Your search keyword '"Nutlin-3a"' showing total 155 results

1. MDM2 up-regulates the energy metabolism in NSCLC in a p53-independent manner

Author

Fefilova, Elizaveta, Kirdeeva, Yulia, Parfenyev, Sergey, Daks, Alexandra, Fedorova, Olga, Sorokina, Margarita, Ha, Nguyen Xuan, Huong, Tran Thu, Loc, Vu Thanh, Hai, Pham The, Cuong, Nguyen Manh, Barlev, Nickolai, and Shuvalov, Oleg

Published

2025

2. Role of Annexin 7 (ANXA7) as a Tumor Suppressor and a Regulator of Drug Resistance in Thyroid Cancer.

Author

Bera, Alakesh, Radhakrishnan, Surya, Puthillathu, Narayanan, Subramanian, Madhan, Gana, Nahbuma, Russ, Eric, Pollard, Harvey B., and Srivastava, Meera

Subjects

*DRUG resistance in cancer cells, *CYCLIN-dependent kinase inhibitors, *GENE expression, *PATIENT experience, *THYROID cancer, *P53 protein

Abstract

Thyroid cancer is the most common endocrine malignancy in the United States, with an overall favorable prognosis. However, some patients experience poor outcomes due to the development of resistance to conventional therapies. Genetic alterations, including mutations in BRAF, Met, and p53, play critical roles in thyroid cancer progression, with the BRAF V600E mutation detected in over 60% of cases. This study investigates the tumor-suppressive role of Annexin A7 (ANXA7) in thyroid cancer, focusing on its potential impact on tumor behavior and therapeutic response. Our analysis, which included RNA sequencing and protein profiling, revealed reduced ANXA7 expression in thyroid cancer cells, particularly in those harboring the BRAF V600E mutation. Upon treatment with inhibitors targeting BRAF and MEK, ANXA7 expression increased, leading to reduced phosphorylation of ERK and activation of apoptotic pathways. Additionally, we identified the cyclin-dependent kinase inhibitor p21 as a key player in modulating resistance to BRAF inhibitors. Combination therapies aimed at concurrently increasing p21 and ANXA7 levels resulted in a marked enhancement of apoptosis. These findings suggest a previously uncharacterized regulatory network involving the ANXA7/p21/BRAF/MAPK/p53 axis, which may contribute to drug resistance in thyroid cancer. This study provides new insights into overcoming resistance to BRAF and MAPK inhibitors, with implications for treating thyroid cancer and potentially other BRAF-mutant tumors. Future efforts will focus on high-throughput screening approaches to explore ANXA7-targeted therapeutic strategies for thyroid cancer. [ABSTRACT FROM AUTHOR]

Published

2024

3. Enhanced Anti-Melanoma Activity of Nutlin-3a Delivered via Ethosomes: Targeting p53-Mediated Apoptosis in HT144 Cells.

Author

Romani, Arianna, Lodi, Giada, Casciano, Fabio, Gonelli, Arianna, Secchiero, Paola, Zauli, Giorgio, Bortolini, Olga, Valacchi, Giuseppe, Ragno, Daniele, Bondi, Agnese, Benedusi, Mascia, Esposito, Elisabetta, and Voltan, Rebecca

Subjects

*CELL morphology, *CELL cycle, *LIPID rafts, *PROTEIN expression, *WESTERN immunoblotting, *NOTCH genes

Abstract

This study evaluated ethosomes as a novel nanodelivery system for nutlin-3a, a known MDM2 inhibitor and activator of the p53 pathway, to improve nutlin-3a's poor solubility, limiting its bio-distribution and therapeutic efficacy. The potential of nutlin-3a-loaded ethosomes was investigated on two in vitro models of melanoma: the HT144 cell line p53wild-type and the SK-MEL-28 cell line p53mutated. Nutlin-3a-loaded ethosomes were characterized for their physicochemical properties and used to treat melanoma cells at different concentrations, considering nutlin-3a solution and empty ethosomes as controls. The biological effects on cells were evaluated 24 and 48 h after treatment by analyzing the cell morphology and viability, cell cycle, and apoptosis rate using flow cytometry and the p53 pathway's activation via Western blotting. The results indicate that ethosomes are delivery systems able to maintain nutlin-3a's functionality and specific biological action, as evidenced by the molecular activation of the p53 pathway and the biological events leading to cell cycle block and apoptosis in p53wild-type cells. Nutlin-3a-loaded ethosomes induced morphological changes in the HT144 cell line, with evident apoptotic cells and a reduction in the number of viable cells of over 80%. Furthermore, nutlin-3a-loaded ethosomes successfully modulated two p53-regulated proteins involved in survival/apoptosis, with up to a 2.5-fold increase in membrane TRAIL-R2 and up to an 8.2-fold decrease in Notch-1 (Notch intracellular domain, NICD) protein expression. The expression of these molecules is known to be altered or dysfunctional in a large percentage of melanoma tumors. Notably, ethosomes, regardless of their nutlin-3a loading, exhibited the ability to reduce HT144 melanoma cellular migration, as assessed in real time using xCELLigence, likely due to the modification of lipid rafts, suggesting their potential antimetastatic properties. Overall, nutlin-3a delivery using ethosomes appears to be a significantly effective means for upregulating the p53 pathway and downregulating active Notch-1, while also taking advantage of their unexpected ability to reduce cellular migration. The findings of this study could pave the way for the development of specific nutlin-3a-loaded ethosome-based medicinal products for cutaneous use. [ABSTRACT FROM AUTHOR]

Published

2024

4. Enzymatic Desymmetrisation of Prochiral meso -1,2-Disubstituted-1,2-Diaminoethane for the Synthesis of Key Enantioenriched (−)-Nutlin-3 Precursor.

Author

Cristofori, Virginia, Illuminati, Davide, Bisquoli, Chiara, Catani, Martina, Compagnin, Greta, Turrin, Giulia, Trapella, Claudio, and Fantinati, Anna

Subjects

*BIOCATALYSIS, *CATALYTIC activity, *CATALYSIS, *LIPASES, *CARBONATES

Abstract

Herein we present the biocatalysed preparation of a mono-N-carbamate-protected precursor of antitumoral Nutlin-3a through enantioselective alkoxycarbonylation of meso-1,2-disubstituted-1,2-diaminoethane using enzyme lipases and dialkyl carbonates as acylating agents. A series of supported or free lipase enzymes were screened in combination with commercially available diallyl, diethyl and dimethyl carbonates. The reactions were conducted at different temperatures, for different reaction times and with variable co-solvent systems to evaluate the effects on the enzyme catalytic activity. The best results in terms of conversion, enantiomeric excess and yield were obtained when lipase from Candida antarctica B (CAL-B) was used with diallyl carbonate (DAC) when conducting the reaction solventless at 75 °C. [ABSTRACT FROM AUTHOR]

Published

2024

5. Microfluidic Fabricated Liposomes for Nutlin-3a Ocular Delivery as Potential Candidate for Proliferative Vitreoretinal Diseases Treatment

Author

Esposito E, Pozza E, Contado C, Pula W, Bortolini O, Ragno D, Toldo S, Casciano F, Bondi A, Zauli E, Secchiero P, Zauli G, and Melloni E

Subjects

nutlin-3a, liposomes, microfluidic, pvds, cfff, Medicine (General), R5-920

Abstract

Elisabetta Esposito,1 Elena Pozza,2 Catia Contado,1 Walter Pula,1 Olga Bortolini,3 Daniele Ragno,1 Sofia Toldo,3 Fabio Casciano,4 Agnese Bondi,1 Enrico Zauli,2 Paola Secchiero,4 Giorgio Zauli,3 Elisabetta Melloni4 1Department of Chemical, Pharmaceutical and Agricultural Sciences, University of Ferrara, Ferrara, I-44121, Italy; 2Department of Translational Medicine, University of Ferrara, Ferrara, I-44121, Italy; 3Department of Environmental Sciences and Prevention, University of Ferrara, Ferrara, I-44121, Italy; 4Department of Translational Medicine and LTTA Centre, University of Ferrara, Ferrara, I-44121, ItalyCorrespondence: Elisabetta Esposito; Elisabetta Melloni, Tel +39 0532 455230 ; +39 0532 455936, Email ese@unife.it; elisabetta.melloni@unife.itPurpose: Proliferative vitreoretinal diseases (PVDs) represent a heterogeneous group of pathologies characterized by the presence of retinal proliferative membranes, in whose development retinal pigment epithelium (RPE) is deeply involved. As the only effective treatment for PVDs at present is surgery, we aimed to investigate the potential therapeutic activity of Nutlin-3a, a small non-genotoxic inhibitor of the MDM2/p53 interaction, on ARPE-19 cell line and on human RPE primary cells, as in vitro models of RPE and, more importantly, to formulate and evaluate Nutlin-3a loaded liposomes designed for ophthalmic administration.Methods: Liposomes were produced using an innovative approach by a microfluidic device under selection of different conditions. Liposome size distribution was evaluated by photon correlation spectroscopy and centrifugal field flow fractionation, while the liposome structure was studied by transmission electron microscopy and Fourier-transform infrared spectroscopy. The Nutlin-3a entrapment capacity was evaluated by ultrafiltration and HPLC. Nutlin-3a biological effectiveness as a solution or loaded in liposomes was evaluated by viability, proliferation, apoptosis and migration assays and by morphological analysis.Results: The microfluidic formulative study enabled the selection of liposomes composed of phosphatidylcholine (PC) 5.4 or 8.2 mg/mL and 10% ethanol, characterized by roundish vesicular structures with 150– 250 nm mean diameters. Particularly, liposomes based on the lower PC concentration were characterized by higher stability. Nutlin-3a was effectively encapsulated in liposomes and was able to induce a significant reduction of viability and migration in RPE cell models.Conclusion: Our results lay the basis for a possible use of liposomes for the ocular delivery of Nutlin-3a. Keywords: Nutlin-3a, liposomes, microfluidic, PVDs, CFFF

Published

2024

6. Photoacoustic features of nylon-11 nanoparticles for breast cancer imaging, and their modification with trastuzumab, sorafenib, and nutlin-3a for theranostic applications

Author

Özlem Şen, Paolo Armanetti, Alessio Carmignani, Federico Catalano, Giammarino Pugliese, Luca Menichetti, and Gianni Ciofani

Subjects

Breast cancer, Nylon nanoparticles, Photoacoustic imaging, Trastuzumab, Sorafenib, Nutlin-3a, Technology

Abstract

Breast cancer is a complex and diverse disease that requires accurate diagnostic methods and customized treatment approaches to enhance patient outcomes. In this study, we investigate the potential of nylon-11 nanoparticles (nylon NPs) for both imaging and therapy of breast cancer. Nylon NPs possess excellent photoacoustic properties, which enable them to detect and locate drug delivery to the tumor with high sensitivity. This suggests that nylon NPs may be a valuable tool for improving breast cancer diagnosis and treatment. Comprehensive characterization has been performed, including morphological analysis and spectroscopic studies. Further modification with diagnostic and therapeutic agents, such as trastuzumab, sorafenib, and nutlin-3a, enhances their specificity and efficacy in targeting breast cancer cells. The drug-loaded nanoparticles exhibit controlled release profiles under various pH conditions, mimicking the tumor microenvironment. Cytocompatibility studies reveal the biocompatibility of bare nylon NPs, while drug-loaded nanoparticles show concentration-dependent cytotoxic effects, indicating their potential as therapeutic agents. Moreover, cellular internalization studies confirm the efficient uptake by breast cancer cells. Overall, this research lays the groundwork for the development of novel nanomedicine approaches aimed at addressing the challenges associated with breast cancer diagnosis and treatment, offering promising avenues for precise cancer management.

