Zhong, Jingqin, Zou, Zijian, Lin, Xinyi, Xiang, Yang, and Chen, Yong

Subjects

*MELANOMA prognosis, *PROTEIN metabolism, *DISEASE progression, *PROTEIN kinases, *BIOLOGICAL models, *FLOW cytometry, *MELANOMA, *ANIMAL experimentation, *WESTERN immunoblotting, *CELL cycle proteins, *GENE expression, *RISK assessment, *BIOINFORMATICS, *CELL motility, *TUMOR classification, *CELL proliferation, *POLYMERASE chain reaction, *MICE, *PHENOTYPES, *DISEASE risk factors

Abstract

Malignant melanoma is one of the most aggressive types of malignant skin cancer. CDCA2 is of great significance in many tumours, but its role in melanoma is unclear. CDCA2 expression in melanoma samples and benign melanocytic naevus tissues was detected by GeneChip and bioinformatics analysis as well as immunohistochemistry. The gene expression in melanoma cells was detected by quantitative PCR detecting system and Western blot. Melanoma models with gene knockdown or overexpression were constructed in vitro , and the effects of gene knockdown or overexpression on melanoma cell phenotype and tumour growth were evaluated by celigo cell counting, transwell, wound healing, flow cytometry and subcutaneous nude mouse tumour models. GeneChip primeview, Ingenuity pathway analysis and bioinformatics analysis combined with co-immunoprecipitation, protein stability experiments and ubiquitination analysis were performed to demonstrate the downstream genes and regulatory mechanism of CDCA2. CDCA2 was highly expressed in melanoma tissues, and CDCA2 level was positively correlated with tumour stage and poor prognosis. CDCA2 downregulation significantly reduced cell migration and proliferation by inducing G1/S phase arrest and apoptosis. CDCA2 knockdown suppressed tumour growth and Ki67 expression in vivo. Mechanistically, CDCA2 inhibited ubiquitin-dependent Aurora kinase A (AURKA) protein degradation by acting on SMAD specific E3 ubiquitin protein ligase 1. AURKA downregulation inhibited melanoma cell proliferation and migration and promoted apoptosis. High expression of AURKA implied poor survival in melanoma patients. Moreover, AURKA knockdown constricted CDCA2 overexpression-induced proliferation and migration. CDCA2, which was upregulated in melanoma, enhanced AURKA protein stability by inhibiting SMAD specific E3 ubiquitin protein ligase 1-mediated AURKA ubiquitination, thus playing a carcinogenic role in melanoma progression. • CDCA2 was highly expressed in melanoma, and correlated with poor prognosis. • CDCA2 knockdown reduced cell migration and proliferation and suppressed tumour growth. • CDCA2 inhibited ubiquitin-dependent AURKA protein degradation by acting on SMAD specific E3 ubiquitin protein ligase 1. • CDCA2 played a carcinogenic role in melanoma progression by enhancing AURKA levels. [ABSTRACT FROM AUTHOR]

Published

2023

35. AURKA is a prognostic potential therapeutic target in skin cutaneous melanoma modulating the tumor microenvironment, apoptosis, and hypoxia.

Author

Long, ShengYong and Zhang, Xuan Fen

Subjects

*TUMOR microenvironment, *AURORA kinases, *GENE expression, *HYPOXEMIA, *INHIBITION of cellular proliferation, *LYMPHATIC metastasis, *IPILIMUMAB

Abstract

Background: AURKA, Aurora kinase A encoding gene, is an important signaling hub gene for mitosis. In recent years, AURKA has been implicated in the occurrence and development of several cancers. However, its relationship with the tumor microenvironment in skin cutaneous melanoma (SKCM) and the molecular mechanisms underlying its effects are still unclear. Method: We adopted a variety of bioinformatics methods to comprehensively analyze the potential carcinogenesis of AURKA in SKCM, and constructed a prognostic nomogram model. We also dentified an inhibitor targeting AURKA and verified its therapeutic effects against SKCM using the molecular docking technology. Results: We found that abnormally high expression of AURKA was responsible for driving the occurrence and development of SKCM, and affected various pathological factors in SKCM. In addition, AURKA was established as an independent marker of poor SKCM prognosis. We also characterized the potential mechanisms by which AURKA manifests its effects in SKCM and found that AURKA inhibits the infiltration of CD8+ T cells and promotes hypoxia by activating the TGF-β signaling pathway. At the same time, the high AURKA expression group had higher tumor stemness index and promoted cell proliferation and metastasis. Finally, the small-molecule compound ZNC97018978 targeting AURKA screened by molecular docking technology can inhibit the proliferation, invasion and metastasis of SKCM. The possible mechanism is that ZNC97018978 induces apoptosis by arresting the cell cycle, thereby inhibiting cell proliferation. Conclusion: AURKA is the core hub gene driving the occurrence and development of SKCM, and its expression is regulated by epigenetic modifications. AURKA can regulate the infiltration level of various immune cells in the tumor microenvironment, reshape the immunosuppressive tumor microenvironment, and apoptosis, and hypoxia. Thus, it is a prognostic biomarker and potential therapeutic target in SKCM. ZNC97018978 is an effective and safe inhibitor of AURKA in vitro; its safety and effectiveness in vivo as a potential treatment for cutaneous melanoma should be further determined. [ABSTRACT FROM AUTHOR]

