Your search keyword '"epigenetic drugs"' showing total 484 results

1. The pharmacoepigenetic paradigm in cancer treatment.

Author

Ocaña-Paredes, Belén, Rivera-Orellana, Sebastián, Ramírez-Sánchez, David, Montalvo-Guerrero, Juliana, Freire, María Paula, Espinoza-Ferrao, Samantha, Altamirano-Colina, Adriana, Echeverría-Espinoza, Paulina, Ramos-Medina, María José, Echeverría-Garcés, Gabriela, Granda-Moncayo, Danilo, Jácome-Alvarado, Andrea, Andrade, María Gabriela, and López-Cortés, Andrés

Subjects

CANCER treatment, HISTONE acetyltransferase, HISTONE deacetylase inhibitors, GENE expression, DRUG therapy, MOLECULAR clock, PHARMACOGENOMICS

Abstract

Epigenetic modifications, characterized by changes in gene expression without altering the DNA sequence, play a crucial role in the development and progression of cancer by significantly influencing gene activity and cellular function. This insight has led to the development of a novel class of therapeutic agents, known as epigenetic drugs. These drugs, including histone deacetylase inhibitors, histone acetyltransferase inhibitors, histone methyltransferase inhibitors, and DNA methyltransferase inhibitors, aim to modulate gene expression to curb cancer growth by uniquely altering the epigenetic landscape of cancer cells. Ongoing research and clinical trials are rigorously evaluating the efficacy of these drugs, particularly their ability to improve therapeutic outcomes when used in combination with other treatments. Such combination therapies may more effectively target cancer and potentially overcome the challenge of drug resistance, a significant hurdle in cancer therapy. Additionally, the importance of nutrition, inflammation control, and circadian rhythm regulation in modulating drug responses has been increasingly recognized, highlighting their role as critical modifiers of the epigenetic landscape and thereby influencing the effectiveness of pharmacological interventions and patient outcomes. Epigenetic drugs represent a paradigm shift in cancer treatment, offering targeted therapies that promise a more precise approach to treating a wide spectrum of tumors, potentially with fewer side effects compared to traditional chemotherapy. This progress marks a step towards more personalized and precise interventions, leveraging the unique epigenetic profiles of individual tumors to optimize treatment strategies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Epigenetic alterations and advancement of lymphoma treatment.

Author

Zhuang, Shuhui, Yang, Zhaobo, Cui, Zhuangzhuang, Zhang, Yuanyuan, and Che, Fengyuan

Subjects

*CANCER treatment, *RNA modification & restriction, *EPIGENETICS, *RNA regulation, *NON-coding RNA

Abstract

Lymphomas, complex and heterogeneous malignant tumors, originate from the lymphopoietic system. These tumors are notorious for their high recurrence rates and resistance to treatment, which leads to poor prognoses. As ongoing research has shown, epigenetic modifications like DNA methylation, histone modifications, non-coding RNA regulation, and RNA modifications play crucial roles in lymphoma pathogenesis. Epigenetic modification–targeting drugs have exhibited therapeutic efficacy and tolerability in both monotherapy and combination lymphoma therapy. This review discusses pathogenic mechanisms and potential epigenetic therapeutic targets in common lymphomas, offering new avenues for lymphoma diagnosis and treatment. We also discuss the shortcomings of current lymphoma treatments, while suggesting potential areas for future research, in order to improve the prediction and prognosis of lymphoma. [ABSTRACT FROM AUTHOR]

Published

2024

3. Fast proliferating and slowly migrating non‐small cell lung cancer cells are vulnerable to decitabine and retinoic acid combinatorial treatment.

Author

Pelos, Giulia, Riester, Marisa, Pal, Jagriti, Myacheva, Ksenia, Moneke, Isabelle, Rotondo, John Charles, Lübbert, Michael, and Diederichs, Sven

Subjects

NON-small-cell lung carcinoma, TRETINOIN, DECITABINE, CANCER cells, CELL populations

Abstract

Non‐small cell lung cancer (NSCLC) patients are often elderly or unfit and thus cannot tolerate standard aggressive therapy regimes. In our study, we test the efficacy of the DNA‐hypomethylating agent decitabine (DAC) in combination with all‐trans retinoic acid (ATRA), which has been shown to possess little systemic adverse effects. Screening a broad panel of 56 NSCLC cell lines uncovered a decrease in cell viability after the combination treatment in 77% of the cell lines. Transcriptomics, proteomics, proliferation and migration profiling revealed that fast proliferating and slowly migrating cell lines were more sensitive to the drug combination. The comparison of mutational profiles found oncogenic KRAS mutations only in sensitive cells. Additionally, different cell lines showed a heterogeneous gene expression response to the treatment pointing to diverse mechanisms of action. Silencing KRAS, RIG‐I or RARB partially reversed the sensitivity of KRAS‐mutant NCI‐H460 cells. To study resistance, we generated two NCI‐H460 cell populations resistant to ATRA and DAC, which migrated faster and proliferated slower than the parental sensitive cells and showed signs of senescence. In summary, this comprehensive dataset uncovers a broad sensitivity of NSCLC cells to the combinatorial treatment with DAC and ATRA and indicates that migration and proliferation capacities correlate with and could thus serve as determinants for drug sensitivity in NSCLC. [ABSTRACT FROM AUTHOR]

Published

2024

4. Epigenetics and its therapeutic potential in colorectal cancer

Author

Oryani, Mahsa Akbari, Tavasoli, Afsaneh, Ghalavand, Mohammad Amin, Ashtiani, Rahele Zokaei, Rezaee, Alisam, Mahmoudi, Rasadokht, Golvari, Hossein, Owrangi, Soroor, and Soleymani-Goloujeh, Mehdi

Subjects

Colo-Rectal Cancer, Cancer, Digestive Diseases, Genetics, Colorectal Neoplasms, DNA Methylation, Epigenesis, Genetic, Histone Code, Humans, Prognosis, colorectal cancer, epigenetic drugs, epigenetic mediators, epigenetics, methylation, Clinical Sciences

Abstract

It is estimated that colorectal cancer (CRC) is the leading cause of cancer-related death around the globe. 'Epigenetics' refers to changes in the chromosome rather than the DNA sequence, which may be transmitted down to daughter cells. Epigenetics is an essential part of controlling the development and variation of a single cell. ncRNAs have a role in epigenetic regulation in CRC, which will be discussed in this review in the context of DNA methylation and histone modifications. A greater survival rate for CRC patients might be achieved by addressing epigenetic mediators, as the authors show. In this review, they aim to thoroughly examine the role of epigenetics in the prognosis, diagnosis and treatment of CRC.

Published

2022

5. Immunotherapy of mesothelioma: the evolving change of a long-standing therapeutic dream.

Author

Calabrò, Luana, Bronte, Giuseppe, Grosso, Federica, Cerbone, Luigi, Delmonte, Angelo, Nicolini, Fabio, Mazza, Massimiliano, Di Giacomo, Anna Maria, Covre, Alessia, Lofiego, Maria Fortunata, Crinò, Lucio, and Maio, Michele

Subjects

IMMUNE checkpoint inhibitors, MESOTHELIOMA, IMMUNOTHERAPY, PEMETREXED, OVERALL survival

Abstract

Pleural mesothelioma (PM) is an aggressive and rare disease, characterized by a very poor prognosis. For almost two decades, the world standard treatment regimen for unresectable PM has consisted of a platinum-based drug plus pemetrexed, leading to an overall survival of approximately 12 months. The dramatic therapeutic scenario of PM has recently changed with the entry into the clinic of immune checkpoint inhibition, which has proven to be an effective approach to improve the survival of PMpatients. The aimof the present review is to provide a comprehensive overview of the most promising immunotherapeuticbased strategies currently under investigation for advanced PM. [ABSTRACT FROM AUTHOR]

Published

2024

6. Simultaneous administration of EZH2 and BET inhibitors inhibits proliferation and clonogenic ability of metastatic prostate cancer cells.

Author

Negri, Aide, Marozzi, Marina, Trisciuoglio, Daniela, Rotili, Dante, Mai, Antonello, and Rizzi, Federica

Subjects

*ANDROGEN receptors, *CASTRATION-resistant prostate cancer, *PROSTATE cancer, *METASTASIS, *ANDROGEN deprivation therapy, *CANCER cells

Abstract

Androgen deprivation therapy (ADT) is a common treatment for recurrent prostate cancer (PC). However, after a certain period of responsiveness, ADT resistance occurs virtually in all patients and the disease progresses to lethal metastatic castration-resistant prostate cancer (mCRPC). Aberrant expression and function of the epigenetic modifiers EZH2 and BET over activates c-myc, an oncogenic transcription factor critically contributing to mCRPC. In the present work, we tested, for the first time, the combination of an EZH2 inhibitor with a BET inhibitor in metastatic PC cells. The combination outperformed single drugs in inhibiting cell viability, cell proliferation and clonogenic ability, and concomitantly reduced both c-myc and NF-kB expression. Although these promising results will warrant further in vivo validation, they represent the first step to establishing the rationale that the proposed combination might be suitable for mCRPC treatment, by exploiting molecular targets different from androgen receptor. [ABSTRACT FROM AUTHOR]

Published

2023

7. Current Status and Challenges in Anti-Hepatitis B Virus Agents Based on Inactivation/Inhibition or Elimination of Hepatitis B Virus Covalently Closed Circular DNA.