Published

2024

7. Nutlin-3a induces KRAS mutant/p53 wild type lung cancer specific methuosis-like cell death that is dependent on GFPT2

Author

Dasom Kim, Dongwha Min, Joohee Kim, Min Jung Kim, Yerim Seo, Byung Hwa Jung, Seung‑Hae Kwon, Hyunju Ro, Seoee Lee, Jason K. Sa, and Ji-Yun Lee

Subjects

KRAS mutation, GFPT2, HBP, Macropinocytosis, Nutlin-3a, Methuosis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Oncogenic KRAS mutation, the most frequent mutation in non-small cell lung cancer (NSCLC), is an aggressiveness risk factor and leads to the metabolic reprogramming of cancer cells by promoting glucose, glutamine, and fatty acid absorption and glycolysis. Lately, sotorasib was approved by the FDA as a first-in-class KRAS-G12C inhibitor. However, sotorasib still has a derivative barrier, which is not effective for other KRAS mutation types, except for G12C. Additionally, resistance to sotorasib is likely to develop, demanding the need for alternative therapeutic strategies. Methods KRAS mutant, and wildtype NSCLC cells were used in vitro cell analyses. Cell viability, proliferation, and death were measured by MTT, cell counting, colony analyses, and annexin V staining for FACS. Cell tracker dyes were used to investigate cell morphology, which was examined by holotomograpy, and confocal microscopes. RNA sequencing was performed to identify key target molecule or pathway, which was confirmed by qRT-PCR, western blotting, and metabolite analyses by UHPLC-MS/MS. Zebrafish and mouse xenograft model were used for in vivo analysis. Results In this study, we found that nutlin-3a, an MDM2 antagonist, inhibited the KRAS-PI3K/Akt-mTOR pathway and disrupted the fusion of both autophagosomes and macropinosomes with lysosomes. This further elucidated non-apoptotic and catastrophic macropinocytosis associated methuosis-like cell death, which was found to be dependent on GFPT2 of the hexosamine biosynthetic pathway, specifically in KRAS mutant /p53 wild type NSCLC cells. Conclusion These results indicate the potential of nutlin-3a as an alternative agent for treating KRAS mutant/p53 wild type NSCLC cells.

Published

2023

8. New Insights into Chemoresistance Mediated by Mdm2 Inhibitors: The Benefits of Targeted Therapy over Common Cytostatics.

Author

Grigoreva, Tatyana, Sagaidak, Aleksandra, Novikova, Daria, and Tribulovich, Vyacheslav

Subjects

DRUG resistance in cancer cells, PACLITAXEL, ANTINEOPLASTIC agents, PROTEIN-protein interactions, CELL lines, DRUG resistance

Abstract

The inhibition of the Mdm2-p53 protein–protein interaction is a promising strategy for anticancer therapy. However, the problem of developing secondary chemoresistance in tumors treated with such drugs has not yet been sufficiently studied. In this work, we compared the properties of a drug-resistant cell line obtained during long-term cultivation in the presence of an Mdm2 inhibitor, Nutlin-3a, with a similarly obtained line insensitive to the cytostatic drug paclitaxel. We first confirmed the higher safety levels of Mdm2 inhibitors when compared with cytostatics in terms of the development of secondary chemoresistance. We showed that Nutlin-3a affects both the targeted p53-mediated cellular machinery and the universal ABC-mediated efflux mechanism. While both targeted and general defense mechanisms are activated by the Mdm2 inhibitor, it still increases the susceptibility of tumor cells to other drugs. The results obtained indicate that the risks of developing chemoresistance under the therapy with a targeted agent are fundamentally lower than during cytotoxic therapy. [ABSTRACT FROM AUTHOR]

Published

2024

9. Delineating mechanisms which underlie differential cell fates induced by p53 activation and HDAC inhibition in colorectal cancer

Author

Lees, Andrea, McDade, Simon, and Longley, Daniel

Subjects

616.99, p53, Cell death, Nutlin-3A, Entinostat, Apoptosis, FLIP, HDAC inhibitors

Abstract

The tumour suppressor p53 is the most frequently mutated gene in human cancer with loss or suppression of wild-type function thought to be a prerequisite for the development of most malignancies. In colorectal cancer (CRC), approximately 50% of tumours harbour mutations in the TP53 gene, whilst the remaining wild-type tumours suppress or circumvent p53 activation via non-mutational mechanisms. This includes dysregulation of the p14ARF/MDM2 axis which constitutes the major mechanism for inducing p53 stabilisation within the cell. Strategies aimed at reactivating latent wild-type p53 in such tumours therefore hold enormous clinical potential. This led to the development of small molecule inhibitors of the E3 ubiquitin ligase, MDM2, which normally targets p53 for degradation and disrupts its transcription factor activity. Blocking this negative MDM2-p53 interaction results in rapid stabilisation of p53 protein, however, this most often leads to the activation of p53-induced cell cycle arrest rather than cell death. Understanding the mechanisms which are responsible for this decision making process are therefore of great importance in order to utilise these compounds and augment the efficacy of other therapeutic agents that activate p53. Recent work in our lab has demonstrated that combination of direct (MDM2 inhibition) or indirect (DNA-damaging chemotherapy) p53 activation with inhibitors of nuclear Class-I Histone deacetylases (HDACi) is effective in enhancing p53- dependent apoptotic cell death in multiple models of CRC. Interestingly, despite a notable switch in phenotype from cell cycle arrest to cell death, few changes in the mRNA and protein expression of pro-apoptotic p53 targets were observed following combined treatment with the MDM2 inhibitor, Nutlin-3A, and the Class I specific HDACi, Entinostat, when compared to Nutlin-3A treatment alone. Indeed, the addition of Entinostat was instead found to decrease the expression of p53 induced anti-apoptotic proteins which most notably included the only known pseudo-caspase and cell death regulatory protein, FLIPL. The work presented in this thesis builds upon these previous observations and delves into the complex mechanisms and pathways responsible for the synergistic induction of cell death following combined MDM2- and HDAC-inhibition in p53 wild-type models of CRC. Using both functional genomics and molecular techniques, this work identifies FLIPL as a direct, p53-induced transcriptional target which is potently upregulated by Nutlin-3A and suppressed by Entinostat. Importantly, both pharmacological and mutational inhibition of the NFκB pathway reveal that the Nutlin-3A-induced upregulation of FLIPL occurs independently of its canonical regulation by NFκB, further supporting the p53-dependent nature of this response. Phenotypic analyses conducted by Annexin V/PI flow cytometry reveal that whilst treatment with Nutlin-3A or Entinostat alone fail to induce cell death, combining these agents significantly increases the induction of apoptotic cell death in a p53- dependent manner. In order to delineate the role of Entinostat mediated FLIPL downregulation in the cell death resulting from the combined Nutlin-3A/Entinostat treatment, siRNA-mediated FLIPL depletion was used to successfully phenocopy this result. Subsequently, further mechanistic analyses demonstrated that p53-mediated FLIPL upregulation blocks the induction of apoptosis by inhibiting caspase-8 activation at a TRAIL-R2/DR5 death inducing signalling complex. Notably, the activation of this p53-induced complex occurs independently of canonical TRAIL ligand binding. In addition to the early induction of caspase-8 dependent apoptotic cell death, this work reveals that depleting FLIPL in combination with p53 activation can also result in the induction of caspase-8 independent cell death at later timepoints. Herein, the p53 transcriptional target and caspase-8 paralog, caspase-10, is demonstrated to compensate for the loss of caspase-8 in order to induce apoptosis, albeit to a lesser extent than in caspase-8 proficient cells. Moreover, FLIPL is also revealed to modulate the expression of p53 transcriptional targets such that in the absence of both caspase-8 and -10 cell death can still proceed. Depleting FLIPL is shown to suppress the p53-induced expression of the cell-cycle inhibitor, p21, whilst simultaneously enhancing the p53-induced expression of the pro-apoptotic protein, PUMA. Indeed, this upregulation of PUMA significantly contributes to the cell death induced by FLIPL depletion and p53 activation at later timepoints. Thus, the results presented in this thesis identify novel, clinically-relevant biology in which FLIPL acts to determine cell fate following p53 activation. Therapeutically targeting FLIPL with Entinostat therefore represents a viable means of overcoming FLIPL-mediated resistance to MDM2-inhibitors in tumours retaining wild-type p53.

Published

2021

10. Nutlin-3a induces KRAS mutant/p53 wild type lung cancer specific methuosis-like cell death that is dependent on GFPT2.

Author

Kim, Dasom, Min, Dongwha, Kim, Joohee, Kim, Min Jung, Seo, Yerim, Jung, Byung Hwa, Kwon, Seung‑Hae, Ro, Hyunju, Lee, Seoee, Sa, Jason K., and Lee, Ji-Yun

Subjects

CELL death, WARBURG Effect (Oncology), GLUTAMINE, RAS oncogenes, LUNG cancer, NON-small-cell lung carcinoma, CELL morphology

Abstract

Background: Oncogenic KRAS mutation, the most frequent mutation in non-small cell lung cancer (NSCLC), is an aggressiveness risk factor and leads to the metabolic reprogramming of cancer cells by promoting glucose, glutamine, and fatty acid absorption and glycolysis. Lately, sotorasib was approved by the FDA as a first-in-class KRAS-G12C inhibitor. However, sotorasib still has a derivative barrier, which is not effective for other KRAS mutation types, except for G12C. Additionally, resistance to sotorasib is likely to develop, demanding the need for alternative therapeutic strategies. Methods: KRAS mutant, and wildtype NSCLC cells were used in vitro cell analyses. Cell viability, proliferation, and death were measured by MTT, cell counting, colony analyses, and annexin V staining for FACS. Cell tracker dyes were used to investigate cell morphology, which was examined by holotomograpy, and confocal microscopes. RNA sequencing was performed to identify key target molecule or pathway, which was confirmed by qRT-PCR, western blotting, and metabolite analyses by UHPLC-MS/MS. Zebrafish and mouse xenograft model were used for in vivo analysis. Results: In this study, we found that nutlin-3a, an MDM2 antagonist, inhibited the KRAS-PI3K/Akt-mTOR pathway and disrupted the fusion of both autophagosomes and macropinosomes with lysosomes. This further elucidated non-apoptotic and catastrophic macropinocytosis associated methuosis-like cell death, which was found to be dependent on GFPT2 of the hexosamine biosynthetic pathway, specifically in KRAS mutant /p53 wild type NSCLC cells. Conclusion: These results indicate the potential of nutlin-3a as an alternative agent for treating KRAS mutant/p53 wild type NSCLC cells. [ABSTRACT FROM AUTHOR]

Published

2023

11. New Insights into Chemoresistance Mediated by Mdm2 Inhibitors: The Benefits of Targeted Therapy over Common Cytostatics

Author

Tatyana Grigoreva, Aleksandra Sagaidak, Daria Novikova, and Vyacheslav Tribulovich

Subjects

Nutlin-3a, paclitaxel, cytostatics, drug resistance, MDR, P-glycoprotein, Biology (General), QH301-705.5

Abstract

The inhibition of the Mdm2-p53 protein–protein interaction is a promising strategy for anticancer therapy. However, the problem of developing secondary chemoresistance in tumors treated with such drugs has not yet been sufficiently studied. In this work, we compared the properties of a drug-resistant cell line obtained during long-term cultivation in the presence of an Mdm2 inhibitor, Nutlin-3a, with a similarly obtained line insensitive to the cytostatic drug paclitaxel. We first confirmed the higher safety levels of Mdm2 inhibitors when compared with cytostatics in terms of the development of secondary chemoresistance. We showed that Nutlin-3a affects both the targeted p53-mediated cellular machinery and the universal ABC-mediated efflux mechanism. While both targeted and general defense mechanisms are activated by the Mdm2 inhibitor, it still increases the susceptibility of tumor cells to other drugs. The results obtained indicate that the risks of developing chemoresistance under the therapy with a targeted agent are fundamentally lower than during cytotoxic therapy.