Published

2023

36. Pharmacological inhibition of the ubiquitin-specific protease 8 effectively suppresses glioblastoma cell growth

Author

Long Yu, Hu Zengchun, Yang Dian, Wang Fuqiang, Zhao Chen’ge, Zhang Yang, Zhang Yingqiu, Ma Hui, and Lv Huiyi

Subjects

gbm, aurka, usp8, small molecule inhibitor, Biology (General), QH301-705.5

Abstract

Glioblastoma (GBM) is a malignant brain tumor. The purpose of this study is to estimate the potential effects and underlying mechanisms of a ubiquitin-specific protease 8 (USP8) small-molecule inhibitor on the phenotypic characteristics of GBM cells. The growth, migration, invasion, and stemness of GBM LN229 and T98G cells were evaluated by conducting cell proliferation, colony formation, wound healing, transwell, Ki-67 staining, spheroid formation, and ionizing radiation assays, and the results collectively showed the suppressive effects of USP8 inhibition on GBM cells. Furthermore, transcriptomic profiling of GBM cells treated with the USP8 inhibitor deubiquitinase (DUB)-IN-1 revealed significantly altered mRNA expression induced by pharmacological USP8 inhibition, from which we confirmed downregulated Aurora kinase A (AURKA) protein levels using immunoblotting assays. Our findings indicated that the proliferation, invasion, and stemness of LN229 and T98G cells were markedly suppressed by USP8 inhibition. Pharmacological USP8 suppression elicits multiple tumor-inhibitory effects, likely through dysregulating various mRNA expression events, including that of the key cell cycle regulator and oncogenic protein AURKA. Therefore, our observations corroborate the GBM-supportive roles of USP8 and suggest pharmacological USP8 inhibition is a viable therapeutic approach to target GBM. The purpose of this study was to investigate the effect and mechanism of action of the USP8 inhibitor DUB-IN-1 on GBM.

Published

2023

37. Aurora kinase a promotes the progression of papillary thyroid carcinoma by activating the mTORC2-AKT signalling pathway

Author

Zewei Zhao, Huijuan Wang, Ning Kang, Zhongyu Wang, Xiukun Hou, Linfei Hu, Shuo Qie, Jianping Guo, Songfeng Wei, Xianhui Ruan, and Xiangqian Zheng

Subjects

Papillary thyroid carcinoma, AURKA, SIN1, AKT, CUL4B, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Abstract Background Treatment failure is the main cause of death from papillary thyroid carcinoma (PTC). It is urgent to look for new intervention targets and to develop new therapies for treating PTC. Aurora-A kinase (AURKA) functionally regulates cell mitosis and is closely related to the occurrence and development of a variety of tumours. However, the expression and potential functions of AURKA in PTC remain largely elusive. Results Clinicopathologically, AURKA is highly expressed in PTC tissues compared to normal tissues and is correlated with lymph node metastasis, TNM stage and patient prognosis. Biologically, AURKA functions as an oncoprotein to promote the proliferation and migration of PTC cells. Mechanistically, AURKA directly binds to SIN1 and compromises CUL4B-based E3 ligase-mediated ubiquitination and subsequent degradation of SIN1, leading to hyperactivation of the mTORC2-AKT pathway in PTC cells. Conclusions We found that AURKA plays critical roles in regulating the progression of PTC by activating the mTORC2-AKT pathway, highlighting the potential of targeting AURKA to treat PTC.

