12,570 results on '"Carcinogenesis"'
Search Results
2. Pathogenic roles of long noncoding RNAs in melanoma: Implications in diagnosis and therapies
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Yuchong Wang, Yuai Xiao, Yu Xia, and Chunyu Xue
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Melanoma ,Immune escape ,Review Article ,Cell Biology ,Drug resistance ,Biology ,medicine.disease_cause ,medicine.disease ,Biochemistry ,Phenotype ,Gene expression ,medicine ,Cancer research ,Epigenetics ,Signal transduction ,Carcinogenesis ,Molecular Biology ,Genetics (clinical) - Abstract
Melanoma is one of the most dangerous types of cutaneous neoplasms, which are pigment-producing cells of neuroectodermal origin found all over the body. A great deal of research is focused on the mechanisms of melanoma to promote better diagnostic and treatment options for melanoma in its advanced stages. The progression of melanoma involves alteration in different levels of gene expression. With the successful implementation of next-generation sequencing technology, an increasing number of long noncoding RNAs (lncRNAs) sequences have been discovered, and a significant number of them have phenotypic effects in both in vitro and in vivo studies, implying that they play an important role in the occurrence and progression of human cancers, particularly melanoma. A number of evidence indicated that lncRNAs are important regulators in tumor cell proliferation, invasion, apoptosis, immune escape, energy metabolism, drug resistance, epigenetic regulation. To better understand the role of lncRNAs in melanoma tumorigenesis, we categorize melanoma-associated lncRNAs according to their cellular functions and associations with gene expression and signaling pathways in this review. Based on the mechanisms of lncRNA, we discuss the possibility of lncRNA-target treatments, and the application of liquid biopsies to detect lncRNAs in melanoma diagnosis and prognosis.
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- 2023
3. STAT3 is Activated by CTGF-mediated Tumor-stroma Cross Talk to Promote HCC Progression
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Yuki Makino, Hayato Hikita, Seiya Kato, Masaya Sugiyama, Minoru Shigekawa, Tatsuya Sakamoto, Yoichi Sasaki, Kazuhiro Murai, Sadatsugu Sakane, Takahiro Kodama, Ryotaro Sakamori, Shogo Kobayashi, Hidetoshi Eguchi, Nobuyuki Takemura, Norihiro Kokudo, Hideki Yokoi, Masashi Mukoyama, Tomohide Tatsumi, and Tetsuo Takehara
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STAT3 Transcription Factor ,Carcinoma, Hepatocellular ,Hepatology ,Carcinogenesis ,Interleukin-6 ,Liver Neoplasms ,Connective Tissue Growth Factor ,Gastroenterology ,Endothelial Cells ,Proto-Oncogene Proteins p21(ras) ,Mice ,Cytokine Receptor gp130 ,Animals ,Humans - Abstract
Signal transducer and activator of transcription 3 (STAT3) is known as a pro-oncogenic transcription factor. Regarding liver carcinogenesis, however, it remains controversial whether activated STAT3 is pro- or anti-tumorigenic. This study aimed to clarify the significance and mechanism of STAT3 activation in hepatocellular carcinoma (HCC).Hepatocyte-specific Kras-mutant mice (Alb-Cre KrasTumors in KrasSTAT3 is activated by CTGF-mediated tumor-stroma crosstalk to promote HCC progression. STAT3-CTGF positive feedback loop could be a therapeutic target.
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- 2023
4. The role of melatonin hormone and its receptor (type1A) as anti-cancer against carcinogenic effect of polyaromatic hydrocarbons in Iraqi refinery workers
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Ashwak Waheeb Shaker and Estabraq A. Al-Wasiti
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business.industry ,DNA damage ,Physiology ,Cancer ,General Medicine ,medicine.disease_cause ,medicine.disease ,Melatonin ,Medicine ,Receptor ,business ,Carcinogenesis ,Oxidative stress ,Carcinogen ,medicine.drug ,Hormone - Abstract
Air pollution is a global health threat and causes millions of human deaths annually. Outdoor and indoor air pollutants such as polycyclic aromatic hydrocarbons (PAHs) are the most prevalent cause of respiratory disorders, lung disease, pregnancy disorders, endocrine disturbances, diabetes, obesity, cardiovascular disease and cancer because pollutants can alter gene expression via epigenetics like DNA methylation and histone modifications which can initiate tumorigenesis and progressed to cancer. Carcinogenicity of PAHs can be eliminated by endogenous melatonin hormone (MT) via binding to its receptor (MTNR1A) that act as free radicals scavenger therefore it protects the body from developing occupational cancer. Aims of study To predict the protective effect of melatonin hormone as anti-cancer through binding to its receptor (MTNR1A) against any type of cancer that can be induced by chronic exposure to air pollutants. Subjects and methods This study includes 168 participants, they have been divided into three groups (control, refinery field workers and refinery office workers). PAH was analyzed for each participant by GC/MS whereas melatonin hormone and MTNR1A were measured by ELISA technique. Results PAHs were absent in the blood of control, and they were elevated in refinery worker’s specimens. Concentration of MT was higher in field worker than in office and control group as well as MTNR1A, also there is a relation between their levels and duration of exposure. Conclusion Exposure to PAHs can lead to oxidative stress that can damage DNA resulting in many types of cancer but this carcinogenic effects of PAHs can be eliminated by natural endogenous biomolecules such as MT and its receptor (MTNR1A) therefore their elevation has a beneficial effect as anti-cancer to reduce the oxidative stress and prevent tumorigenesis.
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- 2023
5. Senescent stromal cells: roles in the tumor microenvironment
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Yael Gabai, Benjamin Assouline, and Ittai Ben-Porath
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Cancer Research ,Oncology ,Carcinogenesis ,Neoplasms ,Tumor Microenvironment ,Humans ,Endothelial Cells ,Stromal Cells - Abstract
Cellular senescence forms a barrier to tumorigenesis, by inducing cell cycle arrest in damaged and mutated cells. However, once formed, senescent cells often emit paracrine signals that can either promote or suppress tumorigenesis. There is evidence that, in addition to cancer cells, subsets of tumor stromal cells, including fibroblasts, endothelial cells, and immune cells, undergo senescence. Such senescent stromal cells can influence cancer development and progression and represent potential targets for therapy. However, understanding of their characteristics and roles is limited and few studies have dissected their functions in vivo. Here, we discuss current knowledge and pertinent questions regarding the presence of senescent stromal cells in cancers, the triggers that elicit their formation, and their potential roles within the tumor microenvironment.
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- 2023
6. Inflammation and cancer: paradoxical roles in tumorigenesis and implications in immunotherapies
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Sunan Shen, Xinghan Liu, Lijie Yin, and Yayi Hou
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business.industry ,Cancer ,Inflammation ,Review Article ,Cell Biology ,medicine.disease_cause ,medicine.disease ,Biochemistry ,Virus ,Metastasis ,medicine ,Cancer research ,medicine.symptom ,Carcinogenesis ,business ,Cancer risk ,Molecular Biology ,Genetics (clinical) - Abstract
Chronic inflammation caused by persistent infections and metabolic disorders is thought to contribute to the increased cancer risk and the accelerated cancer progression. Oppositely, acute inflammation induced by bacteria-based vaccines or that is occurring after cancer selectively inhibits cancer progression and metastasis. However, the interaction between inflammation and cancer may be more complex than the current explanations for the relationship between chronic and acute inflammation and cancer. In this review, we described the impact of inflammation on cancer on the basis of three perspectives, including inflammation with different durations (chronic and acute inflammation), different scopes (systemic and local inflammation) and different occurrence sequences (inflammation occurring after and before cancer). In addition, we also introduced bacteria/virus-based cancer immunotherapies. We perceive that inflammation may be a double-edged sword with cancer-promoting and cancer-suppressing functions in certain cases. We expect to further improve the understanding of the relationship between inflammation and cancer and provide a theoretical basis for further research on their complex interaction.
