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1. Discovery and validation of biomarkers to support clinical development of NXP800: A first-in-class orally active, small-molecule HSF1 pathway inhibitor

Author

Workman, P., primary, Clarke, P.A., additional, Te Poele, R., additional, Powers, M., additional, Box, G., additional, De Billy, E., additional, De Haven Brandon, A., additional, Hallsworth, A., additional, Hayes, A., additional, McCann, H., additional, Sharp, S., additional, Valenti, M., additional, Raynaud, F.I., additional, Eccles, S.A., additional, Cheeseman, M., additional, and Jones, K., additional

Published
2022
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2. Targeted therapy for pediatric diffuse intrinsic pontine glioma: a single-center experience

Author

Del Baldo, G., Carai, A., Abbas, R., Cacchione, A., Vinci, M., Di Ruscio, V., Colafati, G. S., Rossi, S., Diomedi Camassei, F., Maestro, N., Temelso, S., Pericoli, G., De Billy, E., Giovannoni, I., Carboni, A., Rinelli, M., Agolini, E., Mackay, A., Jones, C., Chiesa, S., Balducci, Mario, Locatelli, Franco, Mastronuzzi, A., Balducci M. (ORCID:0000-0003-0398-9726), Locatelli F. (ORCID:0000-0002-7976-3654), Del Baldo, G., Carai, A., Abbas, R., Cacchione, A., Vinci, M., Di Ruscio, V., Colafati, G. S., Rossi, S., Diomedi Camassei, F., Maestro, N., Temelso, S., Pericoli, G., De Billy, E., Giovannoni, I., Carboni, A., Rinelli, M., Agolini, E., Mackay, A., Jones, C., Chiesa, S., Balducci, Mario, Locatelli, Franco, Mastronuzzi, A., Balducci M. (ORCID:0000-0003-0398-9726), and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

Background: Diffuse intrinsic pontine glioma (DIPG) is a fatal disease with a median overall survival (OS) of less than 12 months after diagnosis. Radiotherapy (RT) still remains the mainstay treatment. Several other therapeutic strategies have been attempted in the last years without a significant effect on OS. Although radiological imaging is the gold standard for DIPG diagnosis, the urgent need to improve the survival has led to the reconsideration of biopsy with the aim to better understand the molecular profile of DIPG and support personalized treatment. Methods: In this study, we present a single-center experience in treating DIPG patients at disease progression combining targeted therapies with standard of care. Biopsy was proposed to all patients at diagnosis or disease progression. First-line treatment included RT and nimotuzumab/vinorelbine or temozolomide. Immunohistochemistry-targeted research included study of mTOR/p-mTOR pathway and BRAFv600E. Molecular analyses included polymerase chain reaction, followed by Sanger sequences and/or next-generation sequencing. Results: Based on the molecular profile, targeted therapy was administered in 9 out of 25 patients, while the remaining 16 patients were treated with standard of care. Personalized treatment included inhibition of the PI3K/AKT/mTOR pathway (5/9), PI3K/AKT/mTOR pathway and BRAFv600E (1/9), ACVR1 (2/9) and PDGFRA (1/9); no severe side effects were reported during treatment. Response to treatment was evaluated according to Response Assessment in Pediatric Neuro-Oncology criteria, and the overall response rate within the cohort was 66%. Patients treated with targeted therapies were compared with the control cohort of 16 patients. Clinical and pathological characteristics of the two cohorts were homogeneous. Median OS in the personalized treatment and control cohort was 20.26 and 14.18 months, respectively (p = 0.032). In our experience, the treatment associated with the best OS was everolimus. Conclu

Published
2022

3. Dual IGF1R/IR inhibitors in combination with GD2-CAR T-cells display a potent anti-tumor activity in diffuse midline glioma H3K27M-mutant

Author

De Billy, E., Pellegrino, M., Orlando, D., Pericoli, G., Ferretti, R., Businaro, P., Ajmone-Cat, M. A., Rossi, S., Petrilli, L. L., Maestro, N., Diomedi-Camassei, F., Pezzullo, M., De Stefanis, C., Bencivenga, P., Palma, A., Rota, R., Del Bufalo, F., Massimi, Luca, Weber, G., Jones, C., Carai, A., Caruso, S., De Angelis, B., Caruana, I., Quintarelli, C., Mastronuzzi, A., Locatelli, Franco, Vinci, M., Massimi L., Locatelli F. (ORCID:0000-0002-7976-3654), De Billy, E., Pellegrino, M., Orlando, D., Pericoli, G., Ferretti, R., Businaro, P., Ajmone-Cat, M. A., Rossi, S., Petrilli, L. L., Maestro, N., Diomedi-Camassei, F., Pezzullo, M., De Stefanis, C., Bencivenga, P., Palma, A., Rota, R., Del Bufalo, F., Massimi, Luca, Weber, G., Jones, C., Carai, A., Caruso, S., De Angelis, B., Caruana, I., Quintarelli, C., Mastronuzzi, A., Locatelli, Franco, Vinci, M., Massimi L., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

Background: Diffuse midline gliomas (DMG) H3K27M-mutant, including diffuse intrinsic pontine glioma (DIPG), are pediatric brain tumors associated with grim prognosis. Although GD2-CAR T-cells demonstrated significant anti-tumor activity against DMG H3K27M-mutant in vivo, a multimodal approach may be needed to more effectively treat patients. We investigated GD2 expression in DMG/DIPG and other pediatric high-grade gliomas (pHGG) and sought to identify chemical compounds that would enhance GD2-CAR T-cell anti-tumor efficacy. Methods: Immunohistochemistry in tumor tissue samples and immunofluorescence in primary patient-derived cell lines were performed to study GD2 expression. We developed a high-throughput cell-based assay to screen 42 kinase inhibitors in combination with GD2-CAR T-cells. Cell viability, western blots, flow-cytometry, real time PCR experiments, DIPG 3D culture models, and orthotopic xenograft model were applied to investigate the effect of selected compounds on DIPG cell death and CAR T-cell function. Results: GD2 was heterogeneously, but widely, expressed in the tissue tested, while its expression was homogeneous and restricted to DMG/DIPG H3K27M-mutant cell lines. We identified dual IGF1R/IR antagonists, BMS-754807 and linsitinib, able to inhibit tumor cell viability at concentrations that do not affect CAR T-cells. Linsitinib, but not BMS-754807, decreases activation/exhaustion of GD2-CAR T-cells and increases their central memory profile. The enhanced anti-tumor activity of linsitinib/GD2-CAR T-cell combination was confirmed in DIPG models in vitro, ex vivo, and in vivo. Conclusion: Our study supports the development of IGF1R/IR inhibitors to be used in combination with GD2-CAR T-cells for treating patients affected by DMG/DIPG and, potentially, by pHGG.