Published

2022

38. Proliferation-Related Features of the Human Mesenchymal Stem Cells Derived from Palatine Tonsils, Adipose Tissues, and Bone Marrow

Author

Park, Sohee, Yu, Yeuni, Park, Gi Cheol, Shin, Sung-Chan, Kim, Ji Min, Lee, Byung-Joo, and Kim, Yun Hak

Published

2023

39. Evaluation of AURKA rs2273535 and CDKN1B rs34330 Polymorphisms Association with the Risk of Breast Cancer

Author

Atefeh Liravi, seyed Massoud Houshmand, Mojtaba Jafarnia, and Mohsen Forouzanfar

Subjects

breast cancer, aurka, cdkn1b, rs2273535, rs34330, rflp, Public aspects of medicine, RA1-1270

Abstract

Background & Objective: Breast cancer consists of a heterogeneous group of tumours with different prognosis and is the most common cause of cancer-related mortality among women. In this study, our goal was to evaluate the association of AURKA rs2273535 and CDKN1B rs34330 polymorphisms with risk of female breast cancer in southwest part of Iran. Materials & Methods: This case-control study was done on 50 women with breast cancer and 50 healthy women without any symptoms or family history of breast cancer as the case and control group, respectively. Restriction fragment length polymorphism (RFLP- PCR) technique was designed to determine the AURKA rs2273535 and CDKN1B rs34330 gene polymorphisms. Afterwards, statistical analysis was done by means of SPSS (version 17). Results: In current research, our finding showed that rs2273535 T allele increased the susceptibility of breast cancer (OR:2.58, 95%CI:1.5-31.09, P=0.006). Moreover, T allele in dominant phase could raise the risk of the breast cancer (OR:3.01, 65%CI:1.31-6.92, P=0.009). However, the other polymorphism, CDKN1B rs34330, revealed no associations with increased risk of breast cancer. Conclusion: These findings suggest that AURKA rs2273535 may influence individual’s susceptibility to breast cancer. But we found no associations regarding CDKN1B rs34330 polymorphism and this type of cancer.

Published

2022

40. circ_0061265 competitively binds to microRNA-885-3p to promote the development of gastric cancer by upregulating AURKA expression

Author

Qian Fei, Yuhe Lin, Mi Zhang, Jinshuai Guo, and Yuan Liang

Subjects

circ_0061265, miRNA-885-3p, AURKA, ceRNA network, Gastric cancer, Bioinformatics analysis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Background Circular RNAs (circRNAs) represent a class of newly identified transcripts that act as competing endogenous RNAs (ceRNAs) to modulate gene expression by competing for the shared microRNAs (miRNAs) in humans. In this study, we set out to investigate the role of the circRNA-miRNA-mRNA ceRNA network in gastric cancer (GC). Methods A differential analysis on GC-related circRNAs, miRNAs and mRNAs was performed utilizing the R language “limma” package, followed by GO and KEGG enrichment analyses. The Cytoscape visualization software was used to construct the circRNA-miRNA-mRNA ceRNA network. RT-qPCR, Western blot assay, immunohistochemistry, RNA pull down, RIP and dual luciferase gene reporter assay were conducted to verify the expression of the related circRNA, miRNA and mRNA and their interaction in GC tissues and cells. Results The bioinformatics analysis screened 13 circRNAs, 241 miRNAs and 7483 mRNAs related to GC. Ten DEmRNAs (AURKA, BUB1, CCNF, FEN1, FGF2, ITPKB, CDKN1A, TRIP13, KNTC1 and KIT) were identified from the constructed PPI network and module analysis, among which AURKA was the most critical. A circ_0061265-miRNA-885-3p-AURKA ceRNA network was constructed. In vitro cell experiment demonstrated significantly upregulated circ_0061265 and AURKA, but downregulated miR-885-3p in GC. Moreover, circ_0061265 promoted the occurrence of GC by competitively binding to miRNA-885-3p to regulate AURKA expression. Conclusion Our work validated that circ_0061265 may increase AURKA expression by competitively binding to miRNA-885-3p, thereby promoting GC development.

Published

2022

41. Distinct genomic features in a retrospective cohort of mucosal, acral, and vulvovaginal melanomas.

Author

Shi, Katherine, Zhang, Bin, Kong, Betty Y., Zhang, Yongzhan, Igartua, Catherine, Mohan, Lauren S., Quan, Victor L., Panah, Elnaz, Isales, Maria Cristina, Beaubier, Nike, Taxter, Timothy J., White, Kevin P., Zou, Lihua, and Gerami, Pedram