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- 2023
7. Emerging role of chemokines in small cell lung cancer: Road signs for metastasis, heterogeneity, and immune response
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Parvez Khan, Mahek Fatima, Md Arafat Khan, Surinder Kumar Batra, and Mohd Wasim Nasser
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Cancer Research ,Lung Neoplasms ,Carcinogenesis ,Immunity ,Tumor Microenvironment ,Humans ,Chemokines ,Small Cell Lung Carcinoma - Abstract
Small cell lung cancer (SCLC) is a recalcitrant, relatively immune-cold, and deadly subtype of lung cancer. SCLC has been viewed as a single or homogenous disease that includes deletion or inactivation of the two major tumor suppressor genes (TP53 and RB1) as a key hallmark. However, recent sightings suggest the complexity of SCLC tumors that comprises highly dynamic multiple subtypes contributing to high intratumor heterogeneity. Furthermore, the absence of targeted therapies, the understudied tumor immune microenvironment (TIME), and subtype plasticity are also responsible for therapy resistance. Secretory chemokines play a crucial role in immunomodulation by trafficking immune cells to the tumors. Chemokines and cytokines modulate the anti-tumor immune response and wield a pro-/anti-tumorigenic effect on SCLC cells after binding to cognate receptors. In this review, we summarize and highlight recent findings that establish the role of chemokines in SCLC growth and metastasis, and sophisticated intratumor heterogeneity. We also discuss the chemokine networks that are putative targets or modulators for augmenting the anti-tumor immune responses in targeted or chemo-/immuno-therapeutic strategies, and how these combinations may be utilized to conquer SCLC.
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- 2022
8. PUF60 promotes glioblastoma progression through regulation of EGFR stability
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Fang wang, Lan Peng, Yikui Sun, Burong Zhang, and Shuaijun Lu
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Carcinogenesis ,Ubiquitin-Protein Ligases ,Ubiquitination ,Biophysics ,Cell Biology ,Biochemistry ,ErbB Receptors ,Repressor Proteins ,Cell Line, Tumor ,Humans ,RNA Splicing Factors ,Glioblastoma ,Molecular Biology ,Cell Proliferation - Abstract
PUF60 (Poly (U) binding splicing factor 60 kDa), a nucleic acid-binding protein, has been shown to regulate transcription and links to tumorigenesis in various cancers. However, its biological role and function in glioblastoma remain unknown. In this study, we found that PUF60 is highly expressed in glioblastoma and correlated with poor prognosis. Furthermore, PUF60 knockdown significantly decreased the proliferation of glioblastoma cells in vitro and in vivo. Mechanistically, PUF60 could reduce the ubiquitination level of EGFR by transcriptionally regulating STUB1, an E3 ubiquitin ligase of EGFR, which lead to the activation of the EGFR-AKT pathway. Collectively, our study reveals the oncogenic role of PUF60 in glioblastoma and provides a potential therapeutic target for glioblastoma treatment.
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- 2022
9. Oncogenic potential of PIK3CD in glioblastoma is exerted through cytoskeletal proteins PAK3 and PLEK2
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Wei Shao, Zulfikar Azam, Jintao Guo, and Shing Shun Tony To
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Carcinogenesis ,Brain Neoplasms ,Mice, Nude ,Glioma ,Cell Biology ,Pathology and Forensic Medicine ,Gene Expression Regulation, Neoplastic ,Mice ,Cytoskeletal Proteins ,p21-Activated Kinases ,Cell Line, Tumor ,Animals ,Glioblastoma ,Molecular Biology ,Cell Proliferation - Abstract
The Class I
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- 2022
10. Roles and mechanisms of phosphoglycerate kinase 1 in cancer
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Yuyuan Chen, Lvjun Cen, Rong Guo, Sheng Huang, and Dedian Chen
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Phosphoglycerate Kinase ,Cancer Research ,Oncology ,Carcinogenesis ,Neoplasms ,Humans ,Radiology, Nuclear Medicine and imaging ,Hematology ,General Medicine ,Glycolysis ,Signal Transduction - Abstract
Phosphoglycerate kinase 1 (PGK1) catalyzes the conversion of 1,3-bisphosphoglyceride (1,3-BPG) and ADP into 3-phosphate (3-PG) and ATP, which is a key process of glycolysis. PGK1 is considered a major regulator of various events, including one-carbon metabolism, serine biosynthesis and cell redox regulation. In the past decade, PGK1 has been found to be closely associated with various malignancies, making it a potential therapeutic target. PGK1 is involved in a series of biological processes related to tumorigenesis through post-translational modifications and various signaling pathways. PGK1 not only can participate in glucose metabolism but also acts as a protein kinase to participate in EMT, autophagy, angiogenesis, DNA replication and other processes related to tumor development. However, PGK1 also acts as a disulfide reductase to inhibit tumor by affecting angiogenesis. Exploring the structure, function and posttranslational modification of PGK1 will be helpful in further understanding the effect of metabolism on tumor progression. This manuscript reviews the role and mechanism of PGK1 in human malignancies, providing the theoretical basis for PGK1 as a possible clinical anticancer target.
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- 2022
11. Reprogramming of glycolysis by chemical carcinogens during tumor development
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Leonard Clinton, D'Souza, Anusmita, Shekher, Kishore B, Challagundla, Anurag, Sharma, and Subash Chandra, Gupta
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Cancer Research ,Cell Transformation, Neoplastic ,Carcinogenesis ,Neoplasms ,Carcinogens ,Humans ,Glycolysis - Abstract
Indiscriminate usage and mismanagement of chemicals in the agricultural and industrial sectors have contaminated different environmental compartments. Exposure to these persistent and hazardous pollutants like heavy metals, endocrine disruptors, aromatic hydrocarbons, and pesticides can result in various health adversities, including cancer. Chemical carcinogens follow a similar pattern of carcinogenesis, like oxidative stress, chromosomal aberration, DNA double-strand break, mismatch repair, and misregulation of oncogenic and/or tumor suppressors. Out of several cancer-associated endpoints, cellular metabolic homeostasis is the commonest to be deregulated upon chemical exposure. Chemical carcinogens hamper glycolytic reprogramming to fuel the malignant transformation of the cells and/or promote cancer progression. Several regulators like Akt, ERK, Ras, c-Myc, HIF-1α, and p53 regulate glycolysis in chemical-induced carcinogenesis. However, the deregulation of the anabolic biochemistry of glucose during chemical-induced carcinogenesis remains to be uncovered. This review comprehensively covers the environmental chemical-induced glycolytic shift during carcinogenesis and its mechanism. The focus is also to fill the major gaps associated with understanding the fairy tale between environmental carcinogens and metabolic reprogramming. Although evidence from studies regarding glycolytic reprogramming in chemical carcinogenesis provides valuable insights into cancer therapy, exposure to a mixture of toxicants and their mechanism of inducing carcinogenesis still needs to be studied.
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- 2022
12. Understanding the cross-talk between human microbiota and gastrointestinal cancer for developing potential diagnostic and prognostic biomarkers
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Sheetal Kashyap, Sasanka Chakrabarti, Adesh K. Saini, Neeraj K. Saini, Vipin Saini, Gourav Chandan, Vijay Kumar Thakur, Amit Mittal, Reena V. Saini, and Soumya Pal
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0301 basic medicine ,Cancer Research ,Carcinogenesis ,Colorectal cancer ,Population ,medicine.disease_cause ,Bioinformatics ,03 medical and health sciences ,0302 clinical medicine ,medicine ,Humans ,Gastrointestinal cancer ,education ,Gastrointestinal Neoplasms ,education.field_of_study ,business.industry ,Microbiota ,Human microbiome ,Cancer ,Immune dysregulation ,Esophageal cancer ,Prognosis ,medicine.disease ,Gastrointestinal Microbiome ,030104 developmental biology ,030220 oncology & carcinogenesis ,Biomarker (medicine) ,business - Abstract
The interaction between gut microbes and gastrointestinal (GI) tract carcinogenesis has always attracted researchers' attention to identify therapeutic targets or potential prognostic biomarkers. Various studies have suggested that the microbiota do show inflammation and immune dysregulation, which led to carcinogenesis in GI tract. In this review, we have focused on the role of microbes present in the gut, intestine, or faeces in GI tract cancers, including esophageal cancer, gastric cancer, and colorectal cancer. Herein, we have discussed the importance of the microbes and their metabolites, which could serve as diagnostic biomarkers for cancer detection, especially in the early stage, and prognostic markers. To maximize the effect of the treatment strategies, an accurate evaluation of the prognosis is imperative for clinicians. There is a vast difference in the microbiota profiles within a population and across the populations depending upon age, diet, lifestyle, genetic makeup, use of antibiotics, and environmental factors. Therefore, the diagnostic efficiency of the microbial markers needs to be further validated. A deeper understanding of the GI cancer and the host microbiota is needed to acquire pivotal information about disease status.