Published
2022

7. Integration of multiple platforms for the analysis of multifluorescent marking technology applied to pediatric GBM and dipg

Author

Pericoli, G., Petrini, S., Giorda, E., Ferretti, R., Ajmone-Cat, M. A., Court, W., Conti, L. A., De Simone, R., Bencivenga, P., Palma, A., Di Giannatale, A., Jones, C., Carai, A., Mastronuzzi, A., de Billy, E., Locatelli, Franco, Vinci, M., Locatelli F. (ORCID:0000-0002-7976-3654), Pericoli, G., Petrini, S., Giorda, E., Ferretti, R., Ajmone-Cat, M. A., Court, W., Conti, L. A., De Simone, R., Bencivenga, P., Palma, A., Di Giannatale, A., Jones, C., Carai, A., Mastronuzzi, A., de Billy, E., Locatelli, Franco, Vinci, M., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

The intratumor heterogeneity represents one of the most difficult challenges for the development of effective therapies to treat pediatric glioblastoma (pGBM) and diffuse intrinsic pontine glioma (DIPG). These brain tumors are composed of heterogeneous cell subpopulations that coexist and cooperate to build a functional network responsible for their aggressive phenotype. Understanding the cellular and molecular mechanisms sustaining such network will be crucial for the identification of new therapeutic strategies. To study more in-depth these mechanisms, we sought to apply the Multifluorescent Marking Technology. We generated multifluorescent pGBM and DIPG bulk cell lines randomly expressing six different fluorescent proteins and from which we derived stable optical barcoded single cell-derived clones. In this study, we focused on the application of the Multifluorescent Marking Technology in 2D and 3D in vitro/ex vivo culture systems. We discuss how we integrated different multimodal fluorescence analysis platforms, identifying their strengths and limitations, to establish the tools that will enable further studies on the intratumor heterogeneity and interclonal interactions in pGBM and DIPG.

Published
2020

9. Burkitt lymphoma in a patient with Kabuki syndrome carrying a novel KMT2D mutation

Author

de Billy, E., Strocchio, L., Cacchione, A., Agolini, E., Gnazzo, M., Novelli, A., De Vito, R., Capolino, R., Digilio, M. C., Caruso, R., Mastronuzzi, A., Locatelli, Franco, Locatelli F. (ORCID:0000-0002-7976-3654), de Billy, E., Strocchio, L., Cacchione, A., Agolini, E., Gnazzo, M., Novelli, A., De Vito, R., Capolino, R., Digilio, M. C., Caruso, R., Mastronuzzi, A., Locatelli, Franco, and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

Kabuki syndrome (KS) is an extremely rare genetic disorder, mainly caused by germline mutations at specific epigenetic modifier genes, including KMT2D. Because the tumor suppressor gene KMT2D is also frequently altered in many cancer types, it has been suggested that KS may predispose to the development of cancer. However, KS being a rare disorder, few data are available on the incidence of cancer in KS patients. Here, we report the case of a 5-year-old boy affected by KS who developed Burkitt lymphoma (BL). Genetic analysis revealed the presence of a novel heterozygous mutation in the splice site of the intron 4 of KMT2D gene in both peripheral blood-extracted DNA and tumour cells. In addition, the tumour sample of the patient was positive for the classical somatic chromosomal translocation t(8;14) involving the c-MYC gene frequently identified in BL. We propose that the mutated KMT2D gene contributes to the development of both KS and BL observed in our patient and we suggest that strict surveillance must be performed in KS patients.

Published
2019

10. BRAF V600E inhibitor (vemurafenib) for BRAF V600E mutated low grade gliomas

Author

Bufalo, F. D., Ceglie, G., Cacchione, A., Alessi, I., Colafati, G. S., Carai, A., Diomedi-Camassei, F., De Billy, E., Agolini, E., Mastronuzzi, A., Locatelli, Franco, Locatelli F. (ORCID:0000-0002-7976-3654), Bufalo, F. D., Ceglie, G., Cacchione, A., Alessi, I., Colafati, G. S., Carai, A., Diomedi-Camassei, F., De Billy, E., Agolini, E., Mastronuzzi, A., Locatelli, Franco, and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

Low-grade gliomas (LGG) are the most common central nervous system tumors in children. Prognosis depends on complete surgical resection. For patients not amenable of gross total resection (GTR) new approaches are needed. The BRAF mutation V600E is critical for the pathogenesis of pediatric gliomas and specific inhibitors of the mutated protein, such as Vemurafenib, are available. We investigated the safety and efficacy of Vemurafenib as single agent in pediatric patients with V600E+ LGG. From November 2013 to May 2018, 7 patients have been treated in our Institution; treatment was well-tolerated, the main concern being dermatological toxicity. The best responses to treatment were: 1 complete response, 3 partial responses, 1 stable disease, only one patient progressed; in one patient, the follow-up is too short to establish the clinical response. Two patients discontinued treatment, and, in both cases, immediate progression of the disease was observed. In one case the treatment was discontinued due to toxicity, in the other one the previously assessed BRAF V600E mutation was not confirmed by further investigation. Two patients, after obtaining a response, progressed during treatment, suggesting the occurrence of resistance mechanisms. Clinical response, with improvement of the neurologic function, was observed in all patients a few weeks after the therapy was started. Despite the limitations inherent to a small and heterogeneous cohort, this experience, suggests that Vemurafenib represents a treatment option in pediatric patients affected by LGG and carrying BRAF mutation V600E.