Published

2024

12. Targeting the MDM2-MDM4 interaction interface reveals an otherwise therapeutically active wild-type p53 in colorectal cancer.

Author

Valentini S, Mele G, Attili M, Assenza MR, Saccoccia F, Sardina F, Rinaldo C, Massari R, Tirelli N, Pontecorvi A, and Moretti F

Abstract

Targeting the heterodimer MDM2/MDM4 is a novel and effective route for the reactivation of wild-type p53 in human tumors with reduced toxicity in nontransformed cells. To improve the therapeutic potential of peptides that interfere with MDM4 binding to MDM2, we demonstrated the tumor-suppressive activity of a short peptide (Pep3S), which is composed of the last five amino acids of the MDM4 protein. Compared to longer peptides (previously identified), Pep3S binds MDM2 with high affinity, increases p53-dependent cell death in 2D and 3D colorectal cancer models, and is more efficacious in suppressing xenograft tumor growth. Furthermore, its encapsulation in poly (lactic-co-glycolic acid) (PLGA) nanoparticles potentiated and prolonged its activity. A p53-specific target gene array revealed an uncommon p53 signature, with Pep3S leading to p53-mediated repression of a subset of p53 targets. Comparative analysis indicated that this repression is driven by p53-mediated activation of miR-34a, which is functional in Pep3S-induced cell death. Of note, unlike other p53-reactivating molecules, Pep3S led to significant downregulation of the cell cycle inhibitor CDKN1A/p21, one of the best-characterized p53-targets. Genetic manipulation of MDM4 demonstrated the requirement of the dissociated protein for p21 downregulation, whereas the miR-34a signature was not altered. At odds with Nutlin-3a, the proliferation status of nontumor muscle and lymphoblastoid cells was not altered by Pep3S. These data indicate that targeting the MDM2/MDM4 interaction region provides a different route for wild-type p53 reactivation in human tumors, potentially reducing toxicity to proliferating nontumor tissue. The development of a PLGA/Pep3S formulation represents a promising approach for therapeutic purposes., (© 2025 The Author(s). Molecular Oncology published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published

2025

13. Resistance mechanisms to inhibitors of p53-MDM2 interactions in cancer therapy: can we overcome them?

Author

Lucia Haronikova, Ondrej Bonczek, Pavlina Zatloukalova, Filip Kokas-Zavadil, Martina Kucerikova, Philip J. Coates, Robin Fahraeus, and Borivoj Vojtesek

Subjects

p53, MDM2, MDM2 inhibitor, Nutlin-3a, Resistance, Combination therapy, Cytology, QH573-671

Abstract

Abstract Since the discovery of the first MDM2 inhibitors, we have gained deeper insights into the cellular roles of MDM2 and p53. In this review, we focus on MDM2 inhibitors that bind to the p53-binding domain of MDM2 and aim to disrupt the binding of MDM2 to p53. We describe the basic mechanism of action of these MDM2 inhibitors, such as nutlin-3a, summarise the determinants of sensitivity to MDM2 inhibition from p53-dependent and p53-independent points of view and discuss the problems with innate and acquired resistance to MDM2 inhibition. Despite progress in MDM2 inhibitor design and ongoing clinical trials, their broad use in cancer treatment is not fulfilling expectations in heterogenous human cancers. We assess the MDM2 inhibitor types in clinical trials and provide an overview of possible sources of resistance to MDM2 inhibition, underlining the need for patient stratification based on these aspects to gain better clinical responses, including the use of combination therapies for personalised medicine.

Published

2021

14. Modulation of anti-angiogenic activity using ultrasound-activated nutlin-loaded piezoelectric nanovectors

Author

Özlem Şen, Attilio Marino, Carlotta Pucci, and Gianni Ciofani

Subjects

Piezoelectric nanoparticles, Anti-angiogenesis, Invasion, Migration, Nutlin-3a, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Angiogenesis plays a fundamental role in tumor development, as it is crucial for tumor progression, metastasis development, and invasion. In this view, anti-angiogenic therapy has received considerable attention in several cancer types in order to inhibit tumor vascularization, and the progress of nanotechnology offers opportunities to target and release anti-angiogenic agents in specific diseased areas. In this work, we showed that the angiogenic behavior of human cerebral microvascular endothelial cells can be inhibited by using nutlin-3a-loaded ApoE-functionalized polymeric piezoelectric nanoparticles, which can remotely respond to ultrasound stimulation. The anti-angiogenic effect, derived from the use of chemotherapy and chronic piezoelectric stimulation, leads to disruption of tubular vessel formation, decreased cell migration and invasion, and inhibition of angiogenic growth factors in the presence of migratory cues released by the tumor cells. Overall, the proposed use of remotely activated piezoelectric nanoparticles could provide a promising approach to hinder tumor-induced angiogenesis.

Published

2022

15. Ultrasound-responsive nutlin-loaded nanoparticles for combined chemotherapy and piezoelectric treatment of glioblastoma cells.

Author

Pucci, Carlotta, Marino, Attilio, Şen, Özlem, De Pasquale, Daniele, Bartolucci, Martina, Iturrioz-Rodríguez, Nerea, di Leo, Nicoletta, de Vito, Giuseppe, Debellis, Doriana, Petretto, Andrea, and Ciofani, Gianni

Subjects

GLIOBLASTOMA multiforme, BRAIN tumors, NANOPARTICLES, BLOOD-brain barrier, PEPTIDES, CELL migration, DRUG resistance

Abstract

Glioblastoma multiforme (GBM), also known as grade IV astrocytoma, represents the most aggressive primary brain tumor. The complex genetic heterogeneity, the acquired drug resistance, and the presence of the blood-brain barrier (BBB) limit the efficacy of the current therapies, with effectiveness demonstrated only in a small subset of patients. To overcome these issues, here we propose an anticancer approach based on ultrasound-responsive drug-loaded organic piezoelectric nanoparticles. This anticancer nanoplatform consists of nutlin-3a-loaded ApoE-functionalized P(VDF-TrFE) nanoparticles, that can be remotely activated with ultrasound-based mechanical stimulations to induce drug release and to locally deliver anticancer electric cues. The combination of chemotherapy treatment with chronic piezoelectric stimulation resulted in activation of cell apoptosis and anti-proliferation pathways, induction of cell necrosis, inhibition of cancer migration, and reduction of cell invasiveness in drug-resistant GBM cells. Obtained results pave the way for the use of innovative multifunctional nanomaterials in less invasive and more focused anticancer treatments, able to reduce drug resistance in GBM. Piezoelectric hybrid lipid-polymeric nanoparticles, efficiently encapsulating a non-genotoxic drug (nutlin-3a) and functionalized with a peptide (ApoE) that enhances their passage through the BBB, are proposed. Upon ultrasound stimulation, nanovectors resulted able to reduce cell migration, actin polymerization, and invasion ability of glioma cells, while fostering apoptotic and necrotic events. This wireless activation of anticancer action paves the way to a less invasive, more focused and efficient therapeutic strategy. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

16. Resistance mechanisms to inhibitors of p53-MDM2 interactions in cancer therapy: can we overcome them?

Author

Haronikova, Lucia, Bonczek, Ondrej, Zatloukalova, Pavlina, Kokas-Zavadil, Filip, Kucerikova, Martina, Coates, Philip J., Fahraeus, Robin, and Vojtesek, Borivoj

Abstract

Since the discovery of the first MDM2 inhibitors, we have gained deeper insights into the cellular roles of MDM2 and p53. In this review, we focus on MDM2 inhibitors that bind to the p53-binding domain of MDM2 and aim to disrupt the binding of MDM2 to p53. We describe the basic mechanism of action of these MDM2 inhibitors, such as nutlin-3a, summarise the determinants of sensitivity to MDM2 inhibition from p53-dependent and p53-independent points of view and discuss the problems with innate and acquired resistance to MDM2 inhibition. Despite progress in MDM2 inhibitor design and ongoing clinical trials, their broad use in cancer treatment is not fulfilling expectations in heterogenous human cancers. We assess the MDM2 inhibitor types in clinical trials and provide an overview of possible sources of resistance to MDM2 inhibition, underlining the need for patient stratification based on these aspects to gain better clinical responses, including the use of combination therapies for personalised medicine. [ABSTRACT FROM AUTHOR]

Published

2021

17. Induction of synergistic apoptosis by tetramethoxystilbene and nutlin-3a in human cervical cancer cells

Author

An, Hong-Gyu, Shin, Sangyun, Lee, Boyoung, Kwon, Yeonju, Kwon, Tae-Uk, Kwon, Yeo-Jung, and Chun, Young-Jin

Published

2022

18. Nutlin‐3a as a novel anticancer agent for adrenocortical carcinoma with CTNNB1 mutation

Author

Wen Hui, Shenghua Liu, Jie Zheng, Zujun Fang, Qiang Ding, and Chenchen Feng

Subjects

Adrenocortical carcinoma, CTNNB1, MDM2, Nutlin‐3a, TP53, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Adrenocortical carcinoma (ACC) is a rare malignancy, and CTNNB1 is frequently mutated in ACC. Our study aims to screen for effective agents with antineoplastic activity against ACC with CTNNB1 mutation. In‐silico screening of the Genomics of Drug Sensitivity in Cancer (GDSC) database was conducted. Drug sensitivity in cells with CTNNB1 mutation was analyzed and further in vitro and in vivo studies were performed using the compound. Only one compound, Nutlin‐3a, an MDM2 inhibitor, was significantly sensitive in 18 cancer cells with CTNNB1 mutation. Further analysis of the 18 cells revealed no significant efficacy between cells with both CTNNB1 and TP53 mutations indicating concomitant TP53 mutation did not impact on drug efficacy. We verified that Nutlin‐3a inhibited cellular proliferation in ACC cell line NCI‐H295R which harbored CTNNB1 mutation but not in SW13 cells which did not. Nutlin‐3a induced cell apoptosis and G1 cell‐cycle arrest in NCI‐H295R cells. Nutlin‐3a also decreased cellular migration and inhibited epithelial‐to‐mesenchymal transition (EMT) process in terms of EMT index. Nutlin‐3a resulted in decreased β‐catenin level independent of p53 level in NCI‐H295R but not SW13 cells. We also evaluated the effect of Nutlin‐3a on hormonal secretion of NCI‐H295R cells and found it resulted in decreased levels of cortisol, androgen, and progesterone. Nutlin‐3a treatment inhibited ACC tumor growth with no observed toxicity in mice in vivo. Our study has revealed that Nutlin‐3a potently inhibits ACC with CTNNB1 mutation. How p53/MDM2 axis coordinates with Wnt/beta‐Catenin signaling in ACC warrants further study.

Published

2018

19. Combination of a p53-activating CP-31398 and an MDM2 or a FAK inhibitor produces growth suppressive effects in mesothelioma with wild-type p53 genotype.