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- 2022
13. Insights into the role of complement regulatory proteins in HPV mediated cervical carcinogenesis
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Sabia Rashid, Atul Chikara, Alexandre Gomes Rodrigues, Sandeep Sisodiya, Sheeraz Un Nazir, Shazia Rashid, Pranay Tanwar, Ajit Kumar Passari, Asiya Khan, Umme Abiha, Showket Hussain, Ankan Mukherjee Das, and Bhudev C. Das
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0301 basic medicine ,Cancer Research ,Carcinogenesis ,medicine.medical_treatment ,Uterine Cervical Neoplasms ,medicine.disease_cause ,03 medical and health sciences ,0302 clinical medicine ,Immune system ,Tumor Microenvironment ,Humans ,Medicine ,Anaphylatoxin ,Cervical cancer ,Tumor microenvironment ,business.industry ,Papillomavirus Infections ,Cancer ,Immunotherapy ,medicine.disease ,Complement system ,030104 developmental biology ,030220 oncology & carcinogenesis ,Cancer research ,Female ,business - Abstract
The persistent infection of high-risk Human papillomavirus (HR-HPV) induced cervical cancer remains a challenge in women worldwide including India. Recent advances in cancer research have paved the way for advanced cancer treatment modalities including immunotherapy by manipulating the function or number of cytotoxic T cells. It is well established that anaphylatoxins like C3a and C5a of complement system influence tumor growth by evading apoptosis leading to progression of cancer. The role of the complement system, particularly the complement regulatory proteins (CRPs) which are important determinants of immune response play a crucial role in carcinogenesis. In a tumor microenvironment (TME) assisted suppression of immune effector cells may be achieved through CRPs. However, recent advances in pharmacogenomics including drug designing and combination of these approaches have provided a holistic understanding of signaling pathways and their crosstalk, to regulate cellular communications.This review describes the role of complement system; particularly CRPs in HPV induced cervical carcinogenesis which may be used for designing anti- HPV or cervical cancer therapeutics.
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- 2022
14. Therapy-induced shaping of the glioblastoma microenvironment: Macrophages at play
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Johanna, Erbani, Menno, Boon, and Leila, Akkari
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Cancer Research ,Carcinogenesis ,Macrophages ,Tumor Microenvironment ,Humans ,Glioblastoma ,Hypoxia - Abstract
The intricate cross-talks between tumor cells and their microenvironment play a key role in cancer progression and resistance to treatment. In recent years, targeting pro-tumorigenic components of the tumor microenvironment (TME) has emerged as a tantalizing strategy to improve the efficacy of standard-of-care (SOC) treatments, particularly for hard-to-treat cancers such as glioblastoma. In this review, we explore how the distinct microenvironmental niches characteristic of the glioblastoma TME shape response to therapy. In particular, we delve into the interplay between tumor-associated macrophages (TAM) and glioblastoma cells within angiogenic and hypoxic niches, and interrogate their dynamic co-evolution upon SOC therapies that fuels malignancy. Resolving the complexity of therapy-induced alterations in the glioblastoma TME and their impact on disease relapse is a stepping stone to identify targetable pro-tumorigenic pathways and TAM subsets, and may open the way to efficient combination therapies that will improve clinical outcomes.
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- 2022
15. Oncogene Overlap Analysis of Circulating Cell-free Tumor DNA to Explore the Appropriate Criteria for Defining MET Copy Number–Driven Lung Cancer
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David C C, Tsui, Leylah M, Drusbosky, Sara, Wienke, Dexiang, Gao, Adrian, Bubie, Catalin, Barbacioru, and D Ross, Camidge
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Pregnenolone Carbonitrile ,Pulmonary and Respiratory Medicine ,Cancer Research ,Lung Neoplasms ,DNA Copy Number Variations ,Carcinogenesis ,Exons ,Oncogenes ,Proto-Oncogene Proteins c-met ,Circulating Tumor DNA ,Oncology ,Carcinoma, Non-Small-Cell Lung ,Humans ,Cell-Free Nucleic Acids - Abstract
Defining clinically relevant MET amplification levels in non-small cell lung cancer (NSCLC) remains challenging. We hypothesize that oncogene overlap and MET amplicon size decline with increase in MET plasma copy number (pCN), thus enriching for MET-dependent states.We interrogated cell-free DNA NGS results of 16,782 patients with newly diagnosed advanced NSCLC to identify those with MET amplification as reported using Guardant360. Co-occurring genomic mutations and copy number alterations within each sample were evaluated. An exploratory method of adjusting for tumor fraction was also performed and amplicon size for MET was analyzed when available.MET amplification was detected in 207 (1.2%) of samples. pCN ranged from 2.1 to 52.9. Of these, 43 (20.8%) had an overlapping oncogenic driver, including 23 (11.1%) METex14 skipping or other MET mutations. The degree of (non-MET) oncogene overlap decreased with increases in pCN. Patients with MET pCN ≥ 2.7 had lower rates of overlapping drivers compared to those with MET pCN2.7 (6.1% vs. 16.3%, P = .033). None of the 7 patients with pCN6.7 had an overlapping driver. After adjusting for tumor fraction, adjusted pCN (ApCN) was also lower for those with overlapping drivers than those without (median ApCN 4.9 vs. 7.3, P =.024). There was an inverse relationship between amplicon size and pCN.We propose that a high MET pCN and/or ApCN, together with the absence of overlapping oncogenic drivers and small MET amplicon size, will enrich for patients most likely to derive benefit from MET targeted therapy.
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- 2022
16. Therapy-induced modulation of extracellular vesicles in hepatocellular carcinoma
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Cherlie Lot Sum Yeung and Judy Wai Ping Yam
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Extracellular Vesicles ,Cancer Research ,Carcinoma, Hepatocellular ,Carcinogenesis ,Liver Neoplasms ,Tumor Microenvironment ,Humans ,Cell Communication - Abstract
Despite rapid development of anti-tumorigenic treatments, the clinical outcome for hepatocellular carcinoma (HCC) is still far from satisfactory. With a deeper understanding about tumor microenvironment (TME), the critical role of extracellular vesicles (EVs) as intercellular liaison has come into spotlight. The dynamic functionality of these nanoparticles revealed cancer cells can employ both tumor and non-tumorous components for their own benefit, so as to mediate cell-to-cell communication and interchange of oncogenic biomolecules. Increasing studies on HCC-derived EVs have identified various irregulated biomolecules, that may serve as biomarkers or therapeutic targets. In this review, we first introduce the current knowledge about EVs and how they operate to maintain a healthy liver microenvironment. We then summarize some of the aberrant observations reported on HCC-derived EVs and how they contribute to HCC pathogenesis. Finally, we describe how current treatments for HCC alter behavior of EVs, which may shed light for potential prognostic markers and therapeutic strategies.
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- 2022
17. Microbiota and lung cancer
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Taichiro, Goto
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Cancer Research ,Lung Neoplasms ,Bacteria ,Carcinogenesis ,Microbiota ,Humans ,Dysbiosis ,Lung - Abstract
Until recently, bacteria have been studied in terms of their roles in infectious diseases and mainly by using isolation and culture methods. However, in practice, many bacteria existing on the earth are difficult to isolate and culture, and thus only a limited number of them have been studied to date. On the other hand, in 2005, the next-generation sequencing technology became generally available, and since then genomic analysis of bacterial flora has become widespread. As a result, it has been revealed that the lower respiratory tract, which was previously thought to be sterile, in fact has bacterial flora (a microbiome) with a high level of biodiversity. In addition, it has been found that various diseases develop and worsen depending on the balance of the bacterial flora, and in recent years, a relationship has been established between various disorders. Recent research on cancer-associated microbial communities has elucidated the reciprocal interactions among bacteria, tumors and immune cells, the bacterial pathways associated with induction of oncogenesis, and their translational significance. Nevertheless, despite the increasing evidence showing that dysbiosis is associated with lung oncogenesis, the detailed mechanisms remain to be fully elucidated. Microorganisms seem to trigger tumor initiation and progression, presumably through the production of bacterio-toxins and other pro-inflammatory factors. The purpose of this review is to present a context for the basic mechanisms and molecular functions of the airway microbiome in oncogenesis, in an effort to prevent cancer by strategies utilizing the airway microbiota, as well as summarizing the mechanisms wherein the microbiome acts as a modulator of immunotherapies in lung cancer.