Published
2018

12. Identification, localisation and functional analysis of FSH-regulated genes expressed in pig ovarian follicles

Author

Tosser-Klopp, Gwenola, De Billy, E., Benne, Francis, Yerle, Martine, Mulsant, Philippe, Gasser, F., Hatey, François, Laboratoire de Génétique Cellulaire (LGC), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), and Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées

Subjects
EXPRESSION, ADNC, [SDV]Life Sciences [q-bio], FSH, ComputingMilieux_MISCELLANEOUS
Abstract

Chantier qualité spécifique "Auteurs Externes" département de Génétique animale : uniquement liaison auteur au référentiel HR-Access; International audience

Published
1996

13. Expression ovarienne de la glutathion-S-transferase chez la truie

Author

Hatey, François, de Billy, E., Tosser-Klopp, Gwenola, Benne, Francis, Bonnet, Agnès, Quesnel, Hélène, Gasser, F., Laboratoire de Génétique Cellulaire (LGC), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, Station de recherches porcines, Institut National de la Recherche Agronomique (INRA), and ProdInra, Migration

Subjects
[SDV] Life Sciences [q-bio], LOCALISATION DE GENE, PROTEINE KINASE C, [SDV]Life Sciences [q-bio], FSH, BANQUE DE GENES, GLUTATHION TRANSFERASE, ComputingMilieux_MISCELLANEOUS
Abstract

Résumé P202; National audience

Published
1996

18. Manipulating the tumor immune microenvironment to improve cancer immunotherapy: IGF1R, a promising target.

Author

Pellegrino M, Secli V, D'Amico S, Petrilli LL, Caforio M, Folgiero V, Tumino N, Vacca P, Vinci M, Fruci D, and de Billy E

Subjects
Humans, Immunotherapy, Drug Delivery Systems, Molecular Targeted Therapy, Receptor, IGF Type 1, Tumor Microenvironment, Neoplasms therapy
Abstract

Cancer immunotherapy has made impressive advances in improving the outcome of patients affected by malignant diseases. Nonetheless, some limitations still need to be tackled to more efficiently and safely treat patients, in particular for those affected by solid tumors. One of the limitations is related to the immunosuppressive tumor microenvironment (TME), which impairs anti-tumor immunity. Efforts to identify targets able to turn the TME into a milieu more auspicious to current immuno-oncotherapy is a real challenge due to the high redundancy of the mechanisms involved. However, the insulin-like growth factor 1 receptor (IGF1R), an attractive drug target for cancer therapy, is emerging as an important immunomodulator and regulator of key immune cell functions. Here, after briefly summarizing the IGF1R signaling pathway in cancer, we review its role in regulating immune cells function and activity, and discuss IGF1R as a promising target to improve anti-cancer immunotherapy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The handling editor IC declared a past co-authorship with the authors MP, LLP, MC, VF, NT, PV, MV, EDB., (Copyright © 2024 Pellegrino, Secli, D’Amico, Petrilli, Caforio, Folgiero, Tumino, Vacca, Vinci, Fruci and de Billy.)

Published
2024
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19. Inhibition of exosome biogenesis affects cell motility in heterogeneous sub-populations of paediatric-type diffuse high-grade gliomas.

Author

Pericoli G, Galardi A, Paolini A, Petrilli LL, Pepe G, Palma A, Colletti M, Ferretti R, Giorda E, Levi Mortera S, Burford A, Carai A, Mastronuzzi A, Mackay A, Putignani L, Jones C, Pascucci L, Peinado H, Helmer-Citterich M, de Billy E, Masotti A, Locatelli F, Di Giannatale A, and Vinci M

Abstract

Background: Paediatric-type diffuse High-Grade Gliomas (PDHGG) are highly heterogeneous tumours which include distinct cell sub-populations co-existing within the same tumour mass. We have previously shown that primary patient-derived and optical barcoded single-cell-derived clones function as interconnected networks. Here, we investigated the role of exosomes as a route for inter-clonal communication mediating PDHGG migration and invasion., Results: A comprehensive characterisation of seven optical barcoded single-cell-derived clones obtained from two patient-derived cell lines was performed. These analyses highlighted extensive intra-tumour heterogeneity in terms of genetic and transcriptional profiles between clones as well as marked phenotypic differences including distinctive motility patterns. Live single-cell tracking analysis of 3D migration and invasion assays showed that the single-cell-derived clones display a higher speed and longer travelled distance when in co-culture compared to mono-culture conditions. To determine the role of exosomes in PDHGG inter-clonal cross-talks, we isolated exosomes released by different clones and characterised them in terms of marker expression, size and concentration. We demonstrated that exosomes are actively internalized by the cells and that the inhibition of their biogenesis, using the phospholipase inhibitor GW4689, significantly reduced the cell motility in mono-culture and more prominently when the cells from the clones were in co-culture. Analysis of the exosomal miRNAs, performed with a miRNome PCR panel, identified clone-specific miRNAs and a set of miRNA target genes involved in the regulation of cell motility/invasion/migration. These genes were found differentially expressed in co-culture versus mono-culture conditions and their expression levels were significantly modulated upon inhibition of exosome biogenesis., Conclusions: In conclusion, our study highlights for the first time a key role for exosomes in the inter-clonal communication in PDHGG and suggests that interfering with the exosome biogenesis pathway may be a valuable strategy to inhibit cell motility and dissemination for these specific diseases., (© 2023. The Author(s).)

Published
2023
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20. HSF1 Pathway Inhibitor Clinical Candidate (CCT361814/NXP800) Developed from a Phenotypic Screen as a Potential Treatment for Refractory Ovarian Cancer and Other Malignancies.