Abstract

Compared with sun-exposed melanomas, less is known regarding the pathogenesis of sun-protected melanomas. Sun-protected melanomas share many epidemiologic factors, but their genetic heterogeneity is not well studied. We investigated the genomic profile of acral, mucosal, and vulvovaginal melanomas. We hypothesize that mucosal melanomas, recognized for their uniquely aggressive clinical behavior, have distinct genomic features. We performed whole transcriptome messenger RNA and DNA (1711 genes) sequencing, messenger RNA expression profiling, tumor mutational burden, ultraviolet signature, and copy number variants analysis on 29 volar/digital acral, 7 mucosal, and 6 vulvovaginal melanomas. There was significant genetic heterogeneity, particularly in acral melanomas, with 36% having BRAF alterations, whereas other melanomas had none (P =.0159). Nonzero ultraviolet signatures were more frequent in acral melanomas, suggesting greater ultraviolet involvement. Mucosal melanomas formed a distinct group with increased expression of cell cycle and proliferation genes. Various targetable aberrations were identified, such as AURKA and ERBB2 , in mucosal and acral melanomas, respectively. The sample size was a small. There is significant genetic heterogeneity among sun-protected melanomas. Mucosal melanomas have upregulation in cell cycle and proliferation genes, which may explain their aggressive behavior. Ultraviolet radiation plays some role in a subset of acral but not other melanomas. [ABSTRACT FROM AUTHOR]

Published

2023

42. STIL/AURKA axis promotes cell proliferation by influencing primary cilia formation in bladder cancer.

Author

Li, Jingxian, Qi, Yuanjiong, Li, Bo, Liu, Yan, Yang, Kuo, Zhang, Zhihong, Zhu, Jianqiang, and Du, E.

Subjects

*CELL proliferation, *BLADDER cancer, *ENZYME-linked immunosorbent assay, *GENE expression, *CILIA & ciliary motion, *WNT signal transduction

Abstract

Background: The primary cilia (PC) is a microtubule-based and nonmotile organelle which protrudes from the surface of almost all mammalian cells. At present, PC has been found to be a deficiency or loss in multiple cancers. Restoring PC could be a novel targeting therapy strategy. Our research showed that PC was reduced in human bladder cancer (BLCA) cells, and PC deficiency promotes cell proliferation. However, the concrete mechanisms remain unknown. SCL/TAL1 interrupting locus (STIL), a PC-related protein, was screened in our previous study and could influence the cell cycle by regulating PC in tumor cells. In this study, we aimed to elucidate the function of STIL for PC to explore the underlying mechanism of PC in BLCA. Methods: Public database analysis, western blot, and enzyme-linked immunosorbent assay (ELISA) were used to screen genes and explore gene expression alteration. Immunofluorescence and western blot were utilized to investigate PC. Wound healing assay, clone formation assay, and CCK-8 assay were used to explore cell migration, growth, and proliferation. The co-immunoprecipitation and western blot were employed to reveal the interaction of STIL and AURKA. Results: We found that high STIL expression is correlated with poor outcomes of BLCA patients. Further analysis revealed that STIL overexpression could inhibit PC formation, activate SHH signaling pathways, and promote cell proliferation. In contrast, STIL-knockdown could promote PC formation, inactivate SHH signaling, and inhibit cell proliferation. Furthermore, we found that the regulatory functions of STIL for PC depend on AURKA. STIL could influence proteasome activity and maintain AURKA stabilization. AURKA-knockdown could reverse PC deficiency caused by STIL overexpression for PC in BLCA cells. We observed that co-knockdown in STIL and AURKA significantly enhanced PC assembly. Conclusion: In summary, our result provides a potential therapy target for BLCA based on the restoration of PC. [ABSTRACT FROM AUTHOR]

Published

2023

43. TROP2 expression and SN38 antitumor activity in malignant pleural mesothelioma cells provide a rationale for antibody-drug conjugate therapy.

Author

Hegedüs, Luca, Okumus, Özlem, Mairinger, Fabian, Ploenes, Till, Reuter, Sebastian, Schuler, Martin, Welt, Anja, Vega-Rubin-de-Celis, Silvia, Theegarten, Dirk, Bankfalvi, Agnes, Aigner, Clemens, and Hegedüs, Balazs

Subjects

*GENE expression, *ANTIBODY-drug conjugates, *PEMETREXED, *DNA repair, *MESOTHELIOMA, *ANTINEOPLASTIC agents