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- 2022
18. Multidimensional role of bacteria in cancer: Mechanisms insight, diagnostic, preventive and therapeutic potential
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Hang Fai Kwok and Muhammad Jameel Mughal
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0301 basic medicine ,Genome instability ,Cancer Research ,Disease ,Bioinformatics ,medicine.disease_cause ,03 medical and health sciences ,0302 clinical medicine ,Neoplasms ,Tumor Microenvironment ,medicine ,Humans ,Immune Evasion ,Inflammation ,Tumor microenvironment ,Bacteria ,biology ,business.industry ,Cancer ,medicine.disease ,biology.organism_classification ,Biomarker ,030104 developmental biology ,030220 oncology & carcinogenesis ,Cancer cell ,Carcinogenesis ,business - Abstract
The active role of bacteria in oncogenesis has long been a topic of debate. Although, it was speculated to be a transmissible cause of cancer as early as the 16th-century, yet the idea about the direct involvement of bacteria in cancer development has only been explored in recent decades. More recently, several studies have uncovered the mechanisms behind the carcinogenic potential of bacteria which are inflammation, immune evasion, pro-carcinogenic metabolite production, DNA damage and genomic instability. On the other side, the recent development on the understanding of tumor microenvironment and technological advancements has turned this enemy into an ally. Studies using bacteria for cancer treatment and detection have shown noticeable effects. Therapeutic abilities of bioengineered live bacteria such as high specificity, selective cytotoxicity to cancer cells, responsiveness to external signals and control after ingestion have helped to overcome the challenges faced by conventional cancer therapies and highlighted the bacterial based therapy as an ideal approach for cancer treatment. In this review, we have made an effort to compile substantial evidence to support the multidimensional role of bacteria in cancer. We have discussed the multifaceted role of bacteria in cancer by highlighting the wide impact of bacteria on different cancer types, their mechanisms of actions in inducing carcinogenicity, followed by the diagnostic and therapeutic potential of bacteria in cancers. Moreover, we have also highlighted the existing gaps in the knowledge of the association between bacteria and cancer as well as the limitation and advantage of bacteria-based therapies in cancer. A better understanding of these multidimensional roles of bacteria in cancer can open up the new doorways to develop early detection strategies, prevent cancer, and develop therapeutic tactics to cure this devastating disease.
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- 2022
19. The interaction of Helicobacter pylori with cancer immunomodulatory stromal cells: New insight into gastric cancer pathogenesis
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Tannaz Jamialahmadi, Arezoo Gowhari Shabgah, Peter E. Penson, Thomas P. Johnston, Maciej Banach, Amirhossein Sahebkar, and Jamshid Gholizadeh Navashenaq
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RM ,Cancer Research ,Stromal cell ,Helicobacter pylori ,biology ,Carcinogenesis ,business.industry ,Cancer ,Chronic gastritis ,medicine.disease_cause ,medicine.disease ,biology.organism_classification ,Helicobacter Infections ,RC0254 ,Immune system ,Stomach Neoplasms ,Myeloid-derived Suppressor Cell ,medicine ,Cancer research ,Humans ,Stromal Cells ,Stem cell ,business - Abstract
Gastric cancer is the fourth most common cause of cancer-linked deaths in the world. Gastric tumor cells have biological characteristics such as rapid proliferation, high invasiveness, and drug resistance, which result in recurrence and poor survival. Helicobacter pylori (H. pylori) has been proposed as a first‐class carcinogen for gastric cancer according to the 1994 world health organization (WHO) classification. One of the important mechanisms by which H. pylori affects the gastric environment and promotes carcinogenesis is triggering inflammation. H. pylori induces an inflammatory response and a plethora of different signal transduction processes, leading to gastric mucosal disturbance, chronic gastritis, and a multi-step complex pathway that initiates carcinogenesis. It seems undeniable that the interaction between various cell types, including immune cells, gastric epithelium, glands, and stem cells, is vital for the progression and development of carcinogenesis concerning H. pylori. The interactions of H. pylori with surrounding cells play a key role in cancer progression. In this review, we discuss the interplay between H. pylori and tumor-supportive cells, including mesenchymal stem cells (MSCs), cancer-associated fibroblasts (CAFs), tumor-associated macrophages (TAMs), and myeloid derived-suppressor cells (MDSCs) in gastric cancer. It is hoped that clarifying the specific mechanisms for ‘cross-talk’ between H. pylori and these cells will provide promising strategies for developing new treatments.
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- 2022
20. Chaperonins in cancer: Expression, function, and migration in extracellular vesicles
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Alberto J.L. Macario and Everly Conway de Macario
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0301 basic medicine ,Cancer Research ,CCT6A ,Biology ,medicine.disease_cause ,Chaperonin ,Extracellular Vesicles ,03 medical and health sciences ,0302 clinical medicine ,microRNA ,medicine ,Humans ,Brain Neoplasms ,Cancer ,Chaperonin 60 ,Prognosis ,medicine.disease ,Microvesicles ,MicroRNAs ,030104 developmental biology ,Tumor progression ,030220 oncology & carcinogenesis ,Chaperone (protein) ,biology.protein ,Cancer research ,Glioblastoma ,Carcinogenesis ,Chaperonin Containing TCP-1 - Abstract
The chaperonins CCT and Hsp60 are molecular chaperones, members of the chaperone system (CS). Chaperones are cytoprotective but if abnormal in quantity or quality they may cause diseases, the chaperonopathies. Here, recent advances in the understanding of CCT and Hsp60 in cancerology are briefly discussed, focusing on breast and brain cancers. CCT subunits, particularly CCT2, were increased in breast cancer cells and this correlated with tumor progression. Experimental induction of CCT2 increase was accompanied by an increase of CCT3, 4, and 5, providing another evidence for the interconnection between the members of the CS and the difficulties expected while manipulating one member with therapeutic purposes. Another in silico study demonstrated a direct correlation between the increase in the tumor tissue of the mRNA levels of all CCT subunits, except CCTB6, with bad prognosis. Studies with glioblastomas demonstrated an increase in the CCT subunits in the tumor tissue and in extracellular vesicles (EVs) derived from them. Expression levels of CCT1, 2, 6A, and 7 were the most increased and markers of bad prognosis, particularly CCT6A. A method for measuring Hsp60 and related miRNA in exosomes from blood of patients with glioblastomas or other brain tumors was discussed, and the results indicate that the triad Hsp60-related miRNAs-exosomes has potential regarding diagnosis and patient monitoring. All these data provide a strong foundation for future studies on the role played by chaperonins in carcinogenesis and for fully developing their theranostics applications along with exosomes.
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- 2022
21. The altered lipidome of hepatocellular carcinoma
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Shawn Lu Wen, Tan, Erez, Israeli, Russell E, Ericksen, Pierce K H, Chow, and Weiping, Han
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Cancer Research ,Carcinoma, Hepatocellular ,Cell Transformation, Neoplastic ,Carcinogenesis ,Liver Neoplasms ,Lipidomics ,Humans - Abstract
Alterations in metabolic pathways are a hallmark of cancer. A deeper understanding of the contribution of different metabolites to carcinogenesis is thus vitally important to elucidate mechanisms of tumor initiation and progression to inform therapeutic strategies. Hepatocellular carcinoma (HCC) is a leading cause of cancer-related death worldwide and its altered metabolic landscape is beginning to unfold with the advancement of technologies. In particular, characterization of the lipidome of human HCCs has accelerated, and together with biochemical analyses, are revealing recurrent patterns of alterations in glycerophospholipid, sphingolipid, cholesterol and bile acid metabolism. These widespread alterations encompass a myriad of lipid species with numerous roles affecting multiple hallmarks of cancer, including aberrant growth signaling, metastasis, evasion of cell death and immunosuppression. In this review, we summarize the current trends and findings of the altered lipidomic landscape of HCC and discuss their potential biological significance for hepatocarcinogenesis.