Author

Pasqua AE, Sharp SY, Chessum NEA, Hayes A, Pellegrino L, Tucker MJ, Miah A, Wilding B, Evans LE, Rye CS, Mok NY, Liu M, Henley AT, Gowan S, De Billy E, Te Poele R, Powers M, Eccles SA, Clarke PA, Raynaud FI, Workman P, Jones K, and Cheeseman MD

Subjects
Humans, Female, Transcription Factors metabolism, Cell Line, Tumor, Ovarian Neoplasms pathology, Antineoplastic Agents pharmacology
Abstract

CCT251236 1 , a potent chemical probe, was previously developed from a cell-based phenotypic high-throughput screen (HTS) to discover inhibitors of transcription mediated by HSF1, a transcription factor that supports malignancy. Owing to its activity against models of refractory human ovarian cancer, 1 was progressed into lead optimization. The reduction of P-glycoprotein efflux became a focus of early compound optimization; central ring halogen substitution was demonstrated by matched molecular pair analysis to be an effective strategy to mitigate this liability. Further multiparameter optimization led to the design of the clinical candidate, CCT361814/NXP800 22 , a potent and orally bioavailable fluorobisamide, which caused tumor regression in a human ovarian adenocarcinoma xenograft model with on-pathway biomarker modulation and a clean in vitro safety profile. Following its favorable dose prediction to human, 22 has now progressed to phase 1 clinical trial as a potential future treatment for refractory ovarian cancer and other malignancies.

Published
2023
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21. Targeted therapy for pediatric diffuse intrinsic pontine glioma: a single-center experience.

Author

Del Baldo G, Carai A, Abbas R, Cacchione A, Vinci M, Di Ruscio V, Colafati GS, Rossi S, Diomedi Camassei F, Maestro N, Temelso S, Pericoli G, De Billy E, Giovannoni I, Carboni A, Rinelli M, Agolini E, Mackay A, Jones C, Chiesa S, Balducci M, Locatelli F, and Mastronuzzi A

Abstract

Background: Diffuse intrinsic pontine glioma (DIPG) is a fatal disease with a median overall survival (OS) of less than 12 months after diagnosis. Radiotherapy (RT) still remains the mainstay treatment. Several other therapeutic strategies have been attempted in the last years without a significant effect on OS. Although radiological imaging is the gold standard for DIPG diagnosis, the urgent need to improve the survival has led to the reconsideration of biopsy with the aim to better understand the molecular profile of DIPG and support personalized treatment., Methods: In this study, we present a single-center experience in treating DIPG patients at disease progression combining targeted therapies with standard of care. Biopsy was proposed to all patients at diagnosis or disease progression. First-line treatment included RT and nimotuzumab/vinorelbine or temozolomide. Immunohistochemistry-targeted research included study of mTOR/p-mTOR pathway and BRAFv600E . Molecular analyses included polymerase chain reaction, followed by Sanger sequences and/or next-generation sequencing., Results: Based on the molecular profile, targeted therapy was administered in 9 out of 25 patients, while the remaining 16 patients were treated with standard of care. Personalized treatment included inhibition of the PI3K/AKT/mTOR pathway (5/9), PI3K/AKT/mTOR pathway and BRAFv600E (1/9), ACVR1 (2/9) and PDGFRA (1/9); no severe side effects were reported during treatment. Response to treatment was evaluated according to Response Assessment in Pediatric Neuro-Oncology criteria, and the overall response rate within the cohort was 66%. Patients treated with targeted therapies were compared with the control cohort of 16 patients. Clinical and pathological characteristics of the two cohorts were homogeneous. Median OS in the personalized treatment and control cohort was 20.26 and 14.18 months, respectively ( p  = 0.032). In our experience, the treatment associated with the best OS was everolimus., Conclusion: Despite the small simple size of our study, our data suggest a prognostic advantage and a safe profile of targeted therapies in DIPG patients, and we strongly advocate to reconsider the role of biopsy for these patients., Competing Interests: Competing Interests: The authors declare that there is no conflict of interest., (© The Author(s), 2022.)

Published
2022
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22. Pediatric Diffuse Midline Gliomas: An Unfinished Puzzle.

Author

Di Ruscio V, Del Baldo G, Fabozzi F, Vinci M, Cacchione A, de Billy E, Megaro G, Carai A, and Mastronuzzi A

Abstract

Diffuse midline glioma (DMG) is a heterogeneous group of aggressive pediatric brain tumors with a fatal prognosis. The biological hallmark in the major part of the cases is H3K27 alteration. Prognosis remains poor, with median survival ranging from 9 to 12 months from diagnosis. Clinical and radiological prognostic factors only partially change the progression-free survival but they do not improve the overall survival. Despite efforts, there is currently no curative therapy for DMG. Radiotherapy remains the standard treatment with only transitory benefits. No chemotherapeutic regimens were found to significantly improve the prognosis. In the new era of a deeper integration between histological and molecular findings, potential new approaches are currently under investigation. The entire international scientific community is trying to target DMG on different aspects. The therapeutic strategies involve targeting epigenetic alterations, such as methylation and acetylation status, as well as identifying new molecular pathways that regulate oncogenic proliferation; immunotherapy approaches too are an interesting point of research in the oncology field, and the possibility of driving the immune system against tumor cells has currently been evaluated in several clinical trials, with promising preliminary results. Moreover, thanks to nanotechnology amelioration, the development of innovative delivery approaches to overcross a hostile tumor microenvironment and an almost intact blood-brain barrier could potentially change tumor responses to different treatments. In this review, we provide a comprehensive overview of available and potential new treatments that are worldwide under investigation, with the intent that patient- and tumor-specific treatment could change the biological inauspicious history of this disease., Competing Interests: The authors declare no conflict of interest.

Published
2022
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23. Dual IGF1R/IR inhibitors in combination with GD2-CAR T-cells display a potent anti-tumor activity in diffuse midline glioma H3K27M-mutant.

Author

de Billy E, Pellegrino M, Orlando D, Pericoli G, Ferretti R, Businaro P, Ajmone-Cat MA, Rossi S, Petrilli LL, Maestro N, Diomedi-Camassei F, Pezzullo M, De Stefanis C, Bencivenga P, Palma A, Rota R, Del Bufalo F, Massimi L, Weber G, Jones C, Carai A, Caruso S, De Angelis B, Caruana I, Quintarelli C, Mastronuzzi A, Locatelli F, and Vinci M

Subjects
Child, Humans, T-Lymphocytes metabolism, Brain Stem Neoplasms pathology, Glioma drug therapy, Glioma genetics, Glioma pathology, Immunotherapy, Adoptive, Receptor, IGF Type 1 antagonists & inhibitors, Receptor, Insulin antagonists & inhibitors
Abstract