Author

Zhuang, An-Qi, Chen, Yan, Chen, Shan-Mei, Liu, Wen-Cheng, Li, Yao, Zhang, Wen-Jie, and Wu, Yi-Hang

Subjects

*HEPATITIS B virus, *CIRCULAR DNA, *CHRONIC hepatitis B, *HEPATITIS B, *TENOFOVIR, *SMALL molecules

Abstract

There has been over half a century since the discovery of hepatitis B virus (HBV) to now, but approximately 300 million patients with chronic hepatitis B (CHB) still live in the world, resulting in about one million deaths every year. Although currently approved antivirals (e.g., nucleoside analogues) are effective at reducing HBV replication, they have almost no impact on the existing HBV covalently closed circular DNA (cccDNA) reservoir. HBV cccDNA is a critical obstacle to the complete elimination of the virus via antiviral therapy. The true cure of HBV infection requires the eradication of viral cccDNA from HBV-infected cells; thus, the development of new agents directly or indirectly targeting HBV cccDNA is urgently needed due to the limitations of current available drugs against HBV infection. In this regard, it is the major focus of current anti-HBV research worldwide via different mechanisms to either inactivate/inhibit (functional cure) or eliminate (complete cure) HBV cccDNA. Therefore, this review discussed and summarized recent advances and challenges in efforts to inactivate/silence or eliminate viral cccDNA using anti-HBV agents from different sources, such as small molecules (including epigenetic drugs) and polypeptides/proteins, and siRNA or gene-editing approaches targeting/attenuating HBV cccDNA via different mechanisms, as well as future directions that may be considered in efforts to truly cure chronic HBV infection. In conclusion, no breakthrough has been made yet in attenuating HBV cccDNA, although a number of candidates have advanced into the phase of clinical trials. Furthermore, the overwhelming majority of the candidates function to indirectly target HBV cccDNA. No outstanding candidate directly targets HBV cccDNA. Relatively speaking, CCC_R08 and nitazoxanide may be some of the most promising agents to clear HBV infection in small molecule compounds. Additionally, CRISPR-Cas9 systems can directly target HBV cccDNA for decay and demonstrate significant anti-HBV activity. Consequently, gene-editing approaches targeting HBV cccDNA may be one of the most promising means to achieve the core goal of anti-HBV therapeutic strategies. In short, more basic studies on HBV infection need to be carried out to overcome these challenges. [ABSTRACT FROM AUTHOR]

Published

2023

8. The pharmacoepigenetic paradigm in cancer treatment

Author

Belén Ocaña-Paredes, Sebastián Rivera-Orellana, David Ramírez-Sánchez, Juliana Montalvo-Guerrero, María Paula Freire, Samantha Espinoza-Ferrao, Adriana Altamirano-Colina, Paulina Echeverría-Espinoza, María José Ramos-Medina, Gabriela Echeverría-Garcés, Danilo Granda-Moncayo, Andrea Jácome-Alvarado, María Gabriela Andrade, and Andrés López-Cortés

Subjects

epigenetic drugs, histone deacetylase inhibitors, histone acetyltransferase inhibitors, histone methyltransferase inhibitors, DNA methyltransferase inhibitors, clinical trials, Therapeutics. Pharmacology, RM1-950

Abstract

Epigenetic modifications, characterized by changes in gene expression without altering the DNA sequence, play a crucial role in the development and progression of cancer by significantly influencing gene activity and cellular function. This insight has led to the development of a novel class of therapeutic agents, known as epigenetic drugs. These drugs, including histone deacetylase inhibitors, histone acetyltransferase inhibitors, histone methyltransferase inhibitors, and DNA methyltransferase inhibitors, aim to modulate gene expression to curb cancer growth by uniquely altering the epigenetic landscape of cancer cells. Ongoing research and clinical trials are rigorously evaluating the efficacy of these drugs, particularly their ability to improve therapeutic outcomes when used in combination with other treatments. Such combination therapies may more effectively target cancer and potentially overcome the challenge of drug resistance, a significant hurdle in cancer therapy. Additionally, the importance of nutrition, inflammation control, and circadian rhythm regulation in modulating drug responses has been increasingly recognized, highlighting their role as critical modifiers of the epigenetic landscape and thereby influencing the effectiveness of pharmacological interventions and patient outcomes. Epigenetic drugs represent a paradigm shift in cancer treatment, offering targeted therapies that promise a more precise approach to treating a wide spectrum of tumors, potentially with fewer side effects compared to traditional chemotherapy. This progress marks a step towards more personalized and precise interventions, leveraging the unique epigenetic profiles of individual tumors to optimize treatment strategies.

Published

2024

9. Epigenetic regulation in cancer therapy: From mechanisms to clinical advances

Author

Lei Tao, Yue Zhou, Yuan Luo, Jiahao Qiu, Yuzhou Xiao, Jiao Zou, Yu Zhang, Xingchen Liu, Xinyu Yang, Kun Gou, Jing Xu, Xinqi Guan, Xiaobo Cen, and Yinglan Zhao

Subjects

cancer therapy, DNA methylation, histone modifications, epigenetic drugs, epigenetic regulation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Epigenetic regulation refers to the alteration of gene expression independent of changes in DNA sequence. It involves chemical modifications such as DNA methylation, histone methylation, and histone acetylation, which are regulated by a coordinated interplay of various regulators to ensure precise spatial and temporal regulation of gene expression. Epigenetic aberrations are commonly observed in cancer and are considered as hallmarks of cancer. In recent years, small molecules targeting specific epigenetic regulators have been developed and are demonstrating promising therapeutic potential in preclinical and clinical trials for cancer treatment. In this review, we summarize the essential regulatory mechanisms and dysfunctions of epigenetic regulators involved in DNA methylation, histone methylation, and histone acetylation during tumor development and progression. Moreover, we discuss the current advances and challenges in cancer epigenetic therapy that target these mechanisms in both hematologic malignancies and solid tumors. Finally, we discuss the potential of combining epigenetic drugs with other therapies, including chemotherapy, radiotherapy, targeted therapy, and immunotherapy, as a promising approach for cancer treatment. Overall, we aim to enhance the understanding of epigenetic regulation in cancer therapy and explore targeted therapeutic strategies based on these mechanisms, to ultimately advance cancer therapy and improve patient prognosis.

Published

2024

10. Epigenetic regulation and therapeutic targets in the tumor microenvironment

Author

Zhuojun Xie, Zirui Zhou, Shuxian Yang, Shiwen Zhang, and Bin Shao

Subjects

Tumour microenvironment, Epigenetics, Immune checkpoint inhibitors, Epigenetic drugs, Medicine

Abstract

Abstract The tumor microenvironment (TME) is crucial to neoplastic processes, fostering proliferation, angiogenesis and metastasis. Epigenetic regulations, primarily including DNA and RNA methylation, histone modification and non-coding RNA, have been generally recognized as an essential feature of tumor malignancy, exceedingly contributing to the dysregulation of the core gene expression in neoplastic cells, bringing about the evasion of immunosurveillance by influencing the immune cells in TME. Recently, compelling evidence have highlighted that clinical therapeutic approaches based on epigenetic machinery modulate carcinogenesis through targeting TME components, including normalizing cells’ phenotype, suppressing cells’ neovascularization and repressing the immunosuppressive components in TME. Therefore, TME components have been nominated as a promising target for epigenetic drugs in clinical cancer management. This review focuses on the mechanisms of epigenetic modifications occurring to the pivotal TME components including the stroma, immune and myeloid cells in various tumors reported in the last five years, concludes the tight correlation between TME reprogramming and tumor progression and immunosuppression, summarizes the current advances in cancer clinical treatments and potential therapeutic targets with reference to epigenetic drugs. Finally, we summarize some of the restrictions in the field of cancer research at the moment, further discuss several interesting epigenetic gene targets with potential strategies to boost antitumor immunity.

Published

2023

11. Immunotherapy of mesothelioma: the evolving change of a long-standing therapeutic dream

Author

Luana Calabrò, Giuseppe Bronte, Federica Grosso, Luigi Cerbone, Angelo Delmonte, Fabio Nicolini, Massimiliano Mazza, Anna Maria Di Giacomo, Alessia Covre, Maria Fortunata Lofiego, Lucio Crinò, and Michele Maio

Subjects

pleural mesothelioma, immunotherapy, immune checkpoint inhibitors, adoptive cell therapy, epigenetic drugs, Immunologic diseases. Allergy, RC581-607

Abstract

Pleural mesothelioma (PM) is an aggressive and rare disease, characterized by a very poor prognosis. For almost two decades, the world standard treatment regimen for unresectable PM has consisted of a platinum-based drug plus pemetrexed, leading to an overall survival of approximately 12 months. The dramatic therapeutic scenario of PM has recently changed with the entry into the clinic of immune checkpoint inhibition, which has proven to be an effective approach to improve the survival of PM patients. The aim of the present review is to provide a comprehensive overview of the most promising immunotherapeutic-based strategies currently under investigation for advanced PM.

Published

2024

12. Simultaneous administration of EZH2 and BET inhibitors inhibits proliferation and clonogenic ability of metastatic prostate cancer cells

Author

Aide Negri, Marina Marozzi, Daniela Trisciuoglio, Dante Rotili, Antonello Mai, and Federica Rizzi

Subjects

GSK126, JQ1, c-myc, metastatic prostate cancer, epigenetic drugs, Therapeutics. Pharmacology, RM1-950

Abstract

Androgen deprivation therapy (ADT) is a common treatment for recurrent prostate cancer (PC). However, after a certain period of responsiveness, ADT resistance occurs virtually in all patients and the disease progresses to lethal metastatic castration-resistant prostate cancer (mCRPC). Aberrant expression and function of the epigenetic modifiers EZH2 and BET over activates c-myc, an oncogenic transcription factor critically contributing to mCRPC. In the present work, we tested, for the first time, the combination of an EZH2 inhibitor with a BET inhibitor in metastatic PC cells. The combination outperformed single drugs in inhibiting cell viability, cell proliferation and clonogenic ability, and concomitantly reduced both c-myc and NF-kB expression. Although these promising results will warrant further in vivo validation, they represent the first step to establishing the rationale that the proposed combination might be suitable for mCRPC treatment, by exploiting molecular targets different from androgen receptor.