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- 2022
22. Cytokines chattering in pancreatic ductal adenocarcinoma tumor microenvironment
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Rakesh Bhatia, Namita Bhyravbhatla, Andrew Kisling, Xiaoqi Li, Surinder K. Batra, and Sushil Kumar
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Pancreatic Neoplasms ,Cancer Research ,Epithelial-Mesenchymal Transition ,Carcinogenesis ,Tumor Microenvironment ,Humans ,Cytokines ,Carcinoma, Pancreatic Ductal - Abstract
Pancreatic ductal adenocarcinoma (PDAC) tumor microenvironment (TME) consists of multiple cell types interspersed by dense fibrous stroma. These cells communicate through low molecular weight signaling molecules called cytokines. The cytokines, through their receptors, facilitate PDAC initiation, progression, metastasis, and distant colonization of malignant cells. These signaling mediators secreted from tumor-associated macrophages, and cancer-associated fibroblasts in conjunction with oncogenic Kras mutation initiate acinar to ductal metaplasia (ADM), resulting in the appearance of early preneoplastic lesions. Further, M1- and M2-polarized macrophages provide proinflammatory conditions and promote deposition of extracellular matrix, whereas myofibroblasts and T-lymphocytes, such as Th17 and T-regulatory cells, create a fibroinflammatory and immunosuppressive environment with a significantly reduced cytotoxic T-cell population. During PDAC progression, cytokines regulate the expression of various oncogenic regulators such as NFκB, c-myc, growth factor receptors, and mucins resulting in the formation of high-grade PanIN lesions, epithelial to mesenchymal transition, invasion, and extravasation of malignant cells, and metastasis. During metastasis, PDAC cells colonize at the premetastatic niche created in the liver, and lung, an organotropic function primarily executed by cytokines in circulation or loaded in the exosomes from the primary tumor cells. The indispensable contribution of these cytokines at every stage of PDAC tumorigenesis makes them exciting candidates in combination with immune-, chemo- and targeted radiation therapy.
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- 2022
23. Aberrant protein synthesis and cancer development: The role of canonical eukaryotic initiation, elongation and termination factors in tumorigenesis
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Angela Rubio, Gavin D. Garland, Aristeidis Sfakianos, Robert F. Harvey, and Anne E. Willis
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Cancer Research ,Cell Transformation, Neoplastic ,Carcinogenesis ,Protein Biosynthesis ,Neoplasms ,Humans ,Eukaryota ,Eukaryotic Initiation Factors - Abstract
In tumourigenesis, oncogenes or dysregulated tumour suppressor genes alter the canonical translation machinery leading to a reprogramming of the translatome that, in turn, promotes the translation of selected mRNAs encoding proteins involved in proliferation and metastasis. It is therefore unsurprising that abnormal expression levels and activities of eukaryotic initiation factors (eIFs), elongation factors (eEFs) or termination factors (eRFs) are associated with poor outcome for patients with a wide range of cancers. In this review we discuss how RNA binding proteins (RBPs) within the canonical translation factor machinery are dysregulated in cancers and how targeting such proteins is leading to new therapeutic avenues.
- Published
- 2022
24. STAT family of transcription factors in breast cancer: Pathogenesis and therapeutic opportunities and challenges
- Author
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Grace L, Wong, Sara G, Manore, Daniel L, Doheny, and Hui-Wen, Lo
- Subjects
Cancer Research ,Carcinogenesis ,Neoplastic Stem Cells ,Humans ,Female ,Breast Neoplasms ,Neoplasms, Second Primary ,Neoplasm Recurrence, Local - Abstract
Breast cancer is the most commonly diagnosed cancer and second-leading cause of cancer deaths in women. Breast cancer stem cells (BCSCs) promote metastasis and therapeutic resistance contributing to tumor relapse. Through activating genes important for BCSCs, transcription factors contribute to breast cancer metastasis and therapeutic resistance, including the signal transducer and activator of transcription (STAT) family of transcription factors. The STAT family consists of six major isoforms, STAT1, STAT2, STAT3, STAT4, STAT5, and STAT6. Canonical STAT signaling is activated by the binding of an extracellular ligand to a cell-surface receptor followed by STAT phosphorylation, leading to STAT nuclear translocation and transactivation of target genes. It is important to note that STAT transcription factors exhibit diverse effects in breast cancer; some are either pro- or anti-tumorigenic while others maintain dual, context-dependent roles. Among the STAT transcription factors, STAT3 is the most widely studied STAT protein in breast cancer for its critical roles in promoting BCSCs, breast cancer cell proliferation, invasion, angiogenesis, metastasis, and immune evasion. Consequently, there have been substantial efforts in developing cancer therapeutics to target breast cancer with dysregulated STAT3 signaling. In this comprehensive review, we will summarize the diverse roles that each STAT family member plays in breast cancer pathobiology, as well as, the opportunities and challenges in pharmacologically targeting STAT proteins and their upstream activators in the context of breast cancer treatment.
- Published
- 2022
25. RNA-binding proteins: Underestimated contributors in tumorigenesis
- Author
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Y. Zhao, C. Mir, Y. Garcia-Mayea, R. Paciucci, H. Kondoh, and M.E. LLeonart
- Subjects
Cancer Research ,Cell Transformation, Neoplastic ,Epithelial-Mesenchymal Transition ,Carcinogenesis ,Neoplasms ,Humans ,RNA-Binding Proteins - Abstract
mRNA export, translation, splicing, cleavage or capping determine mRNA stability, which represents one of the primary aspects regulating gene expression and function. RNA-binding proteins (RBPs) bind to their target mRNAs to regulate multiple cell functions by increasing or reducing their stability. In recent decades, studies of the role of RBPs in tumorigenesis have revealed an increasing number of proteins impacting the prognosis, diagnosis and cancer treatment. Several RBPs have been identified based on their interactions with oncogenes or tumor suppressor genes in human cancers, which are involved in apoptosis, the epithelial-mesenchymal transition (EMT), DNA repair, autophagy, cell proliferation, immune response, metabolism, and the regulation of noncoding RNAs. In this review, we propose a model showing how RBP mutations influence tumorigenesis, and we update the current knowledge regarding the molecular mechanism by which RBPs regulate cancer. Special attention is being devoted to RBPs that represent prognostic and diagnostic factors in cancer patients.
- Published
- 2022
26. STAM binding protein regulated by hsa_circ_0007334 exerts oncogenic potential in pancreatic cancer
- Author
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Shan, Yu, Changyong, E, and Jinghui, Yang
- Subjects
Deubiquitinating Enzymes ,Hepatology ,Carcinogenesis ,Endocrinology, Diabetes and Metabolism ,Gastroenterology ,Oncogenes ,RNA, Circular ,Gene Expression Regulation, Neoplastic ,Pancreatic Neoplasms ,MicroRNAs ,Cell Movement ,Cell Line, Tumor ,Humans ,Cell Proliferation - Abstract
Pancreatic cancer (PC) is a highly aggressive and metastatic malignancy. The molecular events related to PC have not yet been fully elucidated. The STAM binding protein (STAMBP), a deubiquitinase, contributes to carcinogenesis in several types of cancer. Our study aims to investigate the function of STAMBP in the progression of PC.Fifteen pairs of tumor and tumor-adjacent tissues were obtained from PC patients. Human pancreatic cancer cell lines, SW 1990 and BxPC-3, were transfected with short hairpin RNA targeting STAMBP or/and vectors overexpressing wild-type STAMBP or STAMBP D348A mutants (inactive mutants of STAMBP). SW 1990 cells were co-transfected with vectors overexpressing STAMBP and small interfering RNA targeting hsa_circ_0007334.STAMBP was overexpressed in the tumor tissues as compared with the tumor-adjacent tissues from PC patients. Higher STAMBP expression in the tumor tissues showed worse prognosis. Loss/gain-of-function experiments revealed that STAMBP promoted the malignant behaviors of PC cells in vitro and xenograft tumor growth in vivo. Activation of NF-κB in PC cells was triggered by STAMBP. However, inactive mutants of STAMBP lost these biological functions in PC. hsa_circ_0007334, an oncogene in PC progression, was found to up-regulate STAMBP expression in PC cells. STAMBP up-regulation reversed the effects of hsa_circ_0007334 silencing on cell mobility.These results indicated that STAMBP depended on its deubiquitinase activities to induce the malignant behaviors of PC cells and was involved in the regulatory mechanism of hsa_circ_0007334 on PC cell mobility. Our findings provide a novel insight into the molecular mechanism of PC.