Abstract

• TROP2 expression is detected in a panel of fifteen novel mesothelioma cell models. • A large portion of mesothelioma cells show sensitivity to SN38 treatment. • High Aurora kinase-A expression predicts sensitivity to the topoisomerase I inhibitor SN38. • Sacituzimab govitecan (anti-TROP2 antibody SN38 conjugate) can induce apoptosis in TROP2 expressing MPM cells. • Biomarker-selected exploration of sacituzimab govitecan in mesothelioma is warranted. Malignant pleural mesothelioma (MPM) is an aggressive cancer which at large is not amenable to curative surgery. Despite the recent approval of immune checkpoint inhibitor therapy, the response rates and survival following systemic therapy is still limited. Sacituzumab govitecan is an antibody-drug conjugate targeting the topoisomerase I inhibitor SN38 to trophoblast cell-surface antigen 2 (TROP-2)-positive cells. Here we have explored the therapeutic potential of sacituzumab govitecan in MPM models. TROP2 expression was analyzed in a panel of two well established and 15 pleural effusion derived novel lines by RT-QPCR and immunoblotting, TROP2 membrane-localization was studied by flow cytometry and immunohistochemistry. Cultured mesothelial cells and pneumothorax pleura served as controls. The sensitivity of MPM cell lines to irinotecan and SN38 was studied using cell viability, cell cycle, apoptosis and DNA damage assays. Drug sensitivity of cell lines was correlated with RNA expression of DNA repair genes. Drug sensitivity was defined as an IC50 below 5 nM in the cell viability assay. TROP2 expression was detected at RNA and protein level in 6 of the 17 MPM cell lines, but not in in cultured mesothelial control cells or in the mesothelial layer of the pleura. TROP2 was detectable on the cell membrane in 5 MPM lines and was present in the nucleus in 6 cell models. Ten of 17 MPM cell lines showed sensitivity to SN38 treatment, among those 4 expressed TROP2. High AURKA RNA expression and high proliferation rate correlated with sensitivity to SN38-induced cell death, DNA damage response, cell cycle arrest and cell death. Sacituzumab govitecan treatment effectively induced cell cycle arrest and cell death in TROP2-positive MPM cells. TROP2 expression and sensitivity to SN38 in MPM cell lines support biomarker-selected clinical exploration of sacituzumab govitecan in patients with MPM. [ABSTRACT FROM AUTHOR]

Published

2023

44. USP21 contributes to the aggressiveness of laryngeal cancer cells by deubiquitinating and stabilizing AURKA.

Author

Wang, Qing‐Dong, Shi, Tao, Xu, Yang, Liu, Yang, and Zhang, Mei‐Jia

Subjects

DEUBIQUITINATING enzymes, LARYNGEAL cancer, CANCER cells, CELL migration, WOUND healing

Abstract

Laryngeal cancer is a usual malignant tumor of the head and neck. The role and mechanism of deubiquitinase USP21 in laryngeal cancer are still unclear. We aimed to explore whether USP21 affected laryngeal cancer progress through deubiquitinating AURKA. USP21 and AURKA levels were evaluated by qRT‐PCR and Western blot. Kaplan–Meier analysis was conducted by survival package. MTT was performed to detect cell proliferation. The wound healing assay was applied to evaluate cell migration. Transwell was used to measure cell invasion. Co‐IP and GST‐pull down determined the interaction between USP21 and AURKA. In addition, AURKA ubiquitination levels were analyzed. USP21 was signally elevated in laryngeal cancer tissues and cells. USP21 level in clinical stages III–IV was higher than that in clinical stages I–II, and high levels of USP21 were highly correlated with poor prognosis in laryngeal cancer. USP21 inhibition suppressed AMC‐HN‐8 and TU686 cell proliferation, migration and invasion. Co‐IP and GST‐pull down confirmed the interaction between USP21 and AURKA. Knockdown of USP21 markedly increased the ubiquitination level of AURKA, and USP21 restored AURKA activity through deubiquitination. In addition, overexpression of AURKA reversed the effects of USP21 knockdown on cell growth, migration, and invasion. USP21 stabilized AURKA through deubiquitination to promote laryngeal cancer progression. [ABSTRACT FROM AUTHOR]

Published

2023

45. The promotion action of AURKA on post-ischemic angiogenesis in diabetes-related limb ischemia.

Author

Bai, Tao, Li, Mingxing, Liu, Yuanfeng, Qiao, Zhentao, Zhang, Xusheng, Wang, Yafeng, and Wang, Zhiwei

Subjects

*NEOVASCULARIZATION, *VASCULAR endothelial growth factors, *LEG amputation, *AURORA kinases, *ISCHEMIA, *HEMATOXYLIN & eosin staining