Published

2023

13. A study of using epigenetic modulators to enhance response to pembrolizumab (MK-3475) in microsatellite stable advanced colorectal cancer

Author

Marina Baretti, Adrian G. Murphy, Marianna Zahurak, Nicole Gianino, Rose Parkinson, Rosalind Walker, Tamara Y. Lopez-Vidal, Lei Zheng, Gary Rosner, Nita Ahuja, Schalper Kurt, and Nilofer S. Azad

Subjects

Epigenetic drugs, Histone deacetylases inhibitors, DNA methyltransferases inhibitors, Colorectal cancer, Microsatellite proficiency, Immunotherapy, Medicine, Genetics, QH426-470

Abstract

Abstract Background Approximately 95% of advanced colorectal cancer patients (CRC) have mismatch repair MMR-proficient (MMRp) tumors, which do not respond to PD1 blockade alone. Preclinical studies have shown that combined histone deacetylases (HDAC) and/or DNA methyltransferases (DNMT) inhibition can induce susceptibility to immune checkpoint therapy and inhibit tumor growth. We conducted a pilot trial evaluating PD-1 immune checkpoint inhibitor therapy in combination with DNMT and HDAC inhibitors in MMRp CRC. The study was designed with a biological endpoint of change in immune cell infiltration, to determine the optimal epigenetic combination that optimizes the tumor microenvironment. This trial was designed to test that hypothesis. Results From January 2016 to November 2018, 27 patients were enrolled with median age of 57 (range 40–69) years. Median progression-free survival and overall survival were 2.79 months and 9.17, respectively. One patient in Arm C achieved a durable partial response by RECIST criteria, lasting for approximately 19 months. The most common treatment-related hematological adverse events in all arms were anemia (62%), lymphopenia (54%) and thrombocytopenia (35%), and non-hematological AEs were anorexia (65%), nausea (77%), and vomiting (73%). Conclusions The combination of 5-azacitidine and romidepsin with pembrolizumab was safe and tolerable in patients with advanced MMRp CRC, but with a minimal activity. Further mechanistic investigations are needed to understand epigenetic-induced immunologic shift and to expand the potential applicability of checkpoint inhibitors in this setting.

Published

2023

14. Epigenetic reactivation of tumor suppressor genes with CRISPRa technologies as precision therapy for hepatocellular carcinoma

Author

Agustin Sgro, Joseph Cursons, Charlene Waryah, Eleanor A. Woodward, Momeneh Foroutan, Ruqian Lyu, George C. T. Yeoh, Peter J. Leedman, and Pilar Blancafort

Subjects

CRISPRa, Genome multiplexing, Epigenetic editing toolbox, Tumor suppressor genes, Hepatocellular carcinoma, Epigenetic drugs, Medicine, Genetics, QH426-470

Abstract

Abstract Background Epigenetic silencing of tumor suppressor genes (TSGs) is a key feature of oncogenesis in hepatocellular carcinoma (HCC). Liver-targeted delivery of CRISPR-activation (CRISPRa) systems makes it possible to exploit chromatin plasticity, by reprogramming transcriptional dysregulation. Results Using The Cancer Genome Atlas HCC data, we identify 12 putative TSGs with negative associations between promoter DNA methylation and transcript abundance, with limited genetic alterations. All HCC samples harbor at least one silenced TSG, suggesting that combining a specific panel of genomic targets could maximize efficacy, and potentially improve outcomes as a personalized treatment strategy for HCC patients. Unlike epigenetic modifying drugs lacking locus selectivity, CRISPRa systems enable potent and precise reactivation of at least 4 TSGs tailored to representative HCC lines. Concerted reactivation of HHIP, MT1M, PZP, and TTC36 in Hep3B cells inhibits multiple facets of HCC pathogenesis, such as cell viability, proliferation, and migration. Conclusions By combining multiple effector domains, we demonstrate the utility of a CRISPRa toolbox of epigenetic effectors and gRNAs for patient-specific treatment of aggressive HCC.

Published

2023

15. Hepatocellular carcinoma immunotherapy: The impact of epigenetic drugs and the gut microbiome

Author

Vaziri, Farzam, Colquhoun, Steven, and Wan, Yu-Jui Yvonne

Subjects

Liver Cancer, Rare Diseases, Orphan Drug, Chronic Liver Disease and Cirrhosis, Digestive Diseases, Human Genome, Genetics, Liver Disease, Cancer, Immunization, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Good Health and Well Being, Combination therapy, Epigenetic drugs, Gut microbiota, Hepatocellular carcinoma, Immunotherapy

Abstract

The incidence of hepatocellular carcinoma (HCC) has been increasing for decades. This disease has now risen to become the sixth most common malignancy overall, while ranking as the third most frequent cause of cancer mortality. While several surgical interventions and loco-regional treatment options are available, up to 80% of patients present with advanced disease not amenable to standard therapies. Indeed, traditional cytotoxic chemotherapeutic agents are notoriously ineffective and essentially play no role in the management of affected patients. This has led to an enormous need for more effective systemic therapeutic options. In recent years, immunotherapy has emerged as a potentially viable and exciting new alternative for the treatment of HCC. Although the current immunotherapeutic options remain imperfect, various strategies can be employed to further improve their efficacy. New findings have revealed epigenetic modulation can be effective as a new approach for improving HCC immunotherapy. Studying the gut microbiome (gut-liver axis) can also be an interesting subject in this regard. Here, we explore the latest insights into the role of immunotherapy treatmenting HCC, both mono and in combination with other agents. We also focus on the impact of epigenetic drugs and the microbiome in the overall effectiveness of HCC immunotherapy.

Published

2020

16. A Prognostic Model of Head and Neck Cancer Based on Amino Acid Metabolism-Related Signature and Its Implication for Immunosuppressive Microenvironment.

Author

Li, Xuran, Li, Danni, Li, Jiaojiao, Chen, Yiliang, Cai, Zhenyu, and Tan, Fei

Subjects

*HEAD & neck cancer, *AMINO acid metabolism, *PROGNOSTIC models, *AMINO acids, *IMMUNE checkpoint inhibitors

Abstract

Amino acid metabolism has been implicated in tumorigenesis and tumor progression. Alterations in intracellular and extracellular metabolites associated with metabolic reprogramming in cancer have profound effects on gene expression, cell differentiation, and tumor immune microenvironment. However, the prognostic significance of amino acid metabolism in head and neck cancer remains to be further investigated. In this study, we identified 98 differentially expressed genes related to amino acid metabolism in head and neck cancer in The Cancer Genome Atlas. Using batch univariate Cox regression and Lasso regression, we extracted nine amino acid metabolism-related genes. Based on that, we developed the amino acid metabolism index. The prognostic value of this index was validated in two Gene Expression Omnibus cohorts. The results show that this model can help predict tumor recurrence and prognosis. The infiltration of immune cells in the tumor microenvironment was analyzed, and it was discovered that the high index is associated with an immunosuppressive microenvironment. In addition, this study demonstrated the impact of the amino acid metabolism index on clinical indicators, survival of patients with head and neck cancer, and the prediction of treatment response to immune checkpoint inhibitors. We conducted several cell experiments and demonstrated that epigenetic drugs could affect the index and enhance tumor immunity. In conclusion, our study demonstrates that the index not only has important prognostic value in head and neck cancer patients but also facilitates patient stratification for immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2023

17. SWI/SNF Complex Alterations in Tumors with Rhabdoid Features: Novel Therapeutic Approaches and Opportunities for Adoptive Cell Therapy.

Author

Soto-Castillo, Juan José, Llavata-Marti, Lucía, Fort-Culillas, Roser, Andreu-Cobo, Pablo, Moreno, Rafael, Codony, Carles, García del Muro, Xavier, Alemany, Ramon, Piulats, Josep M., and Martin-Liberal, Juan

Subjects

*THERAPEUTICS, *CELLULAR therapy, *IMMUNE checkpoint inhibitors, *PROGRAMMED cell death 1 receptors, *CHROMATIN-remodeling complexes, *TUMORS

Abstract

The SWItch/Sucrose Non-Fermentable (SWI/SNF) chromatin-remodeling complex is one of the most remarkably altered epigenetic regulators in cancer. Pathogenic mutations in genes encoding SWI/SNF-related proteins have been recently described in many solid tumors, including rare and aggressive malignancies with rhabdoid features with no standard therapies in advanced or metastatic settings. In recent years, clinical trials with targeted drugs aimed at restoring its function have shown discouraging results. However, preclinical data have found an association between these epigenetic alterations and response to immune therapy. Thus, the rationale for immunotherapy strategies in SWI/SNF complex alteration-related tumors is strong. Here, we review the SWI/SNF complex and how its dysfunction drives the oncogenesis of rhabdoid tumors and the proposed strategies to revert this alteration and promising novel therapeutic approaches, including immune checkpoint inhibition and adoptive cell therapy. [ABSTRACT FROM AUTHOR]

Published

2023

18. Epigenomic machinery regulating pediatric AML: Clonal expansion mechanisms, therapies, and future perspectives.

Author

Chianese, Ugo, Papulino, Chiara, Megchelenbrink, Wout, Tambaro, Francesco Paolo, Ciardiello, Fortunato, Benedetti, Rosaria, and Altucci, Lucia

Subjects

*ACUTE myeloid leukemia, *PROGNOSIS, *METABOLIC regulation, *THERAPEUTICS, *GENETIC regulation