- Published
- 2022
27. Integration of chemokine signaling with non-coding RNAs in tumor microenvironment and heterogeneity in different cancers
- Author
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Shweta Arora, Salman Khan, Almaz Zaki, Gulnaz Tabassum, Mohd Mohsin, Humaira Naaz Bhutto, Tanveer Ahmad, Tasneem Fatma, and Mansoor Ali Syed
- Subjects
Cancer Research ,RNA, Untranslated ,Cell Transformation, Neoplastic ,Carcinogenesis ,Neoplasms ,Tumor Microenvironment ,Humans ,Chemokines - Abstract
Chemokines are small secreted proteins that regulate the immune system by signaling through chemokine receptors to induce immune cell migration, motility, and infiltration into the tissue. Altered chemokine/receptor expression is associated with numerous inflammatory diseases, and more recently in non-immune cell diseases like cancer. Emerging new studies demonstrate that chemokines can directly modulate the tumor microenvironment (TME) to assist tumorigenesis by regulating proinflammatory signaling, immune cell infiltration,and metastasis. However, the diversity and complexity in the regulation of chemokine expression and how chemokine receptor signaling influences TME needs comprehensive understanding. One mechanistic pathway that has shown promising early results in targeting tumor progression is the non-coding RNAs (ncRNAs). These are widely expressed and designated as prime gene regulatory factors in tumors and the immune system. Notably, ncRNAs have been implicated in regulating chromatin stability, translation of cytoplasmic mRNAs, and the functional regulation of membrane-less nuclear bodies, which are significant pathways implicated in tumorigenesis. Tissue-specific patterns of expression of ncRNAs have suggested their role as potential cancer biomarkers, providing a suitable rationale for targeting them clinically. In this review, we discuss the recent findings which demonstrate the role of differential expression of chemokines and ncRNA in modulating TME during tumor progression. We also discuss the communication between tumor and immune effector cells via chemokine/ncRNAs and identify their potential as novel therapeutic targets.
- Published
- 2022
28. Carcinogenic microbiota and its role in colorectal cancer development
- Author
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Tomasz Karpinski, Mark Stasiewicz, and Marcin Ozarowski
- Subjects
Cancer Research ,Fusobacterium nucleatum ,Carcinogenesis ,Microbiota ,Carcinogens ,Humans ,Colorectal Neoplasms - Abstract
Colorectal cancer (CRC) is one of the most common malignancies worldwide. The main risk factors for CRC are family history of colon or rectal cancer, familial polyposis syndrome or hereditary nonpolyposis, and chronic inflammatory bowel diseases (ulcerative colitis and Crohn's disease). Recent studies show that the gastrointestinal microbiota play a significant role in colorectal carcinogenesis. In this review we present the microorganisms, whose influence on the development of CRC has been proven: Bacteroides fragilis, Clostridioides and Clostridium spp., Enterococcus faecalis, Escherichia coli, Fusobacterium nucleatum, Helicobacter pylori, Peptostreptococcus anaerobius, Streptococcus bovis group, and sulfate-reducing bacteria. Moreover, the carcinogenic mechanisms of action mediated by the above bacteria are laid out.
- Published
- 2022
29. The role of RNA-binding proteins in the processing of mRNAs produced by carcinogenic papillomaviruses
- Author
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Naoko Kajitani and Stefan Schwartz
- Subjects
Cancer Research ,Carcinogenesis ,Papillomavirus E7 Proteins ,Papillomavirus Infections ,Mikrobiologi inom det medicinska området ,Carcinogens ,Humans ,RNA-Binding Proteins ,Oncogene Proteins, Viral ,RNA, Messenger ,Microbiology in the medical area - Abstract
Human papillomaviruses (HPV) are epitheliotropic DNA tumor viruses that are prevalent in the human population. A subset of the HPVs termed high-risk HPVs (HR-HPVs) are causative agents of anogenital cancers and head-and-neck cancers. Cancer is the result of persistent high-risk HPV infections that have not been cleared by the immune system of the host. These infections are characterized by dysregulated HPV gene expression, in particular constitutive high expression of the HPV E6 and E7 oncogenes and absence of the highly immunogenic viral L1 and L2 capsid proteins. HPVs make extensive use of alternative mRNA splicing to express its genes and are therefore highly dependent on cellular RNA-binding proteins for proper gene expression. Levels of RNA-binding proteins are altered in HPV-containing premalignant cervical lesions and in cervical cancer. Here we review our current knowledge of RNA-binding proteins that control HPV gene expression. We focus on RNA-binding proteins that control expression of the E6 and E7 oncogenes since they initiate and drive development of cancer and on the immunogenic L1 and L2 proteins as there silencing may contribute to immune evasion during carcinogenesis. Furthermore, cellular RNA-binding proteins are essential for HPV gene expression and as such may be targets for therapy to HPV infections and HPV-driven cancers.
- Published
- 2022
30. Modulation and function of Pumilio proteins in cancer
- Author
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Isabelle Leticia Zaboroski, Silva, Arissa Andreina, Kohata, and Patrícia, Shigunov
- Subjects
MicroRNAs ,Cancer Research ,Carcinogenesis ,Neoplasms ,Humans ,RNA-Binding Proteins ,RNA, Circular - Abstract
Post-transcriptional regulation is involved in tumorigenesis, and in this control, RNA-binding proteins are the main protagonists. Pumilio proteins are highly conserved RNA-binding proteins that regulate many aspects of RNA processing. The dysregulation of Pumilio expression is associated with different types of cancer. This review summarizes the roles of Pumilio 1 and Pumilio 2 in cancer and discusses the factors that account for their distinct biological functions. Pumilio levels seem to be related to tumor progression and poor prognoses in some kinds of tumors, such as lung, pancreatic, prostate, and cervical cancers. Pumilio 1 is associated with cancer proliferation, migration, and invasion, and so is Pumilio 2, although there are contradictory reports regarding the latter. Furthermore, the circular RNA, circPUM1, has been described as a miRNAs sponge, regulating miRNA involved in the cell cycle. The expression and function of Pumilio proteins depend on the fine adjustment of a set of modulators, including miRNAs, lncRNAs, and circRNAs; this demonstrates that Pumilio plays an important role in tumorigenesis through a variety of regulatory axes.
- Published
- 2022
31. Critical DNA damaging pathways in tumorigenesis
- Author
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Zhenkun Lou and Jake A. Kloeber
- Subjects
0301 basic medicine ,Genome instability ,Cancer Research ,DNA Repair ,DNA damage ,Biology ,medicine.disease_cause ,Genomic Instability ,Malignant transformation ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,Tumor Microenvironment ,medicine ,Humans ,DNA Breaks, Double-Stranded ,Tumor microenvironment ,DNA ,Double Strand Break Repair ,Cell biology ,Cell Transformation, Neoplastic ,030104 developmental biology ,chemistry ,030220 oncology & carcinogenesis ,Cancer cell ,Carcinogenesis ,DNA Damage - Abstract
The acquisition of DNA damage is an early driving event in tumorigenesis. Premalignant lesions show activated DNA damage responses and inactivation of DNA damage checkpoints promotes malignant transformation. However, DNA damage is also a targetable vulnerability in cancer cells. This requires a detailed understanding of the cellular and molecular mechanisms governing DNA integrity. Here, we review current work on DNA damage in tumorigenesis. We discuss DNA double strand break repair, how repair pathways contribute to tumorigenesis, and how double strand breaks are linked to the tumor microenvironment. Next, we discuss the role of oncogenes in promoting DNA damage through replication stress. Finally, we discuss our current understanding on DNA damage in micronuclei and discuss therapies targeting these DNA damage pathways.