Background: Diffuse midline gliomas (DMG) H3K27M-mutant, including diffuse intrinsic pontine glioma (DIPG), are pediatric brain tumors associated with grim prognosis. Although GD2-CAR T-cells demonstrated significant anti-tumor activity against DMG H3K27M-mutant in vivo, a multimodal approach may be needed to more effectively treat patients. We investigated GD2 expression in DMG/DIPG and other pediatric high-grade gliomas (pHGG) and sought to identify chemical compounds that would enhance GD2-CAR T-cell anti-tumor efficacy., Methods: Immunohistochemistry in tumor tissue samples and immunofluorescence in primary patient-derived cell lines were performed to study GD2 expression. We developed a high-throughput cell-based assay to screen 42 kinase inhibitors in combination with GD2-CAR T-cells. Cell viability, western blots, flow-cytometry, real time PCR experiments, DIPG 3D culture models, and orthotopic xenograft model were applied to investigate the effect of selected compounds on DIPG cell death and CAR T-cell function., Results: GD2 was heterogeneously, but widely, expressed in the tissue tested, while its expression was homogeneous and restricted to DMG/DIPG H3K27M-mutant cell lines. We identified dual IGF1R/IR antagonists, BMS-754807 and linsitinib, able to inhibit tumor cell viability at concentrations that do not affect CAR T-cells. Linsitinib, but not BMS-754807, decreases activation/exhaustion of GD2-CAR T-cells and increases their central memory profile. The enhanced anti-tumor activity of linsitinib/GD2-CAR T-cell combination was confirmed in DIPG models in vitro, ex vivo, and in vivo., Conclusion: Our study supports the development of IGF1R/IR inhibitors to be used in combination with GD2-CAR T-cells for treating patients affected by DMG/DIPG and, potentially, by pHGG., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Neuro-Oncology.)

Published
2022
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24. MET Inhibition Sensitizes Rhabdomyosarcoma Cells to NOTCH Signaling Suppression.

Author

Perrone C, Pomella S, Cassandri M, Pezzella M, Milano GM, Colletti M, Cossetti C, Pericoli G, Di Giannatale A, de Billy E, Vinci M, Petrini S, Marampon F, Quintarelli C, Taulli R, Roma J, Gallego S, Camero S, Mariottini P, Cervelli M, Maestro R, Miele L, De Angelis B, Locatelli F, and Rota R

Abstract

Rhabdomyosarcoma (RMS) is a pediatric myogenic soft tissue sarcoma. The Fusion-Positive (FP) subtype expresses the chimeric protein PAX3-FOXO1 (P3F) while the Fusion-Negative (FN) is devoid of any gene translocation. FP-RMS and metastatic FN-RMS are often unresponsive to conventional therapy. Therefore, novel therapeutic approaches are needed to halt tumor progression. NOTCH signaling has oncogenic functions in RMS and its pharmacologic inhibition through γ-secretase inhibitors blocks tumor growth in vitro and in vivo . Here, we show that NOTCH signaling blockade resulted in the up-regulation and phosphorylation of the MET oncogene in both RH30 (FP-RMS) and RD (FN-RMS) cell lines. Pharmacologic inhibition of either NOTCH or MET signaling slowed proliferation and restrained cell survival compared to control cells partly by increasing Annexin V and CASP3/7 activation. Co-treatment with NOTCH and MET inhibitors significantly amplified these effects and enhanced PARP1 cleavage in both cell lines. Moreover, it severely hampered cell migration, colony formation, and anchorage-independent growth compared to single-agent treatments in both cell lines and significantly prevented the growth of FN-RMS cells grown as spheroids. Collectively, our results unveil the overexpression of the MET oncogene by NOTCH signaling targeting in RMS cells and show that MET pathway blockade sensitizes them to NOTCH inhibition., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Perrone, Pomella, Cassandri, Pezzella, Milano, Colletti, Cossetti, Pericoli, Di Giannatale, de Billy, Vinci, Petrini, Marampon, Quintarelli, Taulli, Roma, Gallego, Camero, Mariottini, Cervelli, Maestro, Miele, De Angelis, Locatelli and Rota.)

Published
2022
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26. Focal adhesion kinase inhibitor TAE226 combined with Sorafenib slows down hepatocellular carcinoma by multiple epigenetic effects.

Author

Romito I, Porru M, Braghini MR, Pompili L, Panera N, Crudele A, Gnani D, De Stefanis C, Scarsella M, Pomella S, Levi Mortera S, de Billy E, Conti AL, Marzano V, Putignani L, Vinciguerra M, Balsano C, Pastore A, Rota R, Tartaglia M, Leonetti C, and Alisi A

Subjects
Animals, Antineoplastic Combined Chemotherapy Protocols pharmacology, Cell Line, Tumor, Cell Proliferation, Humans, Male, Mice, Mice, Inbred NOD, Morpholines pharmacology, Sorafenib pharmacology, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Carcinoma, Hepatocellular drug therapy, Epigenesis, Genetic genetics, Liver Neoplasms drug therapy, Morpholines therapeutic use, Sorafenib therapeutic use
Abstract

Background: Hepatocellular carcinoma (HCC) is one of the most common and lethal malignant tumours worldwide. Sorafenib (SOR) is one of the most effective single-drug systemic therapy against advanced HCC, but the identification of novel combination regimens for a continued improvement in overall survival is a big challenge. Recent studies highlighted the crucial role of focal adhesion kinase (FAK) in HCC growth. The aim of this study was to investigate the antitumor effects of three different FAK inhibitors (FAKi), alone or in combination with SOR, using in vitro and in vivo models of HCC., Methods: The effect of PND1186, PF431396, TAE226 on cell viability was compared to SOR. Among them TAE226, emerging as the most effective FAKi, was tested alone or in combination with SOR using 2D/3D human HCC cell line cultures and HCC xenograft murine models. The mechanisms of action were assessed by gene/protein expression and imaging approaches, combined with high-throughput methods., Results: TAE226 was the more effective FAKi to be combined with SOR against HCC. Combined TAE226 and SOR treatment reduced HCC growth both in vitro and in vivo by affecting tumour-promoting gene expression and inducing epigenetic changes via dysregulation of FAK nuclear interactome. We characterized a novel nuclear functional interaction between FAK and the NuRD complex. TAE226-mediated FAK depletion and SOR-promoted MAPK down-modulation caused a decrease in the nuclear amount of HDAC1/2 and a consequent increase of the histone H3 lysine 27 acetylation, thus counteracting histone H3 lysine 27 trimethylation., Conclusions: Altogether, our findings provide the first evidence that TAE226 combined with SOR efficiently reduces HCC growth in vitro and in vivo. Also, our data highlight that deep analysis of FAK nuclear interactome may lead to the identification of new promising targets for HCC therapy., (© 2021. The Author(s).)