Abstract

Acute myeloid leukemia (AML) is a heterogeneous disease with a genetic, epigenetic, and transcriptional etiology mainly presenting somatic and germline abnormalities. AML incidence rises with age but can also occur during childhood. Pediatric AML (pAML) accounts for 15–20% of all pediatric leukemias and differs considerably from adult AML. Next-generation sequencing technologies have enabled the research community to "paint" the genomic and epigenomic landscape in order to identify pathology-associated mutations and other prognostic biomarkers in pAML. Although current treatments have improved the prognosis for pAML, chemoresistance, recurrence, and refractory disease remain major challenges. In particular, pAML relapse is commonly caused by leukemia stem cells that resist therapy. Marked patient-to-patient heterogeneity is likely the primary reason why the same treatment is successful for some patients but, at best, only partially effective for others. Accumulating evidence indicates that patient-specific clonal composition impinges significantly on cellular processes, such as gene regulation and metabolism. Although our understanding of metabolism in pAML is still in its infancy, greater insights into these processes and their (epigenetic) modulation may pave the way toward novel treatment options. In this review, we summarize current knowledge on the function of genetic and epigenetic (mis)regulation in pAML, including metabolic features observed in the disease. Specifically, we describe how (epi)genetic machinery can affect chromatin status during hematopoiesis, leading to an altered metabolic profile, and focus on the potential value of targeting epigenetic abnormalities in precision and combination therapy for pAML. We also discuss the possibility of using alternative epidrug-based therapeutic approaches that are already in clinical practice, either alone as adjuvant treatments and/or in combination with other drugs. [ABSTRACT FROM AUTHOR]

Published

2023

19. Cancer epigenetics in clinical practice.

Author

Davalos, Veronica and Esteller, Manel

Subjects

EPIGENETICS, GENE expression, DNA methylation, HISTONE methylation, NUCLEOTIDE sequence

Abstract

Cancer development is driven by the accumulation of alterations affecting the structure and function of the genome. Whereas genetic changes disrupt the DNA sequence, epigenetic alterations contribute to the acquisition of hallmark tumor capabilities by regulating gene expression programs that promote tumorigenesis. Shifts in DNA methylation and histone mark patterns, the two main epigenetic modifications, orchestrate tumor progression and metastasis. These cancer‐specific events have been exploited as useful tools for diagnosis, monitoring, and treatment choice to aid clinical decision making. Moreover, the reversibility of epigenetic modifications, in contrast to the irreversibility of genetic changes, has made the epigenetic machinery an attractive target for drug development. This review summarizes the most advanced applications of epigenetic biomarkers and epigenetic drugs in the clinical setting, highlighting commercially available DNA methylation‐based assays and epigenetic drugs already approved by the US Food and Drug Administration. [ABSTRACT FROM AUTHOR]

Published

2023

20. Antimicrobial resistance and mechanisms of epigenetic regulation .

Author

Xinrui Wang, Donghong Yu, and Lu Chen

Subjects

GENE expression, DRUG resistance in microorganisms, EPIGENETICS, AGRICULTURE, DRUG resistance in bacteria, EPIGENOMICS

Abstract

The rampant use of antibiotics in animal husbandry, farming and clinical disease treatment has led to a significant issue with pathogen resistance worldwide over the past decades. The classical mechanisms of resistance typically investigate antimicrobial resistance resulting from natural resistance, mutation, gene transfer and other processes. However, the emergence and development of bacterial resistance cannot be fully explained from a genetic and biochemical standpoint. Evolution necessitates phenotypic variation, selection, and inheritance. There are indications that epigenetic modifications also play a role in antimicrobial resistance. This review will specifically focus on the effects of DNA modification, histone modification, rRNA methylation and the regulation of non-coding RNAs expression on antimicrobial resistance. In particular, we highlight critical work that how DNA methyltransferases and non-coding RNAs act as transcriptional regulators that allow bacteria to rapidly adapt to environmental changes and control their gene expressions to resist antibiotic stress. Additionally, it will delve into how Nucleolar-associated proteins in bacteria perform histone functions akin to eukaryotes. Epigenetics, a nonclassical regulatory mechanism of bacterial resistance, may offer new avenues for antibiotic target selection and the development of novel antibiotics. [ABSTRACT FROM AUTHOR]

Published

2023

21. Epigenetic regulation and therapeutic targets in the tumor microenvironment.

Author

Xie, Zhuojun, Zhou, Zirui, Yang, Shuxian, Zhang, Shiwen, and Shao, Bin

Subjects

TUMOR microenvironment, DRUG target, RNA modification & restriction, EPIGENETICS, RNA methylation, HUMAN carcinogenesis

Abstract

The tumor microenvironment (TME) is crucial to neoplastic processes, fostering proliferation, angiogenesis and metastasis. Epigenetic regulations, primarily including DNA and RNA methylation, histone modification and non-coding RNA, have been generally recognized as an essential feature of tumor malignancy, exceedingly contributing to the dysregulation of the core gene expression in neoplastic cells, bringing about the evasion of immunosurveillance by influencing the immune cells in TME. Recently, compelling evidence have highlighted that clinical therapeutic approaches based on epigenetic machinery modulate carcinogenesis through targeting TME components, including normalizing cells' phenotype, suppressing cells' neovascularization and repressing the immunosuppressive components in TME. Therefore, TME components have been nominated as a promising target for epigenetic drugs in clinical cancer management. This review focuses on the mechanisms of epigenetic modifications occurring to the pivotal TME components including the stroma, immune and myeloid cells in various tumors reported in the last five years, concludes the tight correlation between TME reprogramming and tumor progression and immunosuppression, summarizes the current advances in cancer clinical treatments and potential therapeutic targets with reference to epigenetic drugs. Finally, we summarize some of the restrictions in the field of cancer research at the moment, further discuss several interesting epigenetic gene targets with potential strategies to boost antitumor immunity. [ABSTRACT FROM AUTHOR]

Published

2023

22. Epigenetic Modifiers as Game Changers for Healthy Aging.

Author

Sharma, Shikha and Bhonde, Ramesh

Subjects

*EPIGENETICS, *MESENCHYMAL stem cells, *AGE of onset, *AGING

Abstract

Epigenetic alterations during aging are manifested with altered gene expression linking it to lifespan regulation, genetic instability, and diseases. Diet and epigenetic modifiers exert a profound effect on the lifespan of an organism by modulating the epigenetic marks. However, our understanding of the multifactorial nature of the epigenetic process during aging and the onset of disease conditions as well as its reversal by epidrugs, diet, or environmental factors is still mystifying. This review covers the key findings in epigenetics related to aging and age-related diseases. Furthermore, it holds a discussion about the epigenetic clocks and their implications in various age-related disease conditions, including cancer. Although, epigenetics is a reversible process, how fast the epigenetic alterations can revert to normal is an intriguing question. Therefore, this article touches on the possibility of utilizing nutrition and mesenchymal stem cell secretome to accelerate the epigenetic reversal and emphasizes the identification of new therapeutic epigenetic modifiers to counter epigenetic alteration during aging. [ABSTRACT FROM AUTHOR]

Published

2023

23. Epigenetic drugs induce the potency of classic chemotherapy, suppress post-treatment re-growth of breast cancer, but preserve the wound healing ability of stem cells

Author

Andrew Zheng, Michelle Bilbao, Janhvi Sookram, Kimberly M. Linden, Andrew B. Morgan, and Olga Ostrovsky

Subjects

triple negative breast cancer, epigenetic drugs, adipose-derived stem cells, wound healing, neoadjuvant chemotherapy, breast conserving therapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Epigenetic therapy augments neoadjuvant chemotherapy (NACT) in breast cancer and may aid post-surgical wound healing affected by NACT. Our study investigates: (1) The cytotoxicity of classic paclitaxel chemotherapy on triple negative breast cancer (TNBC) independently and in combination with epigenetic drugs. (2) The sustainable inhibition of breast cancer regrowth following paclitaxel and epigenetic therapies. (3) The effects of paclitaxel with and without epigenetic therapy on the post-treatment viability and wound healing potential of adipose stem cells (ASCs). Cytotoxicity assays were performed on TNBC and ASCs. Cells were treated and recovered in drug-free medium. Cell viability was measured via cell counts and MTT assays. W -ound healing was tested with scratch assays. The combination of epigenetic drugs shows increased toxicity against TNBC cells compared to standard chemotherapy alone. Moreover, the combination of paclitaxel with epigenetic treatments causes cancer toxicity that is sustainable to TNBC cells after the drugs’ removal with minimal effect on ASCs wound healing ability. The use of epigenetic drugs in addition to standard chemotherapy is cytotoxic to TNBC cells and prevents post-treatment recovery of TNBC while maintaining ASC wound healing ability. This strategy may be useful in maximizing post-surgical wound healing following NACT in TNBC.

Published

2022

24. The Cross-Talk between Epigenetic Gene Regulation and Signaling Pathways Regulates Cancer Pathogenesis

Author

Samanta, Snigdha, Mahata, Rumpa, Santra, Manas Kumar, Harris, J. Robin, Series Editor, Kundu, Tapas K., Advisory Editor, Korolchuk, Viktor, Advisory Editor, Bolanos-Garcia, Victor, Advisory Editor, Marles-Wright, Jon, Advisory Editor, Kundu, Tapas Kumar, editor, and Das, Chandrima, editor

Published

2022

25. Structural Basis of Targeted Imaging and Therapy in Cancer Explorations with the Epigenetic Drugs

Author

Pandit, Parimal, Brahmkhatri, Varsha, Harris, J. Robin, Series Editor, Kundu, Tapas K., Advisory Editor, Korolchuk, Viktor, Advisory Editor, Bolanos-Garcia, Victor, Advisory Editor, Marles-Wright, Jon, Advisory Editor, Kundu, Tapas Kumar, editor, and Das, Chandrima, editor

Published

2022

26. Epigenetics in Epidemiology

Author

Nicolini, Humberto, Genis-Mendoza, Alma Delia, Martínez-Magaña, José Jaime, Gomez-Verjan, Juan Carlos, editor, and Rivero-Segura, Nadia Alejandra, editor

Published

2022

27. Landscape of immune-related signatures induced by targeting of different epigenetic regulators in melanoma: implications for immunotherapy

Author

Andrea Anichini, Alessandra Molla, Gabriella Nicolini, Valentina Eleonora Perotti, Francesco Sgambelluri, Alessia Covre, Carolina Fazio, Maria Fortunata Lofiego, Anna Maria Di Giacomo, Sandra Coral, Antonella Manca, Maria Cristina Sini, Marina Pisano, Teresa Noviello, Francesca Caruso, Silvia Brich, Giancarlo Pruneri, Andrea Maurichi, Mario Santinami, Michele Ceccarelli, Giuseppe Palmieri, Michele Maio, Roberta Mortarini, and On behalf of the EPigenetic Immune-oncology Consortium AIRC (EPICA) investigators