- Published
- 2022
32. The HECT family of E3 ubiquitin ligases and PTEN
- Author
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Pier Paolo Pandolfi and Min Sup Song
- Subjects
0301 basic medicine ,Cancer Research ,biology ,Carcinogenesis ,Ubiquitin-Protein Ligases ,PTEN Phosphohydrolase ,Ubiquitination ,NEDD4 ,Computational biology ,medicine.disease_cause ,Subcellular localization ,03 medical and health sciences ,030104 developmental biology ,0302 clinical medicine ,Ubiquitin ,Neoplasms ,030220 oncology & carcinogenesis ,biology.protein ,medicine ,Humans ,PTEN ,Signal transduction ,Gene ,Function (biology) - Abstract
Members of the HECT family of E3 ubiquitin ligases have emerged as prominent regulators of PTEN function, subcellular localization and levels. In turn this unfolding regulatory network is allowing for the identification of genes directly involved in both tumorigenesis at large and cancer susceptibility syndromes. While the complexity of this regulatory network is still being unraveled, these new findings are paving the way for novel therapeutic modalities for cancer prevention and therapy as well as for other diseases. Here we will review the signal transduction and therapeutic implications of the cross-talk between HECT family members and PTEN.
- Published
- 2022
33. ZFP64 transcriptionally activates PD-1 and CTLA-4 and plays an oncogenic role in esophageal cancer
- Author
-
Gan Qiu and Yiping Deng
- Subjects
Esophageal Neoplasms ,Carcinogenesis ,Programmed Cell Death 1 Receptor ,Biophysics ,Cell Biology ,Biochemistry ,DNA-Binding Proteins ,Mice ,Cell Line, Tumor ,Animals ,Humans ,CTLA-4 Antigen ,Molecular Biology ,Transcription Factors - Abstract
Anti-cytotoxic T-lymphocyte-associated protein 4 (CTLA-4) and anti-programmed death-1 (PD-1) are promising therapies for esophageal cancer. Zinc finger protein 64 (ZFP64) is precited as a transcriptional factor for PD-1 and CTLA-4 and presents high expression in esophagus cancer by bioinformatics analysis. The present study was designed to validate these results and to further explore the role of ZFP64 in esophagus cancer tumorigenesis. An orthotopic xenograft mouse model was established. Effects of ZFP64 on tumor growth and weight were assessed. Immunohistochemical staining was performed to reveal the protein expression of ZFP64, PD-1, and CTLA-4. Gain-of-function assays were performed to evaluate the influences of ZFP64 on cancer cell malignant phenotypes. The results revealed that ZFP64 transcriptionally activates PD-1 and CTLA-4 to increase their expression. ZFP64 plays an oncogenic role in esophageal cancer by promoting cancer cell proliferation, migration, invasion, and repressing apoptosis. ZFP64 also promotes esophageal cancer xenograft tumor growth in mice. In conclusion, ZFP64 increases PD-1 and CTLA-4 expression by binding to their promoters and facilitates esophageal cancer tumorigenesis, indicating ZFP64 protein transcription factor as a potential antidrug target in esophageal cancer.
- Published
- 2022
34. Distinct mutational features across preinvasive and invasive subtypes identified through comprehensive profiling of surgically resected lung adenocarcinoma
- Author
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Chan Xiang, Chunyu Ji, Yiran Cai, Haohua Teng, Yulu Wang, Ruiying Zhao, Zhanxian Shang, Lianying Guo, Shengnan Chen, Analyn Lizaso, Jing Lin, Haozhe Wang, Bing Li, Zhou Zhang, Jikai Zhao, Jinzhi Wei, Jiaxin Liu, Lei Zhu, Wentao Fang, and Yuchen Han
- Subjects
Proto-Oncogene Proteins B-raf ,Lung Neoplasms ,Carcinogenesis ,Mutation ,Humans ,Adenocarcinoma of Lung ,Adenocarcinoma ,Retrospective Studies ,Pathology and Forensic Medicine - Abstract
Lung adenocarcinoma (LUAD) is a heterogeneous disease. Our study aimed to understand the unique molecular features of preinvasive to invasive LUAD subtypes. We retrospectively analyzed the clinical, histopathological, and molecular data of 3,254 Chinese patients with preinvasive lesions (n = 252), minimally invasive adenocarcinomas (n = 479), and invasive LUAD (n = 2,523). Molecular data were elucidated using a targeted 68-gene next-generation sequencing panel. Our findings revealed four preinvasive lesion-predominant gene mutations, including MAP2K1 insertion-deletions (indels), BRAF non-V600E kinase mutations, and exon 20 insertions (20ins) in both EGFR and ERBB2, which we referred to as mutations enriched in AIS (MEA). The detection rate of MEA in invasive tumors was relatively lower. MAP2K1 missense mutations, which were likely passenger mutations, co-occurred with oncogenic driver mutations, while small indels were mutually exclusive from other genes regardless of the invasion level. BRAF non-V600E kinase-mutant invasive adenocarcinomas (IAC) had significantly higher mutation rates in tumor suppressor genes but lower frequency of co-occurring oncogenic driver mutations than non-kinase-mutant IAC, suggesting the potential oncogenic activity of BRAF non-V600E kinase mutations albeit weaker than BRAF V600E. Moreover, similar to the extremely low frequency of MAP2K1 indels in IAC, BRAF non-V600E kinase domain mutations co-occurring with TSC1 mutations were exclusively found in preinvasive lesions. Compared with EGFR L858R and exon 19 deletion, patients with preinvasive lesions harboring 20ins in either EGFR or ERBB2 were significantly younger, while those with IAC had similar age. Furthermore, our study demonstrated distinct mutational features for subtypes of oncogene mutations favored by different invasion patterns in adenocarcinomas. In conclusion, our data demonstrate distinct mutational features between preinvasive lesions and invasive tumors with MEA, suggesting the involvement of MEA in the early stages of tumorigenesis. Further pre-clinical studies are required to establish the role of these genes in the malignant transformation of LUAD.
- Published
- 2022
35. NCAPG promotes tumorigenesis of bladder cancer through NF-κB signaling pathway
- Author
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Feng Tang, Hua Yu, Xia Wang, Jiageng Shi, Zhizhuang Chen, Hao Wang, Ziyu Wan, Qiqi Fu, Xuan Hu, Yisha Zuhaer, Tao Liu, Zhonghua Yang, and Jianping Peng
- Subjects
Carcinogenesis ,NF-kappa B ,Biophysics ,Cell Cycle Proteins ,Cell Biology ,Biochemistry ,Gene Expression Regulation, Neoplastic ,Cell Transformation, Neoplastic ,Urinary Bladder Neoplasms ,Cell Line, Tumor ,Animals ,Humans ,Molecular Biology ,Cell Proliferation ,Signal Transduction - Abstract
The non-SMC condensin I complex subunit G (NCAPG) is a subunit of the condensin complex, many studies have shown that NCAPG is aberrantly expressed in different tumors and closely associated with poor prognosis, but its role in bladder cancer is unclear. In this paper, we found that NCAPG expression was upregulated in bladder cancer in tumor-related databases, and further verified the expression of NCAPG in bladder cancer tissues as well as bladder cancer cell lines by tissue microarray, qPCR, and WB. Next, we explored the changes in bladder cancer cell proliferation as well as migration after NCAPG knockdown by cell growth curve, colony formation, soft agar assay, and xenograft model. Finally, we examined the changes in downstream signaling pathways after NCAPG knockdown using RNA-Seq, and we found that the NF-κB signaling pathway was inhibited with NCAPG gene knockdown, which was verified by luciferase reporter assay as well as WB. In conclusion, our results illustrate that NCAPG knockdown can inhibit the proliferation of bladder cancer cells through the NF-κB signaling pathway. This finding demonstrates that NCAPG could be a potential target for the treatment of bladder cancer.