Author

Zhong, Boya, Shingyoji, Masato, Hanazono, Michiko, Nguyễn, Thi Thanh, Morinaga, Takao, Tada, Yuji, Shimada, Hideaki, Hiroshima, Kenzo, and Tagawa, Masatoshi

Subjects

WESTERN immunoblotting, GENOTYPES, POLY(ADP-ribose) polymerase

Abstract

A majority of mesothelioma had the wild-type p53 genotype but was defective of p53 functions primarily due to a genetic defect in INK4A/ARF region. We examined a growth suppressive activity of CP-31398 which was developed to restore the p53 functions irrespective of the genotype in mesothelioma with wild-type or mutated p53. CP-31398 up-regulated p53 levels in cells with wild-type p53 genotype but induced cell growth suppression in a p53-independent manner. In contrasts, nutlin-3a, an MDM2 inhibitor, increased p53 and p21 levels in mesothelioma with the wild-type p53 genotype and produced growth suppressive effects. We investigated a combinatory effect of CP-31398 and nutlin-2a and found the combination produced synergistic growth inhibition in mesothelioma with the wild-type p53 but not with mutated p53. Western blot analysis showed that the combination increased p53 and the phosphorylation levels greater than treatments with the single agent, augmented cleavages of PARP and caspase-3, and decreased phosphorylated FAK levels. Combination of CP-31398 and defactinib, a FAK inhibitor, also achieved synergistic inhibitory effects and increased p53 with FAK dephosphorylation levels greater than the single treatment. These data indicated that a p53-activating CP-31398 achieved growth inhibitory effects in combination with a MDM2 or a FAK inhibitor and suggested a possible reciprocal pathway between p53 elevation and FAK inactivation. [ABSTRACT FROM AUTHOR]

Published

2020

20. Colorectal cancer triple co-culture spheroid model to assess the biocompatibility and anticancer properties of polymeric nanoparticles.

Author

Bauleth-Ramos, Tomás, Feijão, Tália, Gonçalves, André, Shahbazi, Mohammad-Ali, Liu, Zehua, Barrias, Cristina, Oliveira, Maria José, Granja, Pedro, Santos, Hélder A., and Sarmento, Bruno

Subjects

*MACROPHAGES, *CARCINOMA, *COLORECTAL cancer, *GRANULOCYTE-macrophage colony-stimulating factor, *EXTRACELLULAR matrix, *CANCER cell culture, *NANOPARTICLES

Abstract

Colorectal cancer (CRC) is the third most common and the second deadliest type of cancer worldwide, urging the development of more comprehensive models and of more efficient treatments. Although the combination of nanotechnology with chemo- and immuno-therapy has represented a promising treatment approach, its translation to the clinic has been hampered by the absence of cellular models that can provide reliable and predictive knowledge about the in vivo efficiency of the formulation. Herein, a 3D model based on CRC multicellular tumor spheroids (MCTS) model was developed by combining epithelial colon cancer cells (HCT116), human intestinal fibroblasts and monocytes. The developed MCTS 3D model mimicked several tumor features with cells undergoing spatial organization and producing extracellular matrix, forming a mass of tissue with a necrotic core. Furthermore, monocytes were differentiated into macrophages with an anti-inflammatory, pro-tumor M2-like phenotype. For a combined chemoimmunotherapy effect, spermine-modified acetalated dextran nanoparticles (NPs) loaded with the chemotherapeutic Nutlin-3a (Nut3a) and granulocyte-macrophage colony-stimulating factor (GM-CSF) were produced and tested in 2D cultures and in the MCTS 3D model. NPs were successfully taken-up by the cells in 2D, but in a significant less extent in the 3D model. However, these NPs were able to induce an anti-proliferative effect both in the 2D and in the 3D models. Moreover, Nut3a was able to partially shift the polarization of the macrophages present in the MCTS 3D model towards an anti-tumor M1-like phenotype. Overall, the developed MCTS 3D model showed to recapitulate key features of tumors, while representing a valuable model to assess the effect of combinatorial nano-therapeutic strategies in CRC. In addition, the developed NPs could represent a promising approach for CRC treatment. Unlabelled Image [ABSTRACT FROM AUTHOR]

Published

2020

21. Effects of the Mutant TP53 Reactivator APR-246 on Therapeutic Sensitivity of Pancreatic Cancer Cells in the Presence and Absence of WT-TP53

Author

Stephen L. Abrams, Przemysław Duda, Shaw M. Akula, Linda S. Steelman, Matilde L. Follo, Lucio Cocco, Stefano Ratti, Alberto M. Martelli, Giuseppe Montalto, Maria Rita Emma, Melchiorre Cervello, Dariusz Rakus, Agnieszka Gizak, and James A. McCubrey

Subjects

TP53, mutant TP53 reactivators, nutlin-3a, targeted therapy, PDAC, Cytology, QH573-671

Abstract

The TP53 tumor suppressor is mutated in ~75% of pancreatic cancers. The mutant TP53 protein in pancreatic ductal adenocarcinomas (PDAC) promotes tumor growth and metastasis. Attempts have been made to develop molecules that restore at least some of the properties of wild-type (WT) TP53. APR-246 is one such molecule, and it is referred to as a mutant TP53 reactivator. To understand the potential of APR-246 to sensitize PDAC cells to chemotherapy, we introduced a vector encoding WT-TP53 into two PDAC cell lines, one lacking the expression of TP53 (PANC-28) and one with a gain-of-function (GOF) mutant TP53 (MIA-PaCa-2). APR-246 increased drug sensitivity in the cells containing either a WT or mutant TP53 protein with GOF activity, but not in cells that lacked TP53. The introduction of WT-T53 into PANC-28 cells increased their sensitivity to the TP53 reactivator, chemotherapeutic drugs, and signal transduction inhibitors. The addition of WT-TP53 to PDAC cells with GOF TP53 also increased their sensitivity to the drugs and therapeutics, indicating that APR-246 could function in cells with WT-TP53 and GOF TP53. These results highlight the importance of knowledge of the type of TP53 mutation that is present in cancer patients before the administration of drugs which function through the reactivation of TP53.

Published

2022

22. Metformin produces growth inhibitory effects in combination with nutlin-3a on malignant mesothelioma through a cross-talk between mTOR and p53 pathways

Author

Kengo Shimazu, Yuji Tada, Takao Morinaga, Masato Shingyoji, Ikuo Sekine, Hideaki Shimada, Kenzo Hiroshima, Takao Namiki, Koichiro Tatsumi, and Masatoshi Tagawa

Subjects

Mesothelioma, Metformin, Nutlin-3a, p53, Mammalian target of rapamycin, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Mesothelioma is resistant to conventional treatments and is often defective in p53 pathways. We then examined anti-tumor effects of metformin, an agent for type 2 diabetes, and combinatory effects of metformin and nutlin-3a, an inhibitor for ubiquitin-mediated p53 degradation, on human mesothelioma. Methods We examined the effects with a colorimetric assay and cell cycle analyses, and investigated molecular events in cells treated with metformin and/or nutlin-3a with Western blot analyses. An involvement of p53 was tested with siRNA for p53. Results Metformin suppressed cell growth of 9 kinds of mesothelioma including immortalized cells of mesothelium origin irrespective of the p53 functional status, whereas susceptibility to nutlin-3a was partly dependent on the p53 genotype. We investigated combinatory effects of metformin and nutlin-3a on, nutlin-3a sensitive MSTO-211H and NCI-H28 cells and insensitive EHMES-10 cells, all of which had the wild-type p53 gene. Knockdown of p53 expression with the siRNA demonstrated that susceptibility of MSTO-211H and NCI-H28 cells to nutlin-3a was p53-dependent, whereas that of EHMES-10 cells was not. Nevertheless, all the cells treated with both agents produced additive or synergistic growth inhibitory effects. Cell cycle analyses also showed that the combination increased sub-G1 fractions greater than metformin or nutlin-3a alone in MSTO-211H and EHMES-10 cells. Western blot analyses showed that metformin inhibited downstream pathways of the mammalian target of rapamycin (mTOR) but did not activate the p53 pathways, whereas nutlin-3a phosphorylated p53 and suppressed mTOR pathways. Cleaved caspase-3 and conversion of LC3A/B were also detected but it was dependent on cells and treatments. The combination of both agents in MSTO-211H cells rather suppressed the p53 pathways that were activated by nutrin-3a treatments, whereas the combination rather augmented the p53 actions in NCI-H28 and EHMES-10 cells. Conclusion These data collectively indicated a possible interactions between mTOR and p53 pathways, and the combinatory effects were attributable to differential mechanisms induced by a cross-talk between the pathways.

Published

2017

23. p53 suppression is essential for oncogenic SPAG5 upregulation in lung adenocarcinoma.

Author

Wang, Tong, Li, Kaimi, Song, Hongyong, Xu, Dongliang, Liao, Yueling, Jing, Bo, Guo, Wenzheng, Hu, Min, Kuang, Yanbin, Sun, Beibei, Ling, Jing, Zhang, Tuo, Xu, Jianhua, Yao, Feng, and Deng, Jiong

Subjects

*LUNGS, *LUNG cancer, *CANCER invasiveness, *TUMOR growth, *CANCER cells, *EPITHELIAL cells

Abstract

Aberrant expression of sperm-associated antigen 5 (SPAG5) is implicated to play oncogenic roles in several types of cancers. However, the functions of SPAG5 in lung adenocarcinoma remain unclear. In this study, we investigated the role of SPAG5 in lung adenocarcinoma. We found that SPAG5 was upregulated in most of the lung adenocarcinoma cell lines as compared to normal lung epithelial cells. SPAG5 knockdown suppressed proliferation, colony forming, and migration of lung adenocarcinoma A549 cells in vitro and inhibited tumor growth in vivo. These suggest that upregulated SPAG5 promotes lung tumor progression. Importantly, treatment with MDM2 inhibitor, Nutlin-3a, restored p53 and p21 expression and suppressed SPAG5 expression in wild-type p53 lung adenocarcinoma cells, A549 and H460, but not in p53-null lung cancer cells, H1299. This suggests that the p53 signal pathway is essential for SPAG5 suppression. In addition, knocking-down p53 or p21 in A549 and H460 cells attenuated Nutlin-3a-induced repression of SPAG5, which further supports that the p53-p21 axis is required for SPAG5 repression. Thus, SPAG5 can serve as a prognostic marker, and therapeutic strategy targeting the p53-p21-SPAG5 axis may have important clinical implications. • SPAG5 is upregulated in lung adenocarcinoma. • SPAG5 knockdown suppresses proliferation, colony forming, and migration. • SPAG5 is regulated in a p53-and p21-dependent manner. • SPAG5 can be a prognostic marker and therapeutic target for lung adenocarcinoma. [ABSTRACT FROM AUTHOR]

Published

2019

24. Combination treatment with auranofin and nutlin-3a induces synergistic cytotoxicity in breast cancer cells.

Author

Ye, Dong-Jin, Kwon, Yeo-Jung, Baek, Hyoung-Seok, Cho, Eunah, Kwon, Tae-Uk, and Chun, Young-Jin

Subjects

*CANCER cells, *BREAST cancer, *ANTIRHEUMATIC agents, *AURANOFIN, *BCL-2 proteins, *DRUG synergism

Abstract

Auranofin is a gold complex categorized as an anti-rheumatic agent. Recently, several investigators suggested that auranofin may act as a potent anti-cancer drug for breast tumors. Nutlin-3a is a cis-imidazoline analog which prevents interaction between mouse double minute 2 homolog (MDM2) and the tumor suppressor p53. The aim of this study was to examine cell growth inhibition mediated by auranofin or nutlin-3a individually as well as in combination with MCF-7 and MDA-MB-231 cells. To assess any potential synergistic effects between auranofin and nutlin-3a, low concentrations of auranofin and nutlin-3a were simultaneously incubated with MCF-7 and MDA-MB-231 cells. Cell viability assay, caspase-3/7 assay, and poly (ADP-ribose) polymerase cleavage revealed that auranofin and nutlin-3a exerted a synergistic effect on cancer cell apoptosis. Isobologram analysis of MCF-7 and MDA-MB-231 cells noted evident synergism between auranofin and nutlin-3a. The combined treatment increased the expression of mitochondrial pro-apoptotic factors such as Bcl-2 associated X protein and Bcl-2 homologous antagonist/killer. Further, combination treatment significantly enhanced reactive oxygen species (ROS) generation in MCF-7 and MDA-MB-231 cells. In conclusion, data demonstrated that combined treatment with auranofin and nutlin-3a exhibited a synergistic action on breast cancer cells and this combination may be considered for use as a novel therapeutic strategy for breast cancer. [ABSTRACT FROM AUTHOR]

Published

2019

25. Effects of the MDM-2 inhibitor Nutlin-3a on PDAC cells containing and lacking WT-TP53 on sensitivity to chemotherapy, signal transduction inhibitors and nutraceuticals.