Subjects

Melanoma, Epigenetic drugs, Immune-related signatures, Guadecitabine, Innate immunity, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Improvement of efficacy of immune checkpoint blockade (ICB) remains a major clinical goal. Association of ICB with immunomodulatory epigenetic drugs is an option. However, epigenetic inhibitors show a heterogeneous landscape of activities. Analysis of transcriptional programs induced in neoplastic cells by distinct classes of epigenetic drugs may foster identification of the most promising agents. Methods Melanoma cell lines, characterized for mutational and differentiation profile, were treated with inhibitors of DNA methyltransferases (guadecitabine), histone deacetylases (givinostat), BET proteins (JQ1 and OTX-015), and enhancer of zeste homolog 2 (GSK126). Modulatory effects of epigenetic drugs were evaluated at the gene and protein levels. Master molecules explaining changes in gene expression were identified by Upstream Regulator (UR) analysis. Gene set enrichment and IPA were used respectively to test modulation of guadecitabine-specific gene and UR signatures in baseline and on-treatment tumor biopsies from melanoma patients in the Phase Ib NIBIT-M4 Guadecitabine + Ipilimumab Trial. Prognostic significance of drug-specific immune-related genes was tested with Timer 2.0 in TCGA tumor datasets. Results Epigenetic drugs induced different profiles of gene expression in melanoma cell lines. Immune-related genes were frequently upregulated by guadecitabine, irrespective of the mutational and differentiation profiles of the melanoma cell lines, to a lesser extent by givinostat, but mostly downregulated by JQ1 and OTX-015. GSK126 was the least active drug. Quantitative western blot analysis confirmed drug-specific modulatory profiles. Most of the guadecitabine-specific signature genes were upregulated in on-treatment NIBIT-M4 tumor biopsies, but not in on-treatment lesions of patients treated only with ipilimumab. A guadecitabine-specific UR signature, containing activated molecules of the TLR, NF-kB, and IFN innate immunity pathways, was induced in drug-treated melanoma, mesothelioma and hepatocarcinoma cell lines and in a human melanoma xenograft model. Activation of guadecitabine-specific UR signature molecules in on-treatment tumor biopsies discriminated responding from non-responding NIBIT-M4 patients. Sixty-five % of the immune-related genes upregulated by guadecitabine were prognostically significant and conferred a reduced risk in the TCGA cutaneous melanoma dataset. Conclusions The DNMT inhibitor guadecitabine emerged as the most promising immunomodulatory agent among those tested, supporting the rationale for usage of this class of epigenetic drugs in combinatorial immunotherapy approaches.

Published

2022

28. A study of using epigenetic modulators to enhance response to pembrolizumab (MK-3475) in microsatellite stable advanced colorectal cancer.

Author

Baretti, Marina, Murphy, Adrian G., Zahurak, Marianna, Gianino, Nicole, Parkinson, Rose, Walker, Rosalind, Lopez-Vidal, Tamara Y., Zheng, Lei, Rosner, Gary, Ahuja, Nita, Kurt, Schalper, and Azad, Nilofer S.

Subjects

*COLORECTAL cancer, *MICROSATELLITE repeats, *IMMUNE checkpoint proteins, *DNA methyltransferases, *IMMUNE checkpoint inhibitors, *CETUXIMAB

Abstract

Background: Approximately 95% of advanced colorectal cancer patients (CRC) have mismatch repair MMR-proficient (MMRp) tumors, which do not respond to PD1 blockade alone. Preclinical studies have shown that combined histone deacetylases (HDAC) and/or DNA methyltransferases (DNMT) inhibition can induce susceptibility to immune checkpoint therapy and inhibit tumor growth. We conducted a pilot trial evaluating PD-1 immune checkpoint inhibitor therapy in combination with DNMT and HDAC inhibitors in MMRp CRC. The study was designed with a biological endpoint of change in immune cell infiltration, to determine the optimal epigenetic combination that optimizes the tumor microenvironment. This trial was designed to test that hypothesis. Results: From January 2016 to November 2018, 27 patients were enrolled with median age of 57 (range 40–69) years. Median progression-free survival and overall survival were 2.79 months and 9.17, respectively. One patient in Arm C achieved a durable partial response by RECIST criteria, lasting for approximately 19 months. The most common treatment-related hematological adverse events in all arms were anemia (62%), lymphopenia (54%) and thrombocytopenia (35%), and non-hematological AEs were anorexia (65%), nausea (77%), and vomiting (73%). Conclusions: The combination of 5-azacitidine and romidepsin with pembrolizumab was safe and tolerable in patients with advanced MMRp CRC, but with a minimal activity. Further mechanistic investigations are needed to understand epigenetic-induced immunologic shift and to expand the potential applicability of checkpoint inhibitors in this setting. [ABSTRACT FROM AUTHOR]

Published

2023

29. Epigenetic reactivation of tumor suppressor genes with CRISPRa technologies as precision therapy for hepatocellular carcinoma.

Author

Sgro, Agustin, Cursons, Joseph, Waryah, Charlene, Woodward, Eleanor A., Foroutan, Momeneh, Lyu, Ruqian, Yeoh, George C. T., Leedman, Peter J., and Blancafort, Pilar

Subjects

*TUMOR suppressor genes, *CRISPRS, *HEPATOCELLULAR carcinoma, *PHARMACOGENOMICS, *EPIGENETICS, *DNA methylation

Abstract

Background: Epigenetic silencing of tumor suppressor genes (TSGs) is a key feature of oncogenesis in hepatocellular carcinoma (HCC). Liver-targeted delivery of CRISPR-activation (CRISPRa) systems makes it possible to exploit chromatin plasticity, by reprogramming transcriptional dysregulation. Results: Using The Cancer Genome Atlas HCC data, we identify 12 putative TSGs with negative associations between promoter DNA methylation and transcript abundance, with limited genetic alterations. All HCC samples harbor at least one silenced TSG, suggesting that combining a specific panel of genomic targets could maximize efficacy, and potentially improve outcomes as a personalized treatment strategy for HCC patients. Unlike epigenetic modifying drugs lacking locus selectivity, CRISPRa systems enable potent and precise reactivation of at least 4 TSGs tailored to representative HCC lines. Concerted reactivation of HHIP, MT1M, PZP, and TTC36 in Hep3B cells inhibits multiple facets of HCC pathogenesis, such as cell viability, proliferation, and migration. Conclusions: By combining multiple effector domains, we demonstrate the utility of a CRISPRa toolbox of epigenetic effectors and gRNAs for patient-specific treatment of aggressive HCC. [ABSTRACT FROM AUTHOR]

Published

2023

30. Epigenetic Regulations in Autoimmunity and Cancer: from Basic Science to Translational Medicine.

Author

Hui, Li, Ziyue, Zhao, Chao, Liu, Bin, Yu, Aoyu, Li, and Haijing, Wu

Subjects

AUTOIMMUNE diseases, DNA methyltransferases, TRANSLATIONAL research, EPIGENETICS, SYSTEMIC lupus erythematosus, GENE expression, AUTOIMMUNITY

Abstract

Epigenetics, as a discipline that aims to explain the differential expression of phenotypes arising from the same gene sequence and the heritability of epigenetic expression, has received much attention in medicine. Epigenetic mechanisms are constantly being discovered, including DNA methylation, histone modifications, noncoding RNAs and m6A. The immune system mainly achieves an immune response through the differentiation and functional expression of immune cells, in which epigenetic modification will have an important impact. Because of immune infiltration in the tumor microenvironment, immunotherapy has become a research hotspot in tumor therapy. Epigenetics plays an important role in autoimmune diseases and cancers through immunology. An increasing number of drugs targeting epigenetic mechanisms, such as DNA methyltransferase inhibitors, histone deacetylase inhibitors, and drug combinations, are being evaluated in clinical trials for the treatment of various cancers (including leukemia and osteosarcoma) and autoimmune diseases (systemic lupus erythematosus, rheumatoid arthritis, systemic sclerosis). This review summarizes the progress of epigenetic regulation for cancers and autoimmune diseases to date, shedding light on potential therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2023

31. Effectiveness of apabetalone and some other indirect epigenetic-oriented drugs in the treatment of heart failure

Author

K. A. Aitbaev, I. T. Murkamilov, V. V. Fomin, Zh. A. Murkamilova, I. O. Kudaibergenova, and F. A. Yusupov

Subjects

cardiovascular disease, heart failure, epigenetic drugs, direct and indirect epigenetic therapy, apabetalone, clinical trials, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Epigenetic therapy for cardiovascular disease (CVD) has received increased attention from the medical community in recent years. Evidence of this is the fact that more and more controlled clinical trials evaluate the beneficial effects of: 1) direct epigenetic drugs, for example, apabetalone, and 2) repurposed drugs with possible indirect epigenetic action, for example, metformin, statins, sodium-glucose transport protein 2 (SGLT2) inhibitors and omega-3 polyunsaturated fatty acids (PUFAs) in CVD, including heart failure (HF) with reduced ejection fraction (HFrEF) and HF with preserved ejection fraction (HFpEF). Apabetalone is the first and unique direct-acting epigenetic drug tested in patients with CVD, and the BETonMACE study showed a reduction in first hospitalization for HF (at any EF) and CVD mortality in patients with type 2 diabetes (T2D) and recent acute coronary syndrome, suggesting a possible role for this drug in secondary prevention. Patients with HFpEF appear to benefit from the addition of metformin and SGLT2 inhibitors to standard statin therapy due to their ability to reduce the death risk. In contrast, hydralazine with or without isosorbide dinitrate produced no beneficial effects. In HFrEF, metformin and SGLT2 inhibitors may reduce the risk of HF and death, while clinical trials with statins have mixed results. PUFA supplementation was associated with a significant reduction in car­diovascular risk in both HFrEF and HFpEF. However, definitive data on the benefits of direct and indirect epigenetic therapy for CVD can only be obtained from large clinical trials in the future. The purpose of this review was to provide updated information on epigenetic therapy for CVD obtained from clinical trials.