Published
2021
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27. PI3K/Akt Pathway: The Indestructible Role of a Vintage Target as a Support to the Most Recent Immunotherapeutic Approaches.

Author

Caforio M, de Billy E, De Angelis B, Iacovelli S, Quintarelli C, Paganelli V, and Folgiero V

Abstract

Pathologic activation of PI3Ks and the subsequent deregulation of its downstream signaling pathway is among the most frequent events associated with cellular transformation, cancer, and metastasis. PI3Ks are also emerging as critical factors in regulating anti-tumor immunity by either promoting an immunosuppressive tumor microenvironment or by controlling the activity and the tumor infiltration of cells involved in the immune response. For these reasons, significant pharmaceutical efforts are dedicated to inhibiting the PI3K pathway, with the main goal to target the tumor and, at the same time, to enhance the anti-tumor immunity. Recent immunotherapeutic approaches involving the use of adoptive cell transfer of autologous genetically modified T cells or immune check-point inhibitors showed high efficacy. However, mechanisms of resistance to these kinds of therapy are emerging, due in part to the inhibition of effector T cell functions exerted by the immunosuppressive tumor microenvironment. Here, we first describe how inhibition of PI3K/Akt pathway contribute to enhance anti-tumor immunity and further discuss how inhibitors of the pathway are used in combination with different immunomodulatory and immunotherapeutic agents to improve anti-tumor efficacy.

Published
2021
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28. Manipulating the Metabolism to Improve the Efficacy of CAR T-Cell Immunotherapy.

Author

Pellegrino M, Del Bufalo F, De Angelis B, Quintarelli C, Caruana I, and de Billy E

Subjects
Antigens, Neoplasm immunology, Humans, Immunotherapy, Adoptive, Neoplasms immunology, Neoplasms therapy, Receptors, Chimeric Antigen immunology, T-Lymphocytes cytology, T-Lymphocytes immunology, T-Lymphocytes metabolism, Tumor Microenvironment immunology
Abstract

The adoptive transfer of the chimeric antigen receptor (CAR) expressing T-cells has produced unprecedented successful results in the treatment of B-cell malignancies. However, the use of this technology in other malignancies remains less effective. In the setting of solid neoplasms, CAR T-cell metabolic fitness needs to be optimal to reach the tumor and execute their cytolytic function in an environment often hostile. It is now well established that both tumor and T cell metabolisms play critical roles in controlling the immune response by conditioning the tumor microenvironment and the fate and activity of the T cells. In this review, after a brief description of the tumoral and T cell metabolic reprogramming, we summarize the latest advances and new strategies that have been developed to improve the metabolic fitness and efficacy of CAR T-cell products.

Published
2020
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29. Integration of Multiple Platforms for the Analysis of Multifluorescent Marking Technology Applied to Pediatric GBM and DIPG.

Author

Pericoli G, Petrini S, Giorda E, Ferretti R, Ajmone-Cat MA, Court W, Conti LA, De Simone R, Bencivenga P, Palma A, Di Giannatale A, Jones C, Carai A, Mastronuzzi A, de Billy E, Locatelli F, and Vinci M

Subjects
Brain Neoplasms metabolism, Cell Line, Glioblastoma metabolism, Glioma metabolism, HEK293 Cells, Humans, Luminescent Proteins metabolism, Pediatrics, Technology methods, Brain Neoplasms pathology, Glioblastoma pathology, Glioma pathology
Abstract

The intratumor heterogeneity represents one of the most difficult challenges for the development of effective therapies to treat pediatric glioblastoma (pGBM) and diffuse intrinsic pontine glioma (DIPG). These brain tumors are composed of heterogeneous cell subpopulations that coexist and cooperate to build a functional network responsible for their aggressive phenotype. Understanding the cellular and molecular mechanisms sustaining such network will be crucial for the identification of new therapeutic strategies. To study more in-depth these mechanisms, we sought to apply the Multifluorescent Marking Technology. We generated multifluorescent pGBM and DIPG bulk cell lines randomly expressing six different fluorescent proteins and from which we derived stable optical barcoded single cell-derived clones. In this study, we focused on the application of the Multifluorescent Marking Technology in 2D and 3D in vitro/ex vivo culture systems. We discuss how we integrated different multimodal fluorescence analysis platforms, identifying their strengths and limitations, to establish the tools that will enable further studies on the intratumor heterogeneity and interclonal interactions in pGBM and DIPG.

Published
2020
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30. Burkitt lymphoma in a patient with Kabuki syndrome carrying a novel KMT2D mutation.

Author

de Billy E, Strocchio L, Cacchione A, Agolini E, Gnazzo M, Novelli A, De Vito R, Capolino R, Digilio MC, Caruso R, Mastronuzzi A, and Locatelli F

Subjects
Abnormalities, Multiple physiopathology, Burkitt Lymphoma complications, Burkitt Lymphoma physiopathology, Child, Preschool, Face physiopathology, Hematologic Diseases complications, Hematologic Diseases physiopathology, Humans, Male, Mutation, Proto-Oncogene Proteins c-myc genetics, Translocation, Genetic genetics, Vestibular Diseases complications, Vestibular Diseases physiopathology, Abnormalities, Multiple genetics, Burkitt Lymphoma genetics, DNA-Binding Proteins genetics, Face abnormalities, Hematologic Diseases genetics, Neoplasm Proteins genetics, Protein Isoforms genetics, Vestibular Diseases genetics
Abstract

Kabuki syndrome (KS) is an extremely rare genetic disorder, mainly caused by germline mutations at specific epigenetic modifier genes, including KMT2D. Because the tumor suppressor gene KMT2D is also frequently altered in many cancer types, it has been suggested that KS may predispose to the development of cancer. However, KS being a rare disorder, few data are available on the incidence of cancer in KS patients. Here, we report the case of a 5-year-old boy affected by KS who developed Burkitt lymphoma (BL). Genetic analysis revealed the presence of a novel heterozygous mutation in the splice site of the intron 4 of KMT2D gene in both peripheral blood-extracted DNA and tumour cells. In addition, the tumour sample of the patient was positive for the classical somatic chromosomal translocation t(8;14) involving the c-MYC gene frequently identified in BL. We propose that the mutated KMT2D gene contributes to the development of both KS and BL observed in our patient and we suggest that strict surveillance must be performed in KS patients., (© 2018 Wiley Periodicals, Inc.)