Author

Candido, Saverio, Abrams, Stephen L., Steelman, Linda S., Lertpiriyapong, Kvin, Martelli, Alberto M., Cocco, Lucio, Ratti, Stefano, Follo, Matilde Y., Murata, Ramiro M., Rosalen, Pedro L., Bueno-Silva, Bruno, de Alencar, Severino Matias, Lombardi, Paolo, Mao, Weifeng, Montalto, Giuseppe, Cervello, Melchiorre, Rakus, Dariusz, Gizak, Agnieska, Lin, Heng-Liang, and Libra, Massimo

Subjects

*GENETIC mutation, *FUNCTIONAL foods, *CELLULAR signal transduction, *CANCER chemotherapy, *THERAPEUTICS

Abstract

Mutations at the TP53 gene are readily detected (approximately 50–75%) in pancreatic ductal adenocarcinoma (PDAC) patients. TP53 was previously thought to be a difficult target as it is often mutated, deleted or inactivated on both chromosomes in certain cancers. In the following study, the effects of restoration of wild-type (WT) TP53 activity on the sensitivities of MIA-PaCa-2 pancreatic cancer cells to the MDM2 inhibitor nutlin-3a in combination with chemotherapy, targeted therapy, as well as, nutraceuticals were examined. Upon introduction of the WT- TP53 gene into MIA-PaCa-2 cells, which contain a TP53 gain of function (GOF) mutation, the sensitivity to the MDM2 inhibitor increased. However, effects of nutlin-3a were also observed in MIA-PaCa-2 cells lacking WT-TP53, as upon co-treatment with nutlin-3a, the sensitivity to certain inhibitors, chemotherapeutic drugs and nutraceuticals increased. Interestingly, co-treatment with nutlin-3a and certain chemotherapeutic drug such as irinotecan and oxaliplatin resulted in antagonistic effects in cells both lacking and containing WT-TP53 activity. These studies indicate the sensitizing abilities that WT- TP53 activity can have in PDAC cells which normally lack WT- TP53 , as well as, the effects that the MDM2 inhibitor nutlin-3a can have in both cells containing and lacking WT-TP53 to various therapeutic agents. [ABSTRACT FROM AUTHOR]

Published

2019

26. MDM2 antagonist nutlin‐3a sensitizes tumors to V‐ATPase inhibition

Author

Lina S. Schneider, Melanie Ulrich, Thorsten Lehr, Dirk Menche, Rolf Müller, and Karin von Schwarzenberg

Subjects

Cancer, Therapy, p53, V‐ATPase, Nutlin‐3a, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Treating cancer is one of the big challenges of this century and it has become evident that single chemotherapeutic treatment is rarely effective. As tumors often carry multiple mutations using combination therapy which addresses different targets seems therefore more beneficial. One of the most frequently mutated genes in tumors is the tumor suppressor p53. Significant work has been put in the development of p53 activators, which are now in clinical studies against diverse cancers. Recently, we could show that inhibition of V‐ATPase, a multisubunit proton pump, by archazolid induces p53 protein levels in cancer cells. In this study, we provide evidence that the combination of archazolid with the p53 activator nutlin‐3a is synergistically inducing cell death in different p53 wild type tumor cell lines. Mechanistically, this effect could presumably be attributed to reduction of glycolysis as TIGAR mRNA levels were increased and glucose uptake and Glut1 protein levels were reduced. In addition, combination treatment highly activated pro‐apoptotic pathways including IGFBP3 and Bax inducing caspase‐9 and PARP cleavage. Remarkably, combination of archazolid and nutlin‐3a was more efficient in reducing tumor growth compared to single dose treatment in a U87MG mouse model in vivo. Hence, our findings suggest the combination of archazolid and nutlin‐3a as a highly promising strategy for the treatment of p53 wild type tumors.

Published

2016

27. Inhibition of Transglutaminase 2 but Not of MDM2 Has a Significant Therapeutic Effect on Renal Cell Carcinoma

Author

Joon Hee Kang, Seon-Hyeong Lee, Jae-Seon Lee, Su-Jin Oh, Ji Sun Ha, Hyun-Jung Choi, and Soo-Youl Kim

Subjects

MDM2, p53, transglutaminase 2, nutlin-3a, Cytology, QH573-671

Abstract

More than 50% of human cancers harbor TP53 mutations and increased expression of Mouse double minute 2 homolog (MDM2), which contribute to cancer progression and drug resistance. Renal cell carcinoma (RCC) has an unusually high incidence of wild-type p53, with a mutation rate of less than 4%. MDM2 is master regulator of apoptosis in cancer cells, which is triggered through proteasomal degradation of wild-type p53. Recently, we found that p53 protein levels in RCC are regulated by autophagic degradation. Transglutaminase 2 (TGase 2) was responsible for p53 degradation through this pathway. Knocking down TGase 2 increased p53-mediated apoptosis in RCC. Therefore, we asked whether depleting p53 from RCC cells occurs via MDM2-mediated proteasomal degradation or via TGase 2-mediated autophagic degradation. In vitro gene knockdown experiments revealed that stability of p53 in RCC was inversely related to levels of both MDM2 and TGase 2 protein. Therefore, we examined the therapeutic efficacy of inhibitors of TGase 2 and MDM2 in an in vivo model of RCC. The results showed that inhibiting TGase 2 but not MDM2 had efficient anticancer effects.

Published

2020

28. Expression of miR-34a in T-Cells Infected by Human T-Lymphotropic Virus 1

Author

Varun K. Sharma, Vittoria Raimondi, Katia Ruggero, Cynthia A. Pise-Masison, Ilaria Cavallari, Micol Silic-Benussi, Vincenzo Ciminale, and Donna M. D’Agostino

Subjects

HTLV-1, miR-34a, p53, nutlin-3a, adult T-cell leukemia/lymphoma, Microbiology, QR1-502

Abstract

Human T-lymphotropic virus 1 (HTLV-1) immortalizes T-cells and is the causative agent of adult T-cell leukemia/lymphoma (ATLL). HTLV-1 replication and transformation are governed by multiple interactions between viral regulatory proteins and host cell factors that remain to be fully elucidated. The present study investigated the impact of HTLV-1 infection on the expression of miR-34a, a microRNA whose expression is downregulated in many types of cancer. Results of RT-PCR assays showed that five out of six HTLV-1-positive cell lines expressed higher levels of miR-34a compared to normal PBMC or purified CD4+ T-cells. ATLL cell line ED, which did not express miR-34a, showed methylation of the miR-34a promoter. Newly infected PBMC and samples from 10 ATLL patients also showed a prominent increase in miR-34a expression compared to PBMC controls. The primary miR-34a transcript expressed in infected cell line C91PL contained binding motifs for NF-κB and p53. Pharmacological inhibition of NF-κB with Bay 11-7082 indicated that this pathway contributes to sustain miR-34a levels in infected cells. Treatment of infected cell lines with the p53 activator nutlin-3a resulted in a further increase in miR-34a levels, thus confirming it as a transcriptional target of p53. Nutlin-3a-treated cells showed downregulation of known miR-34a targets including the deacetylase SIRT1, which was accompanied by increased acetylation of p53, a substrate of SIRT1. Transfection of C91PL cells with a miR-34a mimic also led to downregulation of mRNA targets including SIRT1 as well as the pro-apoptotic factor BAX. Unlike nutlin-3a, the miR-34a mimic did not cause cell cycle arrest or reduce cell viability. On the other hand, sequestration of miR-34a with a sponge construct resulted in an increase in death of C91PL cells. These findings provide evidence for a functional role for miR-34a in fine-tuning the expression of target genes that influence the turnover of HTLV-1-infected cells.

Published

2018

29. Nutlin-loaded magnetic solid lipid nanoparticles for targeted glioblastoma treatment.

Author

Grillone, Agostina, Battaglini, Matteo, Moscato, Stefania, Mattii, Letizia, de Julián Fernández, César, Scarpellini, Alice, Giorgi, Mario, Sinibaldi, Edoardo, and Ciofani, Gianni

Abstract

Aim: Glioblastoma multiforme is one of the deadliest forms of cancer, and current treatments are limited to palliative cares. The present study proposes a nanotechnology-based solution able to improve both drug efficacy and its delivery efficiency. Materials & methods: Nutlin-3a and superparamagnetic nanoparticles were encapsulated in solid lipid nanoparticles, and the obtained nanovectors (nutlin-loaded magnetic solid lipid nanoparticle [Nut-Mag-SLNs]) were characterized by analyzing both their physicochemical properties and their effects on U-87 MG glioblastoma cells. Results: Nut-Mag-SLNs showed good colloidal stability, the ability to cross an in vitro blood–brain barrier model, and a superior pro-apoptotic activity toward glioblastoma cells with respect to the free drug. Conclusion: Nut-Mag-SLNs represent a promising multifunctional nanoplatform for the treatment of glioblastoma multiforme. [ABSTRACT FROM AUTHOR]

Published

2019

30. Alpha ketoglutarate levels, regulated by p53 and OGDH, determine autophagy and cell fate/apoptosis in response to Nutlin-3a.

Author

Duan, Lei, Perez, Ricardo E., and Maki, Carl G.

Abstract

Activated p53 can promote apoptosis or cell cycle arrest. Differences in energy metabolism can influence cell fate in response to activated p53. Nutlin-3a is a preclinical drug and small molecule activator of p53. Alpha-ketoglutarate (αKG) levels were reduced in cells sensitive to Nutlin-3a-induced apoptosis and increased in cells resistant to this apoptosis. Add-back of a cell-permeable αKG analog (DMKG) rescued cells from apoptosis in response to Nutlin-3a. OGDH is a component of the αKGDH complex that converts αKG to succinate. OGDH knockdown increased endogenous αKG levels and also rescued cells from Nutlin-3a-induced apoptosis. We previously showed reduced autophagy and ATG gene expression contributes to Nutlin-3a-induced apoptosis. DMKG and OGDH knockdown restored autophagy and ATG gene expression in Nutlin-3a-treated cells. These studies indicate αKG levels, regulated by p53 and OGDH, determine autophagy and apoptosis in response to Nutlin-3a. [ABSTRACT FROM AUTHOR]

Published

2019

31. The Alzheimer's disease-associated TREM2 gene is regulated by p53 tumor suppressor protein.

Author

Zajkowicz, Artur, Gdowicz-Kłosok, Agnieszka, Krześniak, Małgorzata, Janus, Patryk, Łasut, Barbara, and Rusin, Marek

Subjects

*P53 protein, *ALZHEIMER'S disease, *DACTINOMYCIN, *GLYCOGEN synthase kinase-3, *NEURODEGENERATION

Abstract

TREM2 mutations evoke neurodegenerative disorders, and recently genetic variants of this gene were correlated to increased risk of Alzheimer's disease. The signaling cascade originating from the TREM2 membrane receptor includes its binding partner TYROBP, BLNK adapter protein, and SYK kinase, which can be activated by p53. Moreover, in silico identification of a putative p53 response element (RE) at the TREM2 promoter led us to hypothesize that TREM2 and other pathway elements may be regulated in p53-dependent manner. To stimulate p53 in synergistic fashion, we exposed A549 lung cancer cells to actinomycin D and nutlin-3a (A + N). In these cells, exposure to A + N triggered expression of TREM2, TYROBP, SYK and BLNK in p53-dependent manner. TREM2 was also activated by A + N in U-2 OS osteosarcoma and A375 melanoma cell lines. Interestingly, nutlin-3a, a specific activator of p53, acting alone stimulated TREM2 in U-2 OS cells. Using in vitro mutagenesis, chromatin immunoprecipitation, and luciferase reporter assays, we confirmed the presence of the p53 RE in TREM2 promoter. Furthermore, activation of TREM2 and TYROBP by p53 was strongly inhibited by CHIR-98014, a potent and specific inhibitor of glycogen synthase kinase-3 (GSK-3). We conclude that TREM2 is a direct p53-target gene, and that activation of TREM2 by A + N or nutlin-3a may be critically dependent on GSK-3 function. [ABSTRACT FROM AUTHOR]

Published

2018

32. DZNep represses Bcl-2 expression and modulates apoptosis sensitivity in response to Nutlin-3a.

Author

Zhou, Yalu, Perez, Ricardo E., Duan, Lei, and Maki, Carl G.