Published

2023

32. Editorial: Epigenetic drugs and therapeutic resistance for epithelial malignancies

Author

Fangfang Tao and Zhiqian Zhang

Subjects

epigenetic modifications, cancer therapy, epigenetic drugs, therapeutic resistance, epithelial malignancies, Therapeutics. Pharmacology, RM1-950

Published

2023

33. Novel insights into cancer stem cells targeting: CAR-T therapy and epigenetic drugs as new pillars in cancer treatment

Author

Veronica Veschi, Alice Turdo, and Giorgio Stassi

Subjects

CAR-T cell therapy, CAR-NK, epigenetic inhibitors, cancer stem cells, epigenetic drugs, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Cancer stem cells (CSCs) represent the most aggressive subpopulation present in the tumor bulk retaining invasive capabilities, metastatic potential and high expression levels of drug efflux pumps responsible for therapy resistance. Cancer is still an incurable disease due to the inefficacy of standard regimens that spare this subpopulation. Selective targeting of CSCs is still an unmet need in cancer research field. Aberrant epigenetic reprogramming promotes the initiation and maintenance of CSCs, which are able to escape the immune system defense. Promising therapeutic approaches able to induce the selective inhibition of this stem-like small subset include immunotherapy alone or in combination with epigenetic compounds. These strategies are based on the specific expression of epitopes and/or epigenetic alterations present only in the CSC and not in the other cancer cells or normal cells. Thus, the combined approach utilizing CAR-T immunotherapy along with epigenetic probes may overcome the barriers of treatment ineffectiveness towards a more precision medicine approach in patients with known specific alterations of CSCs. In this perspective article we will shed new lights on the future applications of epi-immunotherapy in tumors enriched in CSCs, along with its potential side-effects, limitations and the development of therapy resistance.

Published

2023

34. Targeting Epigenetic Changes Mediated by Members of the SMYD Family of Lysine Methyltransferases.

Author

Padilla, Alyssa, Manganaro, John F., Huesgen, Lydia, Roess, Deborah A., Brown, Mark A., and Crans, Debbie C.

Subjects

*METHYLTRANSFERASES, *CUTANEOUS T-cell lymphoma, *EPIGENETICS, *LYSINE, *ION channels, *P53 antioncogene, *T-cell lymphoma

Abstract

A comprehensive understanding of the mechanisms involved in epigenetic changes in gene expression is essential to the clinical management of diseases linked to the SMYD family of lysine methyltransferases. The five known SMYD enzymes catalyze the transfer of donor methyl groups from S-adenosylmethionine (SAM) to specific lysines on histones and non-histone substrates. SMYDs family members have distinct tissue distributions and tissue-specific functions, including regulation of development, cell differentiation, and embryogenesis. Diseases associated with SMYDs include the repressed transcription of SMYD1 genes needed for the formation of ion channels in the heart leading to heart failure, SMYD2 overexpression in esophageal squamous cell carcinoma (ESCC) or p53-related cancers, and poor prognosis associated with SMYD3 overexpression in more than 14 types of cancer including breast cancer, colon cancer, prostate cancer, lung cancer, and pancreatic cancer. Given the importance of epigenetics in various pathologies, the development of epigenetic inhibitors has attracted considerable attention from the pharmaceutical industry. The pharmacologic development of the inhibitors involves the identification of molecules regulating both functional SMYD SET (Suppressor of variegation, Enhancer of Zeste, Trithorax) and MYND (Myeloid-Nervy-DEAF1) domains, a process facilitated by available X-ray structures for SMYD1, SMYD2, and SMYD3. Important leads for potential pharmaceutical agents have been reported for SMYD2 and SMYD3 enzymes, and six epigenetic inhibitors have been developed for drugs used to treat myelodysplastic syndrome (Vidaza, Dacogen), cutaneous T-cell lymphoma (Zoinza, Isrodax), and peripheral T-cell lymphoma (Beleodag, Epidaza). The recently demonstrated reversal of SMYD histone methylation suggests that reversing the epigenetic effects of SMYDs in cancerous tissues may be a desirable target for pharmacological development. [ABSTRACT FROM AUTHOR]

Published

2023

35. Synovial Sarcoma Preclinical Modeling: Integrating Transgenic Mouse Models and Patient-Derived Models for Translational Research.

Author

Landuzzi, Lorena, Ruzzi, Francesca, Lollini, Pier-Luigi, and Scotlandi, Katia

Subjects

*BIOLOGICAL models, *SYNOVIAL membranes, *XENOGRAFTS, *ONCOGENES, *NUCLEAR proteins, *CARCINOGENESIS, *SIGNAL peptides, *WNT proteins, *CELL receptors, *GENE expression, *CELLULAR signal transduction, *CHROMOSOME abnormalities, *PROTEIN-tyrosine kinases, *TUMOR suppressor genes, *TRANSGENIC animals, *CELL lines, *TRANSLATIONAL research, *TRANSCRIPTION factors, *SARCOMA, *MICE, *IMMUNOTHERAPY

Abstract

Simple Summary: Synovial sarcoma (SyS) is a rare malignant tumor mainly occurring in children, adolescents, and young adults. SyS displays the pathognomonic t(X;18) translocation resulting in the SS18-SSX fusion protein being able to interact with both the BAF enhancer complexes and polycomb repressor complexes, and either activate or repress gene transcription, resulting in genome-wide epigenetic deregulation and altered gene expression. This review analyzes the different experimental in vivo models for SyS research: (I) conditional transgenic mouse models expressing the SS18-SSX fusion protein that, alone or combined with some of the few other recurrent alterations (gains in BCL2, Wnt-β-catenin signaling, FGFR family, or loss of PTEN and SMARCB1), spontaneously develop SyS; (II) SyS patient-derived xenografts (PDX) established in immunodeficient mice; (III) SyS cell lines and cell line-derived xenografts. SyS preclinical models are greatly contributing to the disclosure of additional vulnerabilities and to the development of new therapeutic approaches for SyS. Synovial sarcomas (SyS) are rare malignant tumors predominantly affecting children, adolescents, and young adults. The genetic hallmark of SyS is the t(X;18) translocation encoding the SS18-SSX fusion gene. The fusion protein interacts with both the BAF enhancer and polycomb repressor complexes, and either activates or represses target gene transcription, resulting in genome-wide epigenetic perturbations and altered gene expression. Several experimental in in vivo models, including conditional transgenic mouse models expressing the SS18-SSX fusion protein and spontaneously developing SyS, are available. In addition, patient-derived xenografts have been estab-lished in immunodeficient mice, faithfully reproducing the complex clinical heterogeneity. This review focuses on the main molecular features of SyS and the related preclinical in vivo and in vitro models. We will analyze the different conditional SyS mouse models that, after combination with some of the few other recurrent alterations, such as gains in BCL2, Wnt-β-catenin signaling, FGFR family, or loss of PTEN and SMARCB1, have provided additional insight into the mechanisms of synovial sarcomagenesis. The recent advancements in the understanding of SyS biology and improvements in preclinical modeling pave the way to the development of new epigenetic drugs and immunotherapeutic approaches conducive to new treatment options. [ABSTRACT FROM AUTHOR]

Published

2023

36. Epigenetic Perspective of Immunotherapy for Cancers.

Author

Keshari, Sunita, Barrodia, Praveen, and Singh, Anand Kamal

Subjects

*EPIGENETICS, *IMMUNOTHERAPY, *TUMOR microenvironment, *CANCER patients, *IMMUNE checkpoint proteins

Abstract

Immunotherapy has brought new hope for cancer patients in recent times. However, despite the promising success of immunotherapy, there is still a need to address major challenges including heterogeneity in response among patients, the reoccurrence of the disease, and iRAEs (immune-related adverse effects). The first critical step towards solving these issues is understanding the epigenomic events that play a significant role in the regulation of specific biomolecules in the context of the immune population present in the tumor immune microenvironment (TIME) during various treatments and responses. A prominent advantage of this step is that it would enable researchers to harness the reversibility of epigenetic modifications for their druggability. Therefore, we reviewed the crucial studies in which varying epigenomic events were captured with immuno-oncology set-ups. Finally, we discuss the therapeutic possibilities of their utilization for the betterment of immunotherapy in terms of diagnosis, progression, and cure for cancer patients. [ABSTRACT FROM AUTHOR]

Published

2023

37. Current Status and Challenges in Anti-Hepatitis B Virus Agents Based on Inactivation/Inhibition or Elimination of Hepatitis B Virus Covalently Closed Circular DNA

Author

An-Qi Zhuang, Yan Chen, Shan-Mei Chen, Wen-Cheng Liu, Yao Li, Wen-Jie Zhang, and Yi-Hang Wu

Subjects

hepatitis B virus (HBV), covalently closed circular DNA (cccDNA), anti-HBV agents, targeting HBV cccDNA, attenuating HBV cccDNA function, epigenetic drugs, Microbiology, QR1-502

Abstract

There has been over half a century since the discovery of hepatitis B virus (HBV) to now, but approximately 300 million patients with chronic hepatitis B (CHB) still live in the world, resulting in about one million deaths every year. Although currently approved antivirals (e.g., nucleoside analogues) are effective at reducing HBV replication, they have almost no impact on the existing HBV covalently closed circular DNA (cccDNA) reservoir. HBV cccDNA is a critical obstacle to the complete elimination of the virus via antiviral therapy. The true cure of HBV infection requires the eradication of viral cccDNA from HBV-infected cells; thus, the development of new agents directly or indirectly targeting HBV cccDNA is urgently needed due to the limitations of current available drugs against HBV infection. In this regard, it is the major focus of current anti-HBV research worldwide via different mechanisms to either inactivate/inhibit (functional cure) or eliminate (complete cure) HBV cccDNA. Therefore, this review discussed and summarized recent advances and challenges in efforts to inactivate/silence or eliminate viral cccDNA using anti-HBV agents from different sources, such as small molecules (including epigenetic drugs) and polypeptides/proteins, and siRNA or gene-editing approaches targeting/attenuating HBV cccDNA via different mechanisms, as well as future directions that may be considered in efforts to truly cure chronic HBV infection. In conclusion, no breakthrough has been made yet in attenuating HBV cccDNA, although a number of candidates have advanced into the phase of clinical trials. Furthermore, the overwhelming majority of the candidates function to indirectly target HBV cccDNA. No outstanding candidate directly targets HBV cccDNA. Relatively speaking, CCC_R08 and nitazoxanide may be some of the most promising agents to clear HBV infection in small molecule compounds. Additionally, CRISPR-Cas9 systems can directly target HBV cccDNA for decay and demonstrate significant anti-HBV activity. Consequently, gene-editing approaches targeting HBV cccDNA may be one of the most promising means to achieve the core goal of anti-HBV therapeutic strategies. In short, more basic studies on HBV infection need to be carried out to overcome these challenges.