Abstract

Background: Diabetes-related limb ischemia is a challenge for lower extremity amputation. Aurora Kinase A (AURKA) is an essential serine/threonine kinase for mitosis, while its role in limb ischemia remains unclear. Method: Human microvascular endothelial cells (HMEC-1) were cultured in high glucose (HG, 25 mmol/L d-glucose) and no additional growth factors (ND) medium to mimic diabetes and low growth factors deprivation as in vitro model. Diabetic C57BL/6 mice were induced by streptozotocin (STZ) administration. After seven days, ischemia was surgically performed by left unilateral femoral artery ligation on diabetic mice. The vector of adenovirus was utilized to overexpress AURKA in vitro and in vivo. Results: In our study, HG and ND-mediated downregulation of AURKA impaired the cell cycle progression, proliferation, migration, and tube formation ability of HMEC-1, which were rescued by overexpressed AURKA. Increased expression of vascular endothelial growth factor A (VEGFA) induced by overexpressed AURKA were likely regulatory molecules that coordinate these events. Mice with AURKA overexpression exhibited improved angiogenesis in response to VEGF in Matrigel plug assay, with increased capillary density and hemoglobin content. In diabetic limb ischemia mice, AURKA overexpression rescued blood perfusion and motor deficits, accompanied by the recovery of gastrocnemius muscles observed by H&E staining and positive Desmin staining. Moreover, AURKA overexpression rescued diabetes-related impairment of angiogenesis, arteriogenesis, and functional recovery in the ischemic limb. Signal pathway results revealed that VEGFR2/PI3K/AKT pathway might be involved in AURKA triggered angiogenesis procedure. In addition, AURKA overexpression impeded oxidative stress and subsequent following lipid peroxidation both in vitro and in vivo, indicating another protective mechanism of AURKA function in diabetic limb ischemia. The changes in lipid peroxidation biomarkers (lipid ROS, GPX4, SLC7A11, ALOX5, and ASLC4) in in vitro and in vivo were suggestive of the possible involvement of ferroptosis and interaction between AUKRA and ferroptosis in diabetic limb ischemia, which need further investigation. Conclusions: These results implicated a potent role of AURKA in diabetes-related impairment of ischemia-mediated angiogenesis and implied a potential therapeutic target for ischemic diseases of diabetes. [ABSTRACT FROM AUTHOR]

Published

2023

46. Differential translation of mRNA isoforms underlies oncogenic activation of cell cycle kinase Aurora A

Author

Roberta Cacioppo, Hesna Begum Akman, Taner Tuncer, Ayse Elif Erson-Bensan, and Catherine Lindon

Subjects

3′ UTR, translation, cell cycle, miRNA, AURKA, Medicine, Science, Biology (General), QH301-705.5

Abstract

Aurora Kinase A (AURKA) is an oncogenic kinase with major roles in mitosis, but also exerts cell cycle- and kinase-independent functions linked to cancer. Therefore, control of its expression, as well as its activity, is crucial. A short and a long 3′UTR isoform exist for AURKA mRNA, resulting from alternative polyadenylation (APA). We initially observed that in triple-negative breast cancer, where AURKA is typically overexpressed, the short isoform is predominant and this correlates with faster relapse times of patients. The short isoform is characterized by higher translational efficiency since translation and decay rate of the long isoform are targeted by hsa-let-7a tumor-suppressor miRNA. Additionally, hsa-let-7a regulates the cell cycle periodicity of translation of the long isoform, whereas the short isoform is translated highly and constantly throughout interphase. Finally, disrupted production of the long isoform led to an increase in proliferation and migration rates of cells. In summary, we uncovered a new mechanism dependent on the cooperation between APA and miRNA targeting likely to be a route of oncogenic activation of human AURKA.

Published

2023

47. NEDD9 Overexpression Causes Hyperproliferation of Luminal Cells and Cooperates with HER2 Oncogene in Tumor Initiation: A Novel Prognostic Marker in Breast Cancer.

Author

Purazo, Marc L., Ice, Ryan J., Shimpi, Rahul, Hoenerhoff, Mark, and Pugacheva, Elena N.

Subjects

*BREAST cancer prognosis, *PROTEIN metabolism, *ONCOGENES, *ANIMAL experimentation, *EPIDERMAL growth factor receptors, *NEOPLASTIC cell transformation, *HYPERPLASIA, *CANCER patients, *RESEARCH funding, *CELL proliferation, *PROGRESSION-free survival, *EPITHELIAL cells, *MICE, *PHENOTYPES