Abstract

MDM2 antagonists stabilize and activate wild-type p53, and histone methyltransferase (HMT) inhibitors reduce methylation on histone lysines and arginines. Both MDM2 antagonists and HMT inhibitors are being developed as cancer therapeutics. Wild-type p53 expressing HCT116 colon cancer cells were resistant to apoptosis in response to the MDM2 antagonist Nutlin-3a. However, co-treatment with the HMT inhibitor DZNep sensitized the cells to Nutlin-3a-induced apoptosis. This sensitization resulted from reduced activity of the Bcl-2 gene promoter and a reduction in Bcl-2 mRNA and protein. Surprisingly, DZNep reduced Bcl-2 expression in other colon cancer cell lines (RKO, SW48, and LoVo) but failed to sensitize them to Nutlin-3a. We found these cell lines express elevated levels of Bcl-2 or other Bcl-2-family proteins, including Bcl-xL, Mcl-1, and Bcl-w. Knockdown of Mcl-1 and/or treatment with specific or pan Bcl-2-family inhibitors (BH3 mimetics) sensitized RKO, SW48, and LoVo cells to apoptosis by Nutlin-3a. The results demonstrate 1) DZNep represses the Bcl-2 gene promoter and affects apoptosis sensitivity by reducing Bcl-2 protein expression, and 2) elevated expression of pro-survival Bcl-2 family members protects colon cancer cells from Nutlin-3a-induced apoptosis. Targeting Bcl-2 proteins via DZNep or BH3 mimetics could increase the therapeutic potential of MDM2-antagonists like Nutlin-3a in colon cancer. [ABSTRACT FROM AUTHOR]

Published

2018

33. Loss of p53 expression in cancer cells alters cell cycle response after inhibition of exportin-1 but does not prevent cell death.

Author

Marcus, Joshua M., Burke, Russell T., Doak, Andrea E., Park, Soyeon, and Orth, James D.

Abstract

The tumor suppressor protein p53 is central to the cellular stress response and may be a predictive biomarker for cancer treatments. Upon stress, wildtype p53 accumulates in the nucleus where it enforces cellular responses, including cell cycle arrest and cell death. p53 is so dominant in its effects, that p53 enforcement - or - restoration therapy is being studied for anti-cancer therapy. Two mechanistically distinct small molecules that act via p53 are the selective inhibitor of nuclear export, selinexor, and MDM2 inhibitor, nutlin-3a. Here, individual cells are studied to define cell cycle response signatures, which captures the variability of responses and includes the impact of loss of p53 expression on cell fates. The individual responses are then used to build the population level response. Matched cell lines with and without p53 expression indicate that while loss-of-function results in altered cell cycle signatures to selinexor treatment, it does not diminish overall cell loss. On the contrary, response to single-agent nutlin-3a shows a strong p53-dependence. Upon treatment with both selinexor and nutlin-3a there are combination effects in at least some cell lines - even when p53 is absent. Collectively, the findings indicate that p53 does act downstream of selinexor and nutlin-3a, and that p53 expression is dispensable for selinexor to cause cell death, but nutlin-3a response is more p53-dependent. Thus, TP53 disruption and lack of expression may not predict poor cell response to selinexor, and selinexor’s mechanism of action potentially provides for strong efficacy regardless of p53 function. [ABSTRACT FROM AUTHOR]

Published

2018

34. Nutlin‐3a as a novel anticancer agent for adrenocortical carcinoma with <italic>CTNNB1</italic> mutation.

Author

Hui, Wen, Liu, Shenghua, Zheng, Jie, Fang, Zujun, Ding, Qiang, and Feng, Chenchen

Subjects

ANTINEOPLASTIC agents, ADRENAL tumors, GENETIC mutation, DRUG efficacy, CANCER genetics, PROGNOSIS, TUMOR treatment

Abstract

Abstract: Adrenocortical carcinoma (ACC) is a rare malignancy, and CTNNB1 is frequently mutated in ACC. Our study aims to screen for effective agents with antineoplastic activity against ACC with CTNNB1 mutation. In‐silico screening of the Genomics of Drug Sensitivity in Cancer (GDSC) database was conducted. Drug sensitivity in cells with CTNNB1 mutation was analyzed and further in vitro and in vivo studies were performed using the compound. Only one compound, Nutlin‐3a, an MDM2 inhibitor, was significantly sensitive in 18 cancer cells with CTNNB1 mutation. Further analysis of the 18 cells revealed no significant efficacy between cells with both CTNNB1 and TP53 mutations indicating concomitant TP53 mutation did not impact on drug efficacy. We verified that Nutlin‐3a inhibited cellular proliferation in ACC cell line NCI‐H295R which harbored CTNNB1 mutation but not in SW13 cells which did not. Nutlin‐3a induced cell apoptosis and G1 cell‐cycle arrest in NCI‐H295R cells. Nutlin‐3a also decreased cellular migration and inhibited epithelial‐to‐mesenchymal transition (EMT) process in terms of EMT index. Nutlin‐3a resulted in decreased β‐catenin level independent of p53 level in NCI‐H295R but not SW13 cells. We also evaluated the effect of Nutlin‐3a on hormonal secretion of NCI‐H295R cells and found it resulted in decreased levels of cortisol, androgen, and progesterone. Nutlin‐3a treatment inhibited ACC tumor growth with no observed toxicity in mice in vivo. Our study has revealed that Nutlin‐3a potently inhibits ACC with CTNNB1 mutation. How p53/MDM2 axis coordinates with Wnt/beta‐Catenin signaling in ACC warrants further study. [ABSTRACT FROM AUTHOR]

Published

2018

35. Nutlin-3a and Cytokine Co-loaded Spermine-Modified Acetalated Dextran Nanoparticles for Cancer Chemo-Immunotherapy.

Author

Bauleth‐Ramos, Tomás, Shahbazi, Mohammad‐Ali, Liu, Dongfei, Fontana, Flavia, Correia, Alexandra, Figueiredo, Patrícia, Zhang, Hongbo, Martins, João Pedro, Hirvonen, Jouni T., Granja, Pedro, Sarmento, Bruno, and Santos, Hélder A.

Subjects

*CANCER treatment, *DEXTRAN, *IMMUNOTHERAPY, *NANOPARTICLES, *CELL death, *IMMUNE response

Abstract

The combination of chemo- and immunotherapy represents one promising strategy to overcome the existent challenges in the present-day anticancer therapy. Here, spermine-modified acetalated dextran nanoparticles (Sp-AcDEX NPs), co-loaded with the non-genotoxic molecule Nutlin-3a (Nut3a), and the cytokine granulocyte-macrophage colony-stimulating factor (GM-CSF), are developed to induce cancer cell death and create a specific antitumor immune response. These polymeric NPs release Nut3a in a pH dependent fashion and induce endosomal escape. Due to Nut3a, the loaded NPs exert specific toxicity toward wild-type p53 cancer cells while avoiding toxicity in immune cells. Furthermore, the NPs show intrinsic immune adjuvancy on monocyte derived-dendritic cells, upregulating the expression of cell surface CD83 and CD86 costimulatory markers. Finally, it is examined that by inducing MCF-7 breast cancer cell death and acting as immune adjuvants, the NPs can downregulate the expression of IL-10 and upregulate IL-1β, leading to proliferation of CD3+ and cytotoxic CD8+ T cells. Overall, the study suggests that Sp-AcDEX NPs loaded with Nut3a and GM-CSF is a promising system for chemo-immunotherapy, capable of inducing tumor cell death and stimulating immune response. [ABSTRACT FROM AUTHOR]

Published

2017

36. The IGF-1R/AKT pathway has opposing effects on Nutlin-3a-induced apoptosis.

Author

Davaadelger, Batzaya, Perez, Ricardo E., Zhou, Yalu, Duan, Lei, Gitelis, Steven, and Maki, Carl G.

Abstract

Nutlin-3a is a small molecule MDM2 antagonist and potent activator of wild-type p53. Nutlin-3a disrupts MDM2 binding to p53, thus increasing p53 levels and allowing p53 to inhibit proliferation or induce cell death. Factors that control sensitivity to Nutlin-3a-induced apoptosis are incompletely understood. In this study we isolated cisplatin-resistant clones from MHM cells, an MDM2-amplified and p53 wild-type osteosarcoma cell line. Cisplatin resistance in these clones resulted in part from heightened activation of the IGF-1R/AKT pathway. Interestingly, these cisplatin resistant clones showed hyper-sensitivity to Nutlin-3a induced apoptosis. Increased Nutlin-3a sensitivity was associated with reduced authophagy flux and a greater increase in p53 levels in response to Nutlin-3a treatment. IGF-1R and AKT inhibitors further increased apoptosis by Nutlin-3a in parental MHM cells and the cisplatin-resistant clones, confirming IGF-1R/AKT signaling promotes apoptosis resistance. However, IGF-1R and AKT inhibitors also reduced p53 accumulation in Nutlin-3a treated cells and increased autophagy flux, which we showed can promote apoptosis resistance. We conclude the IGF-1R/AKT pathway has opposing effects on Nutlin-3a-induced apoptosis. First, it can inhibit apoptosis, consistent with its well-established role as a survival-signaling pathway. Second, it can enhance Nutlin-3a induced apoptosis through a combination of maintaining p53 levels and inhibiting pro-survival autophagy. [ABSTRACT FROM PUBLISHER]

Published

2017

37. P53-MDM2 PATHWAY: EVIDENCES FOR A NEW TARGETED THERAPEUTIC APPROACH IN B-ACUTE LYMPHOBLASTIC LEUKEMIA

Author

Stefania Trino, Luciana De Luca, Ilaria Laurenzana, Antonella Caivano, Luigi Del Vecchio, Giovanni Martinelli, and Pellegrino Musto

Subjects

Acute Lymphoblastic Leukemia, p53, target therapy, MDM2, Nutlin-3a, Therapeutics. Pharmacology, RM1-950

Abstract

The tumor suppressor p53 is a canonical regulator of different biological functions, like apoptosis, cell cycle arrest, DNA repair and genomic stability. This gene is frequently altered in human tumors generally by point mutations or deletions. Conversely, in acute lymphoblastic leukemia (ALL) genomic alterations of TP53 are rather uncommon, and prevalently occur in patients at relapse or with poor prognosis. On the other hand, p53 pathway is often compromised by the inactivation of its regulatory proteins, as MDM2 and ARF. MDM2 inhibitor molecules are able to antagonize p53-MDM2 interaction allowing p53 to exert tumor suppressor transcriptional regulation and to induce apoptotic pathways. Recent preclinical and clinical studies propose that MDM2 targeted therapy represents a promising anticancer strategy restoring p53 dependent mechanisms in ALL disease. Here, we discussed the use of new small molecule targeting p53 pathways as a promising drug target therapy in ALL.