Published

2023

38. Designing Biomimicking Synthetic Transcription Factors for Therapeutic Gene Modulation

Author

Pandian, Ganesh N., Sugiyama, Hiroshi, Ferrari, Mauro, Series Editor, Wang, Dan Ohtan, editor, and Packwood, Daniel, editor

Published

2021

39. New Approaches in Medical Therapies

Author

Rubino, Manila, Spada, Francesca, Laffi, Alice, Fazio, Nicola, Beretta, Giordano, editor, Berruti, Alfredo, editor, Bombardieri, Emilio, editor, Fazio, Nicola, editor, and Goletti, Orlando, editor

Published

2021

40. Perspectives of Immunotherapy in Advanced Melanoma: Combinations and Sequencing

Author

Di Giacomo, A. M., Gambale, Elisabetta, Maio, Michele, Rutkowski, Piotr, editor, and Mandalà, Mario, editor

Published

2021

41. Landscape of immune-related signatures induced by targeting of different epigenetic regulators in melanoma: implications for immunotherapy.

Author

Anichini, Andrea, Molla, Alessandra, Nicolini, Gabriella, Perotti, Valentina Eleonora, Sgambelluri, Francesco, Covre, Alessia, Fazio, Carolina, Lofiego, Maria Fortunata, Di Giacomo, Anna Maria, Coral, Sandra, Manca, Antonella, Sini, Maria Cristina, Pisano, Marina, Noviello, Teresa, Caruso, Francesca, Brich, Silvia, Pruneri, Giancarlo, Maurichi, Andrea, Santinami, Mario, and Ceccarelli, Michele

Subjects

*IPILIMUMAB, *MELANOMA, *EPIGENETICS, *DNA methyltransferases, *WESTERN immunoblotting, *IMMUNE checkpoint proteins, *GENE expression profiling

Abstract

Background: Improvement of efficacy of immune checkpoint blockade (ICB) remains a major clinical goal. Association of ICB with immunomodulatory epigenetic drugs is an option. However, epigenetic inhibitors show a heterogeneous landscape of activities. Analysis of transcriptional programs induced in neoplastic cells by distinct classes of epigenetic drugs may foster identification of the most promising agents. Methods: Melanoma cell lines, characterized for mutational and differentiation profile, were treated with inhibitors of DNA methyltransferases (guadecitabine), histone deacetylases (givinostat), BET proteins (JQ1 and OTX-015), and enhancer of zeste homolog 2 (GSK126). Modulatory effects of epigenetic drugs were evaluated at the gene and protein levels. Master molecules explaining changes in gene expression were identified by Upstream Regulator (UR) analysis. Gene set enrichment and IPA were used respectively to test modulation of guadecitabine-specific gene and UR signatures in baseline and on-treatment tumor biopsies from melanoma patients in the Phase Ib NIBIT-M4 Guadecitabine + Ipilimumab Trial. Prognostic significance of drug-specific immune-related genes was tested with Timer 2.0 in TCGA tumor datasets. Results: Epigenetic drugs induced different profiles of gene expression in melanoma cell lines. Immune-related genes were frequently upregulated by guadecitabine, irrespective of the mutational and differentiation profiles of the melanoma cell lines, to a lesser extent by givinostat, but mostly downregulated by JQ1 and OTX-015. GSK126 was the least active drug. Quantitative western blot analysis confirmed drug-specific modulatory profiles. Most of the guadecitabine-specific signature genes were upregulated in on-treatment NIBIT-M4 tumor biopsies, but not in on-treatment lesions of patients treated only with ipilimumab. A guadecitabine-specific UR signature, containing activated molecules of the TLR, NF-kB, and IFN innate immunity pathways, was induced in drug-treated melanoma, mesothelioma and hepatocarcinoma cell lines and in a human melanoma xenograft model. Activation of guadecitabine-specific UR signature molecules in on-treatment tumor biopsies discriminated responding from non-responding NIBIT-M4 patients. Sixty-five % of the immune-related genes upregulated by guadecitabine were prognostically significant and conferred a reduced risk in the TCGA cutaneous melanoma dataset. Conclusions: The DNMT inhibitor guadecitabine emerged as the most promising immunomodulatory agent among those tested, supporting the rationale for usage of this class of epigenetic drugs in combinatorial immunotherapy approaches. [ABSTRACT FROM AUTHOR]

Published

2022

42. Synergistic association of resveratrol and histone deacetylase inhibitors as treatment in amyotrophic lateral sclerosis.

Author

Parrella, Edoardo, Porrini, Vanessa, Scambi, Ilaria, Gennari, Michele M., Gussago, Cristina, Bankole, Oluwamolakun, Benarese, Marina, Mariotti, Raffaella, and Pizzi, Marina

Subjects

AMYOTROPHIC lateral sclerosis, HISTONE deacetylase inhibitors, SIRTUINS, MOTOR neuron diseases, RESVERATROL, NEURODEGENERATION, HISTONE deacetylase

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease associated with motor neuron degeneration, progressive paralysis and finally death. Despite the research efforts, currently there is no cure for ALS. In recent years, multiple epigenetic mechanisms have been associated with neurodegenerative diseases. A pathological role for histone hypoacetylation and the abnormal NF-κB/RelA activation involving deacetylation of lysines, with the exclusion of lysine 310, has been established in ALS. Recent findings indicate that the pathological acetylation state of NF-κB/RelA and histone 3 (H3) occurring in the SOD1(G93A) murine model of ALS can be corrected by the synergistic combination of low doses of the AMP-activated kinase (AMPK)-sirtuin 1 pathway activator resveratrol and the histone deacetylase (HDAC) inhibitors MS-275 (entinostat) or valproate. The combination of the epigenetic drugs, by rescuing RelA and the H3 acetylation state, promotes a beneficial and sexually dimorphic effect on disease onset, survival and motor neurons degeneration. In this mini review, we discuss the potential of the epigenetic combination of resveratrol with HDAC inhibitors in the ALS treatment. [ABSTRACT FROM AUTHOR]

Published

2022

43. The BET Protein Inhibitor JQ1 Decreases Hypoxia and Improves the Therapeutic Benefit of Anti-PD-1 in a High-Risk Neuroblastoma Mouse Model.

Author

Sauvage, Delphine, Bosseler, Manon, Viry, Elodie, Kanli, Georgia, Oudin, Anais, Berchem, Guy, Keunen, Olivier, and Janji, Bassam

Subjects

*TUMOR-infiltrating immune cells, *LABORATORY mice, *NEUROBLASTOMA, *ANIMAL disease models, *HYPOXEMIA

Abstract

Anti-programmed death 1 (PD-1) is a revolutionary treatment for many cancers. The response to anti-PD-1 relies on several properties of tumor and immune cells, including the expression of PD-L1 and PD-1. Despite the impressive clinical benefit achieved with anti-PD-1 in several cancers in adults, the use of this therapy for high-risk neuroblastoma remains modest. Here, we evaluated the therapeutic benefit of anti-PD-1 in combination with JQ1 in a highly relevant TH-MYCN neuroblastoma transgenic mouse model. JQ1 is a small molecule inhibitor of the extra-terminal domain (BET) family of bromodomain proteins, competitively binding to bromodomains. Using several neuroblastoma cell lines in vitro, we showed that JQ1 inhibited hypoxia-dependent induction of HIF-1α and decreased the expression of the well-known HIF-1α downstream target gene CA9. Using MRI relaxometry performed on TH-MYCN tumor-bearing mice, we showed that JQ1 decreases R2* in tumors, a parameter associated with intra-tumor hypoxia in pre-clinical settings. Decreasing hypoxia by JQ1 was associated with improved blood vessel quality and integrity, as revealed by CD31 and αSMA staining on tumor sections. By analyzing the immune landscape of TH-MYCN tumors in mice, we found that JQ1 had no major impact on infiltrating immune cells into the tumor microenvironment but significantly increased the percentage of CD8+ PD-1+, conventional CD4+ PD-1+, and Treg PD-1+ cells. While anti-PD-1 monotherapy did not affect TH-MYCN tumor growth, we showed that combinatorial therapy associating JQ1 significantly decreased the tumor volume and improved the therapeutic benefit of anti-PD-1. This study provided the pre-clinical proof of concept needed to establish a new combination immunotherapy approach that may create tremendous enthusiasm for treating high-risk childhood neuroblastoma. [ABSTRACT FROM AUTHOR]

Published

2022

44. Comprehensive comparison between azacytidine and decitabine treatment in an acute myeloid leukemia cell line.

Author

Aumer, Tina, Gremmelmaier, Constanze B., Runtsch, Leander S., Pforr, Johannes C., Yeşiltaç, G. Nur, Kaiser, Stefanie, and Traube, Franziska R.