Abstract

Simple Summary: Neural precursor cell expressed, developmentally downregulated protein 9 (NEDD9) is an adaptor protein that promotes integrin/RTK signaling. The overexpression of NEDD9 in HER2+ breast cancer correlates with reduced relapse-free survival. We generated a conditional transgenic mouse model of NEDD9 overexpression. When crossed with MMTV-Cre+ mice, NEDD9 upregulation led to mammary intraepithelial neoplasia (MIN) at an early age, and this phenotype was further exacerbated by Erbb2/(neu) oncogene. NEDD9 overexpression induces expansion of the mammary epithelial tree, with increased tertiary and terminal end buds (TEBs). The expression of NEDD9 increased the number of luminal epithelial cells, as shown by Keratin 8/Keratin 5 and Ki67 staining. Consistent with these studies, NEDD9 promoted the 2D proliferation and 3D mammary acini formation by normal human MCF10A cells. These findings support the role of NEDD9 in the early stages of HER2+ cancer, selectively impacting the proliferation of luminal epithelial cells, hence setting permissive conditions for tumorigenesis. HER2 overexpression occurs in 10–20% of breast cancer patients. HER2+ tumors are characterized by an increase in Ki67, early relapse, and increased metastasis. Little is known about the factors influencing early stages of HER2- tumorigenesis and diagnostic markers. Previously, it was shown that the deletion of NEDD9 in mouse models of HER2 cancer interferes with tumor growth, but the role of NEDD9 upregulation is currently unexplored. We report that NEDD9 is overexpressed in a significant subset of HER2+ breast cancers and correlates with a limited response to anti-HER2 therapy. To investigate the mechanisms through which NEDD9 influences HER2-dependent tumorigenesis, we generated MMTV-Cre-NEDD9 transgenic mice. The analysis of mammary glands shows extensive ductal epithelium hyperplasia, increased branching, and terminal end bud expansion. The addition of oncogene Erbb2 (neu) leads to the earlier development of early hyperplastic benign lesions (~16 weeks), with a significantly shorter latency than the control mice. Similarly, NEDD9 upregulation in MCF10A-derived acini leads to hyperplasia-like DCIS. This phenotype is associated with activation of ERK1/2 and AURKA kinases, leading to an increased proliferation of luminal cells. These findings indicate that NEDD9 is setting permissive conditions for HER2-induced tumorigenesis, thus identifying this protein as a potential diagnostic marker for early detection. [ABSTRACT FROM AUTHOR]

Published

2023

48. The CNS-penetrating taxane drug TPI 287 potentiates antiglioma activity of the AURKA inhibitor alisertib in vivo.

Author

Sak, Müge, Williams, Brian J., Zumbar, Cory T., Teer, Landon, Al-Kawaaz, Mustafa N. G., Kakar, Aastha, Hey, Andrew J., Wilson, Megan J., Schier, Leslie M., Chen, Joseph, and Lehman, Norman L.

Subjects

*BCL-2 proteins, *GLIOBLASTOMA multiforme, *AURORA kinases, *PROTEIN expression, *WESTERN immunoblotting, *ANNEXINS

Abstract

Introduction: Glioblastoma (GBM) has a very poor prognosis despite current treatment. We previously found cytotoxic synergy between the AURKA inhibitor alisertib and the CNS-penetrating taxane TPI 287 against GBM tumor cells in vitro. Methods: We used an orthotopic human GBM xenograft mouse model to test if TPI 287 potentiates alisertib in vivo. Western blotting, immunohistochemistry, siRNA knockdown, annexin V binding, and 3-dimensional Matrigel invasion assays were used to investigate potential mechanisms of alisertib and TPI 287 treatment interactions. Results: Alisertib + TPI 287 combination therapy significantly prolonged animal survival compared to vehicle (p = 0.011), but only marginally compared to alisertib alone. Alisertib, TPI 287, and combined alisertib + TPI 287 reduced animal tumor volume compared to vehicle-treated controls. This was statistically significant for the combination therapy at 4 weeks (p < 0.0001). Alisertib + TPI 287 treatment decreased anti-apoptotic Bcl-2 protein levels in vivo and in vitro. Expression of the pro-apoptotic protein Bak was significantly increased by combination treatment (p < 0.0001). Pro-apoptotic Bim and Bak knockdown by siRNA decreased apoptosis by alisertib + TPI 287 in GB9, GB30, and U87 cells (p = 0.0005 to 0.0381). Although alisertib and TPI 287 significantly reduced GBM cell invasion (p < 0.0001), their combination was no more effective than TPI 287 alone. Conclusions: Results suggest that apoptosis is the dominant mechanism of potentiation of GBM growth inhibition by alisertib + TPI 287, in part through effects on Bcl-2 family proteins, providing a rationale for further laboratory testing of an AURKA inhibitor plus TPI 287 as a potential therapy against GBM. [ABSTRACT FROM AUTHOR]

Published

2023

49. Anlotinib induces apoptosis and second growth/mitosis phase block in cisplatin-resistant ovarian cancer cells via the aurora kinase A/p53 pathway.