Published

2016

38. Lipid - protein interactions : from signal transduction to drug delivery

Author

Krishnamoorthy, Aparna

Subjects

Biochemistry, ApoE, LRP5/6, Nanodisk, Nutlin-3a, SAPLIP, Wnt3a

Abstract

Based on the hydrophobic tendencies exhibited by certain groups of molecules, the primary focus of this dissertation has been to create environments enriched in lipids and amphipathic molecules to explore the effect on their biological behavior. To this effect, ternary complexes of phospholipid, an apolipoprotein scaffold and a hydrophobic bioactive MDM2 inhibitor, nutlin-3a were used to form nanoassemblies of nutlin-3a nanodisks (ND). Nutlin-3a, as a part of ND was conferred with aqueous solubility, formed a homogeneous population of ND particles and associated reversibly with the ND. Biological activity of nutlin-3a ND was examined in three distinct glioblastoma cell lines, U87MG, SF763 and SF767. An overall robust decrease in cell viability, increase in apoptosis, increase in protein levels of p53 and MDM2 was observed in U87MG cells in response to nutlin-3a ND incubation while the other two cell lines remained mostly unresponsive. The nanoscale size of the formulation particles, their facile assembly and nutlin-3a solubilization capability suggest ND represent a potentially useful vehicle for in vivo administration of this anti-tumor agent.“Wnt” family of signaling molecules regulates cell fate and proliferation in tissues of many multicellular organisms. Structure function studies of Wnts have been impeded due to the high propensity of isolated Wnts to self-associate. Stably transfected Drosophila S2 cells were used to improve recovery of recombinant murine Wnt3a. As a part of Wnt3a characterization, modulators of Wnt3a signaling were evaluated. Based on the central role played by low density lipoprotein receptor related protein 5 or 6 (LRP5/6) in Wnt3a signaling and apolipoprotein (apo)E3 lipoprotein metabolism, the ability of apoE3 to modulate Wnt signaling was evaluated. Wnt3a canonical signaling was down regulated in the presence of lipid-free apoE3 N-terminus however, this interaction appeared to be mediated through apoE3 binding with Wnt3a rather than LRP5/6. Additionally, while dissecting the supporting scaffolds of Wnt3a using thrombin mediated limited proteolysis, a site-specific cleavage within the N-terminal domain of Wnt3a was identified. Within the N-terminal (NT) domain there exists a motif that is superimposable upon saposin-like protein (SAPLIP) family members. SAPLIPs possess lipid surface seeking activity. Further inspection into the Wnt3a saposin-like sub-domain (SLD) revealed that neighboring structural elements within full-length Wnt3a affect SLD conformational stability. Overall, SLD function(s) in Wnt proteins appear to have evolved away from those commonly attributed to SAPLIP family members.

Published

2017

39. Targeting Cell Cycle Facilitates E1A-Independent Adenoviral Replication.

Author

Ehrenfeld, Maximilian, Segeth, Felicia, Mantwill, Klaus, Brockhaus, Corinna, Yuling Zhao, Ploner, Christian, Kolk, Andreas, Gschwend, Jürgen E., Nawroth, Roman, and Holm, Per Sonne

Subjects

*CELL cycle, *DNA replication, *VIRAL DNA, *VIRAL replication, *VIRAL vaccines, *GENETIC vectors, *CYCLIN-dependent kinases

Abstract

DNA replication of E1-deleted first-generation adenoviruses (AdV) in cultured cancer cells has been reported repeatedly and it was suggested that certain cellular proteins could functionally compensate for E1A, leading to the expression of the early region 2 (E2)-encoded proteins and subsequently virus replication. Referring to this, the observation was named E1A-like activity. In this study, we investigated different cell cycle inhibitors with respect to their ability to increase viral DNA replication of dl70-3, an E1-deleted adenovirus. Our analyses of this issue revealed that in particular inhibition of cyclin-dependent kinases 4/6 (CDK4/6i) increased E1-independent adenovirus E2-expression and viral DNA replication. Detailed analysis of the E2-expression in dl70-3 infected cells by RT-qPCR showed that the increase in E2-expression originated from the E2-early promoter. Mutations of the two E2F-binding sites in the E2-early promoter (pE2early-LucM) caused a significant reduction in E2-early promoter activity in trans-activation assays. Accordingly, mutations of the E2F-binding sites in the E2-early promoter in a virus named dl70-3/E2Fm completely abolished CDK4/6i induced viral DNA replication. Thus, our data show that E2F-binding sites in the E2-early promoter are crucial for E1A independent adenoviral DNA replication of E1-deleted vectors in cancer cells. IMPORTANCE E1-deleted AdV vectors are considered replication deficient and are important tools for the study of virus biology, gene therapy, and large-scale vaccine development. However, deletion of the E1 genes does not completely abolish viral DNA replication in cancer cells. Here, we report, that the two E2F-binding sites in the adenoviral E2-early promoter contribute substantially to the so-called E1A-like activity in tumor cells. With this finding, on the one hand, the safety profile of viral vaccine vectors can be increased and, on the other hand, the oncolytic property for cancer therapy might be improved through targeted manipulation of the host cell. [ABSTRACT FROM AUTHOR]

Published

2023

40. Nutlin-3a selects for cells harbouring TP 53 mutations.

Author

Kucab, Jill E., Hollstein, Monica, Arlt, Volker M., and Phillips, David H.

Abstract

TP53 mutations occur in half of all human tumours. Mutagen-induced or spontaneous TP53 mutagenesis can be studied in vitro using the human TP53 knock-in (Hupki) mouse embryo fibroblast (HUF) immortalisation assay (HIMA). TP53 mutations arise in up to 30% of mutagen-treated, immortalised HUFs; however, mutants are not identified until TP53 sequence analysis following immortalisation (2-5 months) and much effort is expended maintaining TP53-WT cultures. In order to improve the selectivity of the HIMA for HUFs harbouring TP53 mutations, we explored the use of Nutlin-3a, an MDM2 inhibitor that leads to stabilisation and activation of wild-type (WT) p53. First, we treated previously established immortal HUF lines carrying WT or mutated TP53 with Nutlin-3a to examine the effect on cell growth and p53 activation. Nutlin-3a induced the p53 pathway in TP53-WT HUFs and inhibited cell growth, whereas most TP53-mutated HUFs were resistant to Nutlin-3a. We then assessed whether Nutlin-3a treatment could discriminate between TP53-WT and TP53-mutated cells during the HIMA ( n = 72 cultures). As immortal clones emerged from senescent cultures, each was treated with 10 µM Nutlin-3a for 5 days and observed for sensitivity or resistance. TP53 was subsequently sequenced from all immortalised clones. We found that all Nutlin-3a-resistant clones harboured TP53 mutations, which were diverse in position and functional impact, while all but one of the Nutlin-3a-sensitive clones were TP53-WT. These data suggest that including a Nutlin-3a counter-screen significantly improves the specificity and efficiency of the HIMA, whereby TP53-mutated clones are selected prior to sequencing and TP53-WT clones can be discarded. [ABSTRACT FROM AUTHOR]

Published

2017

41. P53-MDM2 Pathway: Evidences for A New Targeted Therapeutic Approach in B-Acute Lymphoblastic Leukemia.

Author

Trino, Stefania, De Luca, Luciana, Laurenzana, Ilaria, Caivano, Antonella, Del Vecchio, Luigi, Martinelli, Giovanni, and Musto, Pellegrino

Subjects

LYMPHOBLASTIC leukemia, LYMPHOCYTIC leukemia

Abstract

The tumor suppressor p53 is a canonical regulator of different biological functions, like apoptosis, cell cycle arrest, DNA repair, and genomic stability. This gene is frequently altered in human tumors generally by point mutations or deletions. Conversely, in acute lymphoblastic leukemia (ALL) genomic alterations of TP53 are rather uncommon, and prevalently occur in patients at relapse or with poor prognosis. On the other hand, p53 pathway is often compromised by the inactivation of its regulatory proteins, as MDM2 and ARF. MDM2 inhibitor molecules are able to antagonize p53-MDM2 interaction allowing p53 to exert tumor suppressor transcriptional regulation and to induce apoptotic pathways. Recent preclinical and clinical studies propose that MDM2 targeted therapy represents a promising anticancer strategy restoring p53 dependent mechanisms in ALL disease. Here, we discussed the use of new small molecule targeting p53 pathways as a promising drug target therapy in ALL. [ABSTRACT FROM AUTHOR]

Published

2016

42. MDM2 antagonist nutlin-3a sensitizes tumors to V-ATPase inhibition.

Author

Schneider, Lina S., Ulrich, Melanie, Lehr, Thorsten, Menche, Dirk, Müller, Rolf, and von Schwarzenberg, Karin

Abstract

Treating cancer is one of the big challenges of this century and it has become evident that single chemotherapeutic treatment is rarely effective. As tumors often carry multiple mutations using combination therapy which addresses different targets seems therefore more beneficial. One of the most frequently mutated genes in tumors is the tumor suppressor p53. Significant work has been put in the development of p53 activators, which are now in clinical studies against diverse cancers. Recently, we could show that inhibition of V-ATPase, a multisubunit proton pump, by archazolid induces p53 protein levels in cancer cells. In this study, we provide evidence that the combination of archazolid with the p53 activator nutlin-3a is synergistically inducing cell death in different p53 wild type tumor cell lines. Mechanistically, this effect could presumably be attributed to reduction of glycolysis as TIGAR mRNA levels were increased and glucose uptake and Glut1 protein levels were reduced. In addition, combination treatment highly activated pro-apoptotic pathways including IGFBP3 and Bax inducing caspase-9 and PARP cleavage. Remarkably, combination of archazolid and nutlin-3a was more efficient in reducing tumor growth compared to single dose treatment in a U87MG mouse model in vivo . Hence, our findings suggest the combination of archazolid and nutlin-3a as a highly promising strategy for the treatment of p53 wild type tumors. [ABSTRACT FROM AUTHOR]

Published

2016

43. Multifunctional nanoparticle–EpCAM aptamer bioconjugates: A paradigm for targeted drug delivery and imaging in cancer therapy.

Author

Das, Manasi, Duan, Wei, and Sahoo, Sanjeeb K.

Subjects

NANOPARTICLES, CANCER treatment, DRUG delivery systems, CANCER diagnosis, POLYLACTIC acid, QUANTUM dots

Abstract

The promising proposition of multifunctional nanoparticles for cancer diagnostics and therapeutics has inspired the development of theranostic approach for improved cancer therapy. Moreover, active targeting of drug carrier to specific target site is crucial for providing efficient delivery of therapeutics and imaging agents. In this regard, the present study investigates the theranostic capabilities of nutlin-3a loaded poly (lactide-co-glycolide) nanoparticles, functionalized with a targeting ligand (EpCAM aptamer) and an imaging agent (quantum dots) for cancer therapy and bioimaging. A wide spectrum of in vitro analysis (cellular uptake study, cytotoxicity assay, cell cycle and apoptosis analysis, apoptosis associated proteins study) revealed superior therapeutic potentiality of targeted NPs over other formulations in EpCAM expressing cells. Moreover, our nanotheranostic system served as a superlative bio-imaging modality both in 2D monolayer culture and tumor spheroid model. Our result suggests that, these aptamer-guided multifunctional NPs may act as indispensable nanotheranostic approach toward cancer therapy. From the Clinical Editor This study investigated the theranostic capabilities of nutlin-3a loaded poly (lactide-co-glycolide) nanoparticles functionalized with a targeting ligand (EpCAM aptamer) and an imaging agent (quantum dots) for cancer therapy and bioimaging. It was concluded that the studied multifunctional targeted nanoparticle may become a viable and efficient approach in cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2015

44. Phosphoproteomics of primary AML patient samples reveals rationale for AKT combination therapy and p53 context to overcome selinexor resistance.

Author

Emdal, Kristina B., Palacio-Escat, Nicolàs, Wigerup, Caroline, Eguchi, Akihiro, Nilsson, Helén, Bekker-Jensen, Dorte B., Rönnstrand, Lars, Kazi, Julhash U., Puissant, Alexandre, Itzykson, Raphaël, Saez-Rodriguez, Julio, Masson, Kristina, Blume-Jensen, Peter, and Olsen, Jesper V.