- Published
- 2022
36. 16α-18F-fluoro-17β-Fluoroestradiol (FES): Clinical Applications for Patients With Breast Cancer
- Author
-
Gary Ulaner
- Subjects
Estradiol ,Receptors, Estrogen ,Carcinogenesis ,Positron-Emission Tomography ,Humans ,Breast Neoplasms ,Estrogens ,Female ,Radiology, Nuclear Medicine and imaging - Abstract
Estrogen receptor (ER) is highly expressed in 70%-80% of breast cancers and plays a central role in prognosis and treatment selection for patients with breast cancer. The gold standard for determining ER status in breast cancer has been pathology; however, tissue samples are invasive to obtain and only provide information on individual lesions. It is increasingly recognized that there is often spatial and temporal heterogeneity of ER status between lesions, which limits our ability to make decisions based on only one or a few tissue samples. Likewise, it is increasingly recognized that ER may be present, but not functional, thus knowledge of the ER status on pathology is not sufficient to determine the role ER plays in oncogenesis in individual patients or to make optimal treatment decisions. 16α-18F-fluoro-17β-Fluoroestradiol (FES) is a radiolabeled form of estrogen that binds to ER and allows non-invasive, whole-body evaluation of functional ER. FES has been shown to correlate with ER immunohistochemistry, successfully demonstrate ER heterogeneity, and provide high diagnostic accuracy for the detection of ER-positive tumors. FES was FDA approved May 20, 2020, as a diagnostic agent for the detection of ER-positive lesions as an adjunct to biopsy in patients with recurrent or metastatic breast cancer. FES has demonstrated sensitive detection of ER-positive malignancy in several anatomic sites, including bone, lymph nodes, and brain. Visualization of liver lesions is hampered by physiologic liver and biliary excretion of FES. Potential clinical applications of FES include selecting appropriate patients for hormonal therapies, assessing ER-status in lesions that are difficult to biopsy, solving clinical dilemmas when there are inconclusive results from other diagnostic studies, systemic staging of ER-positive breast cancers with low metabolic activity and not well visualized by FDG, and selecting optimal dosage for current or novel ER-targeted therapies to abrogate ER function and oncogenesis. FES binding to ER is blocked by selective estrogen receptor modulators, such as tamoxifen, and selective estrogen degraders, such as fulvestrant. Patients will need to be withdrawn from these treatments prior to FES imaging. The aim of this review is to provide an overview of FES PET, how it is performed, potential clinical applications, limitations, and what may be on the horizon for this growing tool for the care of patients with breast cancer.
- Published
- 2022
37. Oncogenetic landscape of T-cell lymphoblastic lymphomas compared to T-cell acute lymphoblastic leukemia
- Author
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Christophe Bontoux, Mathieu Simonin, Nathalie Garnier, Ludovic Lhermitte, Aurore Touzart, Guillaume Andrieu, Julie Bruneau, Etienne Lengliné, Adriana Plesa, Nicolas Boissel, André Baruchel, Yves Bertrand, Thierry Jo Molina, Elizabeth Macintyre, and Vahid Asnafi
- Subjects
Phosphatidylinositol 3-Kinases ,Cell Transformation, Neoplastic ,Adolescent ,Carcinogenesis ,Class I Phosphatidylinositol 3-Kinases ,T-Lymphocytes ,Humans ,Leukemia-Lymphoma, Adult T-Cell ,Precursor Cell Lymphoblastic Leukemia-Lymphoma ,Lymphoma, T-Cell ,Precursor T-Cell Lymphoblastic Leukemia-Lymphoma ,Pathology and Forensic Medicine - Abstract
In the latest 2016 World Health Organization classification of hematological malignancies, T-cell lymphoblastic lymphoma (T-LBL) and lymphoblastic leukemia (T-ALL) are grouped together into one entity called T-cell lymphoblastic leukemia/lymphoma (T-LBLL). However, the question of whether these entities represent one or two diseases remains. Multiple studies on driver alterations in T-ALL have led to a better understanding of the disease while, so far, little data on genetic profiles in T-LBL is available. We sought to define recurrent genetic alterations in T-LBL and provide a comprehensive comparison with T-ALL. Targeted whole-exome next-generation sequencing of 105 genes, multiplex ligation-dependent probe amplification, and quantitative PCR allowed comprehensive genotype assessment in 818, consecutive, unselected, newly diagnosed patients (342 T-LBL vs. 476 T-ALL). The median age at diagnosis was similar in T-LBL and T-ALL (17 vs. 15 years old, respectively; p = 0.2). Although we found commonly altered signaling pathways and co-occurring mutations, we identified recurrent dissimilarities in actionable gene alterations in T-LBL as compared to T-ALL. HOX abnormalities (TLX1 and TLX3 overexpression) were more frequent in T-ALL (5% of T-LBL vs 13% of T-ALL had TLX1 overexpression; p = 0.04 and 6% of T-LBL vs 17% of T-ALL had TLX3 overexpression; p = 0.006). The PI3K signaling pathway was significantly more frequently altered in T-LBL as compared to T-ALL (33% vs 19%; p 0.001), especially through PIK3CA alterations (9% vs 2%; p 0.001) with PIK3CA
- Published
- 2022
38. Combinatorial transcriptional regulation of HEB/ZEB1/ASCL1 and MYBL2 on Ras/ErbB signaling
- Author
-
Feiliang Zhong, Tingting Chen, and Bo Li
- Subjects
Lung Neoplasms ,Carcinogenesis ,Carcinoma ,Liver Neoplasms ,Biophysics ,Zinc Finger E-box-Binding Homeobox 1 ,Breast Neoplasms ,Cell Cycle Proteins ,Cell Biology ,Biochemistry ,Gene Expression Regulation, Neoplastic ,Basic Helix-Loop-Helix Transcription Factors ,Trans-Activators ,Humans ,Female ,Melanoma ,Molecular Biology ,Transcription Factors - Abstract
Gene expression is tightly regulated by transcription factors (TFs) which play an important role in development and tumorigenesis. Abnormal transcriptional regulation leads to oncogene activation or tumor suppressor inhibition, thus promoting the occurrence and progression of tumors. MYBL2 (alias B-Myb), a ubiquitously expressed transcription factor of the MYB family, is a nuclear protein involved in cell cycle progression and overexpressed and associated with poor patient outcomes in numerous cancer entities. However, the further effectors of the MYBL2 downstream transcriptional network mediating its cancer-promoting properties remain not well elaborated. Here, we systemic investigated the global MYBL2 targets base on ChIP-seq data from melanoma, breast cancer, lung carcinoma, and liver cancer. Functional enrichment and further validation of MYBL2 downstream binding targets on melanoma cells demonstrated that genes in the Ras and ErbB signaling pathways were regulated by MYBL2. Moreover, when integrating breast cancer, lung carcinoma and liver cancer data, we identified HEB, ZEB1 and ASCL1 colocalized on Ras/ErbB signaling gene locus with MYBL2, indicating the regulatory complex on activating oncogenic expression. Taken together, this study provides a reference for a better understanding of the MYBL2 regulatory mechanism in tumorigenesis.
- Published
- 2022
39. Causes, effects, and clinical implications of perturbed patterns within the cancer epigenome
- Author
-
Marta Machnik and Urszula Oleksiewicz
- Subjects
Epigenomics ,0301 basic medicine ,Cancer Research ,Computational biology ,medicine.disease_cause ,Epigenesis, Genetic ,Epigenome ,03 medical and health sciences ,0302 clinical medicine ,Neoplasms ,medicine ,Humans ,Epigenetics ,biology ,Cancer ,DNA Methylation ,medicine.disease ,030104 developmental biology ,Histone ,Physiological Aging ,030220 oncology & carcinogenesis ,DNA methylation ,biology.protein ,Carcinogenesis - Abstract
Somatic mutations accumulating over a patient's lifetime are well-defined causative factors that fuel carcinogenesis. It is now clear, however, that epigenomic signature is also largely perturbed in many malignancies. These alterations support the transcriptional program crucial for the acquisition and maintenance of cancer hallmarks. Epigenetic instability may arise due to the genetic mutations or transcriptional deregulation of the proteins implicated in epigenetic signaling. Moreover, external stimulation and physiological aging may also participate in this phenomenon. The epigenomic signature is frequently associated with a cell of origin, as well as with tumor stage and differentiation, which all reflect its high heterogeneity across and within various tumors. Here, we will overview the current understanding of the causes and effects of the altered and heterogeneous epigenomic landscape in cancer. We will focus mainly on DNA methylation and post-translational histone modifications as the key regulatory epigenetic signaling marks. In addition, we will describe how this knowledge is translated into the clinic. We will particularly concentrate on the applicability of epigenetic alterations as biomarkers for improved