Author

Wang, Hongli and Wang, Yu

Subjects

*THERAPEUTIC use of antineoplastic agents, *PROTEIN kinases, *FLOW cytometry, *REVERSE transcriptase polymerase chain reaction, *OVARIAN tumors, *STAINS & staining (Microscopy), *ANIMAL experimentation, *WESTERN immunoblotting, *FLUOROIMMUNOASSAY, *APOPTOSIS, *ANTINEOPLASTIC agents, *PROTEIN-tyrosine kinase inhibitors, *CELL cycle, *CELLULAR signal transduction, *CELL survival, *BIOINFORMATICS, *CISPLATIN, *GENE expression profiling, *CELL lines, *PROGRESSION-free survival, *DRUG resistance in cancer cells, *MICE, *PHARMACODYNAMICS

Abstract

Background: Cisplatin (DDP) resistance in ovarian cancer (OC) patients usually leads to treatment failure and increased mortality. Anlotinib has been shown to improve progression-free survival and overall survival in patients with platinum-resistant ovarian cancer, but the mechanism is unclear. This study aims to explore the mechanism by which anlotinib ameliorates platinum resistance in OC cells. Methods: Cell viability was detected by the 3-4,5-dimethylthiazol-2,5-diphenyltetrazolium bromide (MTT) method, and the apoptosis rate and changes in the cell cycle distribution were evaluated by flow cytometry. Bioinformatics analysis was used to predict the potential gene target of anlotinib in DDP-resistance SKOV3 cells, and its expression was verifies it by RT-qPCR, western blotting and immunofluorescence staining. Finally, ovarian cancer cells overexpressing AURKA were constructed, and the predicted results were verified by animal experiments. Results: Anlotinib effectively induced apoptosis and G2/M arrest in OC cells and decreased the proportion of EdU-positive cells. AURKA was identified as a possible key target of anlotinib for inhibiting tumorigenic behaviors in SKOV3/DDP cells. Through combined immunofluorescence and western blot analyses, it was demonstrated that anlotinib could effectively inhibit the protein expression of AURKA and upregulate the expression of p53/p21, CDK1, and Bax protein. After overexpression of AURKA in OC cells, the induction of apoptosis and G2/M arrest by anlotinib were significantly inhibited. Anlotinib also effectively inhibited the growth of tumors in nude mice injected with OC cells. Conclusions: This study demonstrated that anlotinib can induce apoptosis and G2/M arrest in cisplatin-resistant ovarian cancer cells through the AURKA/p53 pathway. [ABSTRACT FROM AUTHOR]

Published

2023

50. Aurora kinase a promotes the progression of papillary thyroid carcinoma by activating the mTORC2-AKT signalling pathway.

Author

Zhao, Zewei, Wang, Huijuan, Kang, Ning, Wang, Zhongyu, Hou, Xiukun, Hu, Linfei, Qie, Shuo, Guo, Jianping, Wei, Songfeng, Ruan, Xianhui, and Zheng, Xiangqian

Subjects

*AURORA kinases, *PAPILLARY carcinoma, *THYROID cancer, *CELLULAR signal transduction, *UBIQUITINATION, *UBIQUITIN ligases, *LYMPHATIC metastasis

Abstract

Background: Treatment failure is the main cause of death from papillary thyroid carcinoma (PTC). It is urgent to look for new intervention targets and to develop new therapies for treating PTC. Aurora-A kinase (AURKA) functionally regulates cell mitosis and is closely related to the occurrence and development of a variety of tumours. However, the expression and potential functions of AURKA in PTC remain largely elusive. Results: Clinicopathologically, AURKA is highly expressed in PTC tissues compared to normal tissues and is correlated with lymph node metastasis, TNM stage and patient prognosis. Biologically, AURKA functions as an oncoprotein to promote the proliferation and migration of PTC cells. Mechanistically, AURKA directly binds to SIN1 and compromises CUL4B-based E3 ligase-mediated ubiquitination and subsequent degradation of SIN1, leading to hyperactivation of the mTORC2-AKT pathway in PTC cells. Conclusions: We found that AURKA plays critical roles in regulating the progression of PTC by activating the mTORC2-AKT pathway, highlighting the potential of targeting AURKA to treat PTC. [ABSTRACT FROM AUTHOR]

Published

2022