Abstract

Acute myeloid leukemia (AML) is a heterogeneous disease with variable patient responses to therapy. Selinexor, an inhibitor of nuclear export, has shown promising clinical activity for AML. To identify the molecular context for monotherapy sensitivity as well as rational drug combinations, we profile selinexor signaling responses using phosphoproteomics in primary AML patient samples and cell lines. Functional phosphosite scoring reveals that p53 function is required for selinexor sensitivity consistent with enhanced efficacy of selinexor in combination with the MDM2 inhibitor nutlin-3a. Moreover, combining selinexor with the AKT inhibitor MK-2206 overcomes dysregulated AKT-FOXO3 signaling in resistant cells, resulting in synergistic anti-proliferative effects. Using high-throughput spatial proteomics to profile subcellular compartments, we measure global proteome and phospho-proteome dynamics, providing direct evidence of nuclear translocation of FOXO3 upon combination treatment. Our data demonstrate the potential of phosphoproteomics and functional phosphorylation site scoring to successfully pinpoint key targetable signaling hubs for rational drug combinations. [Display omitted] • Phosphoproteomics with functional scoring uncovers context for selinexor sensitivity • Functional p53 correlates with selinexor sensitivity, which is enhanced by nutlin-3a • Dysregulated AKT-FOXO3 drives selinexor resistance, which is overcome with MK-2206 • Spatial proteomics reveals selinexor-induced nucleocytoplasmic protein shuttling Emdal et al. combine phosphoproteomics of samples from patients with AML and functional phosphosite scoring to uncover clinically actionable molecular context for selinexor efficacy. Sensitivity to selinexor correlates with functional p53 and is enhanced with nutlin-3a, while resistance is associated with dysregulated AKT-FOXO3 signaling and overcome by combining with MK-2206. [ABSTRACT FROM AUTHOR]

Published

2022

45. Activation of p53 pathway by Nutlin-3a inhibits the expression of the therapeutic target α5 integrin in colon cancer cells.

Author

Janouskova, Hana, Ray, Anne-Marie, Noulet, Fanny, Lelong-Rebel, Isabelle, Choulier, Laurence, Schaffner, Florence, Lehmann, Maxime, Martin, Sophie, Teisinger, Jan, and Dontenwill, Monique

Subjects

*P53 antioncogene, *GENETIC regulation, *TARGETED drug delivery, *INTEGRINS, *COLON cancer, *CANCER cells

Abstract

Highlights: [•] Inhibition of α5β1 integrin expression or functions alters HCT116 cell survival. [•] Nutlin-3a affects α5 integrin expression through p53 activation. [•] A negative crosstalk between α5β1 integrin and p53 wt has been identified. [•] Reactivation of p53 above a threshold is of interest as a therapeutic option for colon tumors overexpressing α5 integrin. [Copyright &y& Elsevier]

Published

2013

46. The structure of an MDM2-Nutlin-3a complex solved by the use of a validated MDM2 surface-entropy reduction mutant.

Author

Anil, Burcu, Riedinger, Christiane, Endicott, Jane A., and Noble, Martin E. M.

Subjects

*FLUORIMETRY, *BINDING sites, *ENTROPY, *LIGAND binding (Biochemistry), *TRANSCRIPTION factors

Abstract

The p53-binding site of MDM2 holds great promise as a target for therapeutic intervention in MDM2-amplified p53 wild-type forms of cancer. Despite the extensive validation of this strategy, there are relatively few crystallographically determined co-complex structures for small-molecular inhibitors of the MDM2-p53 interaction available in the PDB. Here, a surface-entropy reduction mutant of the N-terminal domain of MDM2 that has been designed to enhance crystallogenesis is presented. This mutant has been validated by comparative ligand-binding studies using differential scanning fluorimetry and fluorescence polarization anisotropy and by cocrystallization with a peptide derived from p53. Using this mutant, the cocrystal structure of MDM2 with the benchmark inhibitor Nutlin-3a has been determined, revealing subtle differences from the previously described co-complex of MDM2 with Nutlin-2. [ABSTRACT FROM AUTHOR]

Published

2013

47. Nutlin-3a, an MDM2 antagonist and p53 activator, helps to preserve the replicative potential of cancer cells treated with a genotoxic dose of resveratrol.

Author

Zajkowicz, Artur, Krześniak, Małgorzata, Matuszczyk, Iwona, Głowala-Kosińska, Magdalena, Butkiewicz, Dorota, and Rusin, Marek

Abstract

Resveratrol is a natural compound that has been intensely studied due to its role in cancer prevention and potential as an anti-cancer therapy. Its effects include induction of apoptosis and senescence-like growth inhibition. Here, we report that two cancer cell lines (U-2 OS and A549) differ significantly in their molecular responses to resveratrol. Specifically, in U-2 OS cells, the activation of the p53 pathway is attenuated when compared to the activation in A549 cells. This attenuation is accompanied by a point mutation (458: CGA→TGA) in the PPM1D gene and overexpression of the encoded protein, which is a negative regulator of p53. Experimentally induced knockdown of PPM1D in U-2 OS cells resulted in slightly increased activation of the p53 pathway, most clearly visible as stronger phosphorylation of p53 Ser. When treated with nutlin-3a, a non-genotoxic activator of p53, U-2 OS and A549 cells both responded with substantial activation of the p53 pathway. Nutlin-3a improved the clonogenic survival of both cell lines treated with resveratrol. This improvement was associated with lower activation of DNA-damage signaling (phosphorylation of ATM, CHK2, and histone H2AX) and higher accumulation of cells in the G1 phase of the cell cycle. Thus, the hyperactivation of p53 by nutlin-3a helps to preserve the replicative potential of cells exposed to resveratrol. [ABSTRACT FROM AUTHOR]

Published

2013

48. Topical nutlin-3a does not decrease photocarcinogenesis induced by simulated solar radiation in hairless mice.

Author

Margrethe Lerche, Catharina, Philipsen, Peter Alshede, Poulsen, Thomas, Gniadecki, Robert, and Wulf, Hans Christian

Subjects

*ULTRAVIOLET radiation, *DNA damage, *SKIN cancer, *PHYSIOLOGICAL effects of solar radiation, *LABORATORY mice, *TRANSPLANTATION of organs, tissues, etc.

Abstract

Background: Nutlin-3a increases p53 levels after UVB radiation, which could result in a decrease in DNA damage and rhus lead to a lower risk of non-melanoma skin cancer. Especially, organ transplant recipients might derive benefit from such a topical formulation with an active ingredient to prevent DNA damage. Purpose: To investigate whether topical nutlin-3a can decrease photocarcinogenesis induced by simulated solar radiation. Methods: 72 hairless C3 .Cg/TifbomTac mice were treated 3 days/week topically with 100 jil nudin-3a (9mM) [Groups 1 and 3 (120 days)) or 100 R1 vehicle (Group 2).Three hours later, all mice were exposed to simulated solar radiation (a radiometric equivalent of three standard erythema dose units). Results: The median time to tumours did not differ between the mice treated with nudin-3a and with the vehicle. The median time to the first and second tumours did not differ between `nutlin-3a- 120 days' and vehicle-treated mice, but there was a small significant difference in the median time to the third tumour (2 11 vs. 1 96 days, P = 0.043). However, after Bonfer- roni correction, there was no difference at all. Conclusion: Nutlin-3a had no reductive effect on photocarcinogenesis and we do not believe in nutlin-3a as a potential drug against DNA damage in a topical formulation for organ transplant patients. [ABSTRACT FROM AUTHOR]

Published

2012

49. MDM2 antagonist nutlin-3a reverses mitoxantrone resistance by inhibiting breast cancer resistance protein mediated drug transport

Author

Zhang, Fan, Throm, Stacy L., Murley, Laura L., Miller, Laura A., Steven Zatechka, D., Kiplin Guy, R., Kennedy, Rachel, and Stewart, Clinton F.

Subjects

*IMIDAZOLINES, *ANTINEOPLASTIC agents, *MULTIDRUG resistance, *ATP-binding cassette transporters, *INTESTINAL absorption, *P53 protein, *DRUG synergism, *GENE expression

Abstract

Abstract: Breast cancer resistance protein (BCRP; ABCG2), a clinical marker for identifying the side population (SP) cancer stem cell subgroup, affects intestinal absorption, brain penetration, hepatobiliary excretion, and multidrug resistance of many anti-cancer drugs. Nutlin-3a is currently under pre-clinical investigation in a variety of solid tumor and leukemia models as a p53 reactivation agent, and has been recently demonstrated to also have p53 independent actions in cancer cells. In the present study, we first report that nutlin-3a can inhibit the efflux function of BCRP. We observed that although the nutlin-3a IC50 did not differ between BCRP over-expressing and vector control cells, nutlin-3a treatment significantly potentiated the cells to treatment with the BCRP substrate mitoxantrone. Combination index calculations suggested synergism between nutlin-3a and mitoxantrone in cell lines over-expressing BCRP. Upon further investigation, it was confirmed that nutlin-3a increased the intracellular accumulation of BCRP substrates such as mitoxantrone and Hoechst 33342 in cells expressing functional BCRP without altering the expression level or localization of BCRP. Interestingly, nutlin-3b, considered virtually “inactive” in disrupting the MDM2/p53 interaction, reversed Hoechst 33342 efflux with the same potency as nutlin-3a. Intracellular accumulation and bi-directional transport studies using MDCKII cells suggested that nutlin-3a is not a substrate of BCRP. Additionally, an ATPase assay using Sf9 insect cell membranes over-expressing wild-type BCRP indicated that nutlin-3a inhibits BCRP ATPase activity in a dose-dependent fashion. In conclusion, our studies demonstrate that nutlin-3a inhibits BCRP efflux function, which consequently reverses BCRP-related drug resistance. [Copyright &y& Elsevier]

Published

2011

50. An Mdm2 antagonist, Nutlin-3a, induces p53-dependent and proteasome-mediated poly(ADP-ribose) polymerase1 degradation in mouse fibroblasts

Author

Matsushima, Shingo, Okita, Naoyuki, Oku, Misako, Nagai, Wataru, Kobayashi, Masaki, and Higami, Yoshikazu

Subjects

*FIBROBLASTS, *CELL cycle, *DNA repair, *APOPTOSIS, *LABORATORY mice, *CELL lines, *DNA replication, *RNA, *IMIDAZOLINES, *CAMPTOTHECIN, *CANCER treatment

Abstract

Abstract: Nutlin-3a (Nutlin) is an Mdm2 inhibitor and is potent to stabilize p53, which is a tumor-suppressor involved in various biological processes such as cell cycle regulation, DNA repair, and apoptosis. Here we demonstrate that Nutlin treatment in mouse fibroblast cell lines reduces the protein levels of poly(ADP-ribose) polymerase1 (Parp1). Parp1 functions in DNA repair, replication, and transcription and has been regarded as a target molecule for anti-cancer therapy and protection from ischemia/reperfusion injury. In this study, first we found that Nutlin, but not DNA damaging agents such as camptothecin (Cpt), induced a decrease in the Parp1 protein levels. This reduction was not associated with cell death and not observed in p53 deficient cells. Next, because Nutlin treatment did not alter Parp1 mRNA levels, we expected that a protein degradation pathway might contribute to this phenomenon. Predictably, a proteasome inhibitor, MG132, inhibited the Nutlin-induced decrease in the levels of Parp1 protein. These results show that Nutlin induces the proteasomal degradation of Parp1 in a p53-dependent manner. Thus, this study demonstrates characterization of a novel regulatory mechanism of Parp1 protein. This novel regulatory mechanism of Parp1 protein level could contribute to development of inhibitors of the Parp1 signaling pathway. [Copyright &y& Elsevier]

Published

2011