Published
2019
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31. BRAF V600E Inhibitor (Vemurafenib) for BRAF V600E Mutated Low Grade Gliomas.

Author

Del Bufalo F, Ceglie G, Cacchione A, Alessi I, Colafati GS, Carai A, Diomedi-Camassei F, De Billy E, Agolini E, Mastronuzzi A, and Locatelli F

Abstract

Low-grade gliomas (LGG) are the most common central nervous system tumors in children. Prognosis depends on complete surgical resection. For patients not amenable of gross total resection (GTR) new approaches are needed. The BRAF mutation V600E is critical for the pathogenesis of pediatric gliomas and specific inhibitors of the mutated protein, such as Vemurafenib, are available. We investigated the safety and efficacy of Vemurafenib as single agent in pediatric patients with V600E + LGG. From November 2013 to May 2018, 7 patients have been treated in our Institution; treatment was well-tolerated, the main concern being dermatological toxicity. The best responses to treatment were: 1 complete response, 3 partial responses, 1 stable disease, only one patient progressed; in one patient, the follow-up is too short to establish the clinical response. Two patients discontinued treatment, and, in both cases, immediate progression of the disease was observed. In one case the treatment was discontinued due to toxicity, in the other one the previously assessed BRAF V600E mutation was not confirmed by further investigation. Two patients, after obtaining a response, progressed during treatment, suggesting the occurrence of resistance mechanisms. Clinical response, with improvement of the neurologic function, was observed in all patients a few weeks after the therapy was started. Despite the limitations inherent to a small and heterogeneous cohort, this experience, suggests that Vemurafenib represents a treatment option in pediatric patients affected by LGG and carrying BRAF mutation V600E.

Published
2018
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32. HSF1 Is Essential for Myeloma Cell Survival and A Promising Therapeutic Target.

Author

Fok JHL, Hedayat S, Zhang L, Aronson LI, Mirabella F, Pawlyn C, Bright MD, Wardell CP, Keats JJ, De Billy E, Rye CS, Chessum NEA, Jones K, Morgan GJ, Eccles SA, Workman P, and Davies FE

Subjects
Animals, Antineoplastic Agents pharmacology, Apoptosis genetics, Caspases metabolism, Cell Line, Tumor, Computational Biology methods, Disease Models, Animal, Gene Expression Profiling, Gene Knockdown Techniques, Heat Shock Transcription Factors antagonists & inhibitors, Heat Shock Transcription Factors metabolism, Humans, Kaplan-Meier Estimate, Mice, Molecular Targeted Therapy, Multiple Myeloma drug therapy, Multiple Myeloma metabolism, Multiple Myeloma mortality, Signal Transduction, Xenograft Model Antitumor Assays, Biomarkers, Tumor, Cell Survival genetics, Heat Shock Transcription Factors genetics, Multiple Myeloma genetics
Abstract

Purpose: Myeloma is a plasma cell malignancy characterized by the overproduction of immunoglobulin, and is therefore susceptible to therapies targeting protein homeostasis. We hypothesized that heat shock factor 1 (HSF1) was an attractive therapeutic target for myeloma due to its direct regulation of transcriptional programs implicated in both protein homeostasis and the oncogenic phenotype. Here, we interrogate HSF1 as a therapeutic target in myeloma using bioinformatic, genetic, and pharmacologic means. Experimental Design: To assess the clinical relevance of HSF1, we analyzed publicly available patient myeloma gene expression datasets. Validation of this novel target was conducted in in vitro experiments using shRNA or inhibitors of the HSF1 pathway in human myeloma cell lines and primary cells as well as in in vivo human myeloma xenograft models. Results: Expression of HSF1 and its target genes were associated with poorer myeloma patient survival. ShRNA-mediated knockdown or pharmacologic inhibition of the HSF1 pathway with a novel chemical probe, CCT251236, or with KRIBB11, led to caspase-mediated cell death that was associated with an increase in EIF2α phosphorylation, CHOP expression and a decrease in overall protein synthesis. Importantly, both CCT251236 and KRIBB11 induced cytotoxicity in human myeloma cell lines and patient-derived primary myeloma cells with a therapeutic window over normal cells. Pharmacologic inhibition induced tumor growth inhibition and was well-tolerated in a human myeloma xenograft murine model with evidence of pharmacodynamic biomarker modulation. Conclusions: Taken together, our studies demonstrate the dependence of myeloma cells on HSF1 for survival and support the clinical evaluation of pharmacologic inhibitors of the HSF1 pathway in myeloma. Clin Cancer Res; 24(10); 2395-407. ©2018 AACR See related commentary by Parekh, p. 2237 ., (©2018 American Association for Cancer Research.)

Published
2018
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33. Congenital Extra-Ventricular (Ganglio)Neurocytoma of the Brain Stem: A Case Report.

Author

Piras M, Miele E, Di Giannatale A, Colafati GS, Diomedi-Camassei F, Vinci M, de Billy E, Mastronuzzi A, and Carai A

Abstract

Extraventricular neurocytoma (EVN) is an extremely rare tumor of neuroglial origin with a tendency toward ganglionic or glial differentiation. In the 2016 World Health Organization Classification, EVN was classified as a grade II tumor and described as a neoplasm with good outcome. However, the presence of cellular atypia is an important unfavorable prognostic factor. Here, we describe the first case of a patient with a congenital EVN localized in the brainstem. After a sub-total resection, his disease rapidly progressed despite several chemotherapies, including molecular targeting approaches. He died 13 months after diagnosis. In conclusion, we report an atypical case of EVN presenting an extremely aggressive behavior, despite the absence of cellular atypia. The brainstem origin and the age of the patient may have represented two important prognostic factors for our patient.