Subjects

*ACUTE myeloid leukemia, *MYELOID cells, *AZACITIDINE, *CELL lines, *DOUBLE-strand DNA breaks, *DNA methyltransferases, *ONCOGENES, *CELL death

Abstract

Azacytidine (AzaC) and decitabine (AzadC) are cytosine analogs that covalently trap DNA methyltransferases, which place the important epigenetic mark 5-methyl-2'-deoxycytidine by methylating 2'-deoxycytidine (dC) at the C5 position. AzaC and AzadC are used in the clinic as antimetabolites to treat myelodysplastic syndrome and acute myeloid leukemia and are explored against other types of cancer. Although their principal mechanism of action is known, the downstream effects of AzaC and AzadC treatment are not well understood and the cellular prerequisites that determine sensitivity toward AzaC and AzadC remain elusive. Here, we investigated the effects and phenotype of AzaC and AzadC exposure on the acute myeloid leukemia cell line MOLM-13. We found that while AzaC and AzadC share many effects on the cellular level, including decreased global DNA methylation, increased formation of DNA double-strand breaks, transcriptional downregulation of important oncogenes and similar changes on the proteome level, AzaC failed in contrast to AzadC to induce apoptosis efficiently in MOLM-13. The only cellular marker that correlated with this clear phenotypical outcome was the level of hydroxy-methyl-dC, an additional epigenetic mark that is placed by TET enzymes and repressed in cancer cells. Whereas AzadC increased hmdC substantially in MOLM-13, AzaC treatment did not result in any increase at all. This suggests that hmdC levels in cancer cells should be monitored as a response toward AzaC and AzadC and considered as a biomarker to judge whether AzaC or AzadC treatment leads to cell death in leukemic cells. [ABSTRACT FROM AUTHOR]

Published

2022

45. Maternal Prenatal Exposures in Pregnancy and Autism Spectrum Disorder: An Insight into the Epigenetics of Drugs and Diet as Key Environmental Influences

Author

Bastaki, Kholoud N., Alwan, Sura, Zahir, Farah R., Schousboe, Arne, Series Editor, Essa, M. Mohamed, editor, and Qoronfleh, M. Walid, editor

Published

2020

46. Synergistic association of resveratrol and histone deacetylase inhibitors as treatment in amyotrophic lateral sclerosis

Author

Edoardo Parrella, Vanessa Porrini, Ilaria Scambi, Michele M. Gennari, Cristina Gussago, Oluwamolakun Bankole, Marina Benarese, Raffaella Mariotti, and Marina Pizzi

Subjects

amyotrophic lateral sclerosis (ALS), NF-κB/RelA, histone acetylation, resveratrol, histone deacetylase (HDAC) inhibitors, epigenetic drugs, Therapeutics. Pharmacology, RM1-950

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease associated with motor neuron degeneration, progressive paralysis and finally death. Despite the research efforts, currently there is no cure for ALS. In recent years, multiple epigenetic mechanisms have been associated with neurodegenerative diseases. A pathological role for histone hypoacetylation and the abnormal NF-κB/RelA activation involving deacetylation of lysines, with the exclusion of lysine 310, has been established in ALS. Recent findings indicate that the pathological acetylation state of NF-κB/RelA and histone 3 (H3) occurring in the SOD1(G93A) murine model of ALS can be corrected by the synergistic combination of low doses of the AMP-activated kinase (AMPK)-sirtuin 1 pathway activator resveratrol and the histone deacetylase (HDAC) inhibitors MS-275 (entinostat) or valproate. The combination of the epigenetic drugs, by rescuing RelA and the H3 acetylation state, promotes a beneficial and sexually dimorphic effect on disease onset, survival and motor neurons degeneration. In this mini review, we discuss the potential of the epigenetic combination of resveratrol with HDAC inhibitors in the ALS treatment.

Published

2022

47. A Prognostic Model of Head and Neck Cancer Based on Amino Acid Metabolism-Related Signature and Its Implication for Immunosuppressive Microenvironment

Author

Xuran Li, Danni Li, Jiaojiao Li, Yiliang Chen, Zhenyu Cai, and Fei Tan

Subjects

amino acid metabolism, head and neck cancer, tumor microenvironment, immune checkpoint therapy, epigenetic drugs, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Amino acid metabolism has been implicated in tumorigenesis and tumor progression. Alterations in intracellular and extracellular metabolites associated with metabolic reprogramming in cancer have profound effects on gene expression, cell differentiation, and tumor immune microenvironment. However, the prognostic significance of amino acid metabolism in head and neck cancer remains to be further investigated. In this study, we identified 98 differentially expressed genes related to amino acid metabolism in head and neck cancer in The Cancer Genome Atlas. Using batch univariate Cox regression and Lasso regression, we extracted nine amino acid metabolism-related genes. Based on that, we developed the amino acid metabolism index. The prognostic value of this index was validated in two Gene Expression Omnibus cohorts. The results show that this model can help predict tumor recurrence and prognosis. The infiltration of immune cells in the tumor microenvironment was analyzed, and it was discovered that the high index is associated with an immunosuppressive microenvironment. In addition, this study demonstrated the impact of the amino acid metabolism index on clinical indicators, survival of patients with head and neck cancer, and the prediction of treatment response to immune checkpoint inhibitors. We conducted several cell experiments and demonstrated that epigenetic drugs could affect the index and enhance tumor immunity. In conclusion, our study demonstrates that the index not only has important prognostic value in head and neck cancer patients but also facilitates patient stratification for immunotherapy.

Published

2023

48. SWI/SNF Complex Alterations in Tumors with Rhabdoid Features: Novel Therapeutic Approaches and Opportunities for Adoptive Cell Therapy

Author

Juan José Soto-Castillo, Lucía Llavata-Marti, Roser Fort-Culillas, Pablo Andreu-Cobo, Rafael Moreno, Carles Codony, Xavier García del Muro, Ramon Alemany, Josep M. Piulats, and Juan Martin-Liberal

Subjects

SWI/SNF complex, SMARCA4, SMARCB1, ARID1A, rhabdoid tumors, epigenetic drugs, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The SWItch/Sucrose Non-Fermentable (SWI/SNF) chromatin-remodeling complex is one of the most remarkably altered epigenetic regulators in cancer. Pathogenic mutations in genes encoding SWI/SNF-related proteins have been recently described in many solid tumors, including rare and aggressive malignancies with rhabdoid features with no standard therapies in advanced or metastatic settings. In recent years, clinical trials with targeted drugs aimed at restoring its function have shown discouraging results. However, preclinical data have found an association between these epigenetic alterations and response to immune therapy. Thus, the rationale for immunotherapy strategies in SWI/SNF complex alteration-related tumors is strong. Here, we review the SWI/SNF complex and how its dysfunction drives the oncogenesis of rhabdoid tumors and the proposed strategies to revert this alteration and promising novel therapeutic approaches, including immune checkpoint inhibition and adoptive cell therapy.

Published

2023

49. Progress and promises of epigenetic drugs and epigenetic diets in cancer prevention and therapy: A clinical update.

Author

Mondal, Priya, Natesh, Jagadish, Penta, Dhanamjai, and Meeran, Syed Musthapa

Subjects

*CANCER prevention, *TUMOR suppressor genes, *EPIGENETICS, *CANCER treatment, *DNA methyltransferases, *NON-coding RNA, *DECITABINE, *REPERFUSION injury

Abstract

Epigenetic modifications are heritable yet reversible, essential for normal physiological functions and biological development. Aberrant epigenetic modifications, including DNA methylation, histone modification, and non-coding RNA (ncRNA)-mediated gene regulation play a crucial role in cancer progression. In cellular reprogramming, irregular epigenomic modulations alter cell signaling pathways and the expression of tumor suppressor genes and oncogenes, resulting in cancer growth and metastasis. Therefore, alteration of epigenetic-status in cancer cells can be used as a potential target for cancer therapy. Several synthetic epigenetic inhibitors (epi-drugs) and natural epigenetic modulatory bioactives (epi-diets) have been shown to have the potential to alter the aberrant epigenetic status and inhibit cancer progression. Further, the use of combinatorial approaches with epigenetic drugs and diets has brought promising outcomes in cancer prevention and therapy. In this article, we have summarized the epigenetic modulatory activities of epi-drugs, epi-diets, and their combination against various cancers. We have also compiled the preclinical and clinical status of these epigenetic modulators in different cancers. [ABSTRACT FROM AUTHOR]

Published

2022

50. Epigenetic and breast cancer therapy: Promising diagnostic and therapeutic applications.

Author

Sher, Gulab, Salman, Nadia Aziz, Khan, Abdul Q., Prabhu, Kirti S., Raza, Afsheen, Kulinski, Michal, Dermime, Said, Haris, Mohammad, Junejo, Kulsoom, and Uddin, Shahab

Subjects

*CANCER treatment, *BREAST cancer, *PROGNOSIS, *EPIGENETICS, *DRUG resistance

Abstract

The global burden of breast cancer (BC) is increasing significantly. This trend is caused by several factors such as late diagnosis, limited treatment options for certain BC subtypes, drug resistance which all lead to poor clinical outcomes. Recent research has reported the role of epigenetic alterations in the mechanism of BC pathogenesis and its hallmarks include drug resistance and stemness features. The understanding of these modifications and their significance in the management of BC carcinogenesis is challenging and requires further attention. Nevertheless, it promises to provide novel insight needed for utilizing these alterations as potential diagnostic, prognostic markers, predict treatment efficacy, as well as therapeutic agents. This highlights the importance of continuing research development to further advance the existing knowledge on epigenetics and BC carcinogenesis to overcome the current challenges. Hence, this review aims to shed light and discuss the current state of epigenetics research in the diagnosis and management of BC. [ABSTRACT FROM AUTHOR]

Published

2022