Published
2018
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34. Discovery of a Chemical Probe Bisamide (CCT251236): An Orally Bioavailable Efficacious Pirin Ligand from a Heat Shock Transcription Factor 1 (HSF1) Phenotypic Screen.

Author

Cheeseman MD, Chessum NE, Rye CS, Pasqua AE, Tucker MJ, Wilding B, Evans LE, Lepri S, Richards M, Sharp SY, Ali S, Rowlands M, O'Fee L, Miah A, Hayes A, Henley AT, Powers M, Te Poele R, De Billy E, Pellegrino L, Raynaud F, Burke R, van Montfort RL, Eccles SA, Workman P, and Jones K

Subjects
Administration, Oral, Amides administration & dosage, Amides pharmacology, Biological Availability, Carbon-13 Magnetic Resonance Spectroscopy, Dioxygenases, Drug Discovery, Heat Shock Transcription Factors, Ligands, Proton Magnetic Resonance Spectroscopy, Quinolines administration & dosage, Quinolines pharmacology, Spectrometry, Mass, Electrospray Ionization, Amides chemistry, Carrier Proteins chemistry, DNA-Binding Proteins chemistry, Nuclear Proteins chemistry, Quinolines chemistry, Transcription Factors chemistry
Abstract

Phenotypic screens, which focus on measuring and quantifying discrete cellular changes rather than affinity for individual recombinant proteins, have recently attracted renewed interest as an efficient strategy for drug discovery. In this article, we describe the discovery of a new chemical probe, bisamide (CCT251236), identified using an unbiased phenotypic screen to detect inhibitors of the HSF1 stress pathway. The chemical probe is orally bioavailable and displays efficacy in a human ovarian carcinoma xenograft model. By developing cell-based SAR and using chemical proteomics, we identified pirin as a high affinity molecular target, which was confirmed by SPR and crystallography.

Published
2017
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35. Discovery of 4,6-disubstituted pyrimidines as potent inhibitors of the heat shock factor 1 (HSF1) stress pathway and CDK9.

Author

Rye CS, Chessum NE, Lamont S, Pike KG, Faulder P, Demeritt J, Kemmitt P, Tucker J, Zani L, Cheeseman MD, Isaac R, Goodwin L, Boros J, Raynaud F, Hayes A, Henley AT, de Billy E, Lynch CJ, Sharp SY, Te Poele R, Fee LO, Foote KM, Green S, Workman P, and Jones K

Abstract

Heat shock factor 1 (HSF1) is a transcription factor that plays key roles in cancer, including providing a mechanism for cell survival under proteotoxic stress. Therefore, inhibition of the HSF1-stress pathway represents an exciting new opportunity in cancer treatment. We employed an unbiased phenotypic screen to discover inhibitors of the HSF1-stress pathway. Using this approach we identified an initial hit ( 1 ) based on a 4,6-pyrimidine scaffold (2.00 μM). Optimisation of cellular SAR led to an inhibitor with improved potency ( 25 , 15 nM) in the HSF1 phenotypic assay. The 4,6-pyrimidine 25 was also shown to have high potency against the CDK9 enzyme (3 nM).

Published
2016
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36. HSF1 in Translation.

Author

de Billy E, Clarke PA, and Workman P

Subjects
Animals, Humans, DNA-Binding Proteins biosynthesis, Neoplasms metabolism, Neoplasms pathology, Protein Biosynthesis physiology, Ribosomes metabolism, Transcription Factors biosynthesis
Abstract

The master regulator of the classical cytoprotective "heat shock" response, heat shock factor 1 (HSF1), is increasingly implicated in cancer pathogenesis, but the mechanisms remain poorly understood. A recent study connects increased protein translation to activation of HSF1 in malignant cells and demonstrates the therapeutic benefit of targeting this link., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published
2013
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37. Shock about heat shock in cancer.

Author

de Billy E, Travers J, and Workman P

Subjects
Animals, Cell Line, Tumor, Cell Transformation, Neoplastic, HSP90 Heat-Shock Proteins metabolism, Heat Shock Transcription Factors, Humans, Mice, Molecular Chaperones genetics, Molecular Chaperones metabolism, Transcriptional Activation, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Heat-Shock Response, Neoplasms metabolism, Transcription Factors genetics, Transcription Factors metabolism
Abstract

The transcription factor heat shock factor 1 (HSF1) is the master regulator of the heat shock response. It is crucial for cell homeostasis and implicated in aging, neurodegenerative disease and cancer. Although induction by HSF1 of the expression of molecular chaperones and other regulators of protein quality control, both folding and degradation, is well established, the precise and detailed transcriptional network that HSF1 regulates in cancer is poorly understood. An important new study identifies an HSF1-regulated transcriptional program in highly malignant cells that is surprisingly distinct from the traditional heat shock response. The results have significant implications for our molecular understanding of cancer and the development of new therapies.

Published
2012
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38. Drugging the heat shock factor 1 pathway: exploitation of the critical cancer cell dependence on the guardian of the proteome.

Author

de Billy E, Powers MV, Smith JR, and Workman P

Subjects
Animals, Cell Line, Tumor, DNA-Binding Proteins antagonists & inhibitors, HSP72 Heat-Shock Proteins metabolism, HSP90 Heat-Shock Proteins metabolism, Heat Shock Transcription Factors, Mice, Phosphorylation, Protein Binding, Transcription Factors antagonists & inhibitors, DNA-Binding Proteins metabolism, Proteome metabolism, Transcription Factors metabolism
Published
2009
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39. Putting the heat on cancer.

Author

Workman P and de Billy E

Subjects
Animals, Cell Transformation, Neoplastic, DNA-Binding Proteins metabolism, Gene Silencing, HSP90 Heat-Shock Proteins metabolism, Heat Shock Transcription Factors, Hot Temperature, Humans, Mice, Mitochondria metabolism, Models, Biological, Transcription Factors metabolism, Heat-Shock Response, Neoplasms pathology, Neoplasms therapy
Published
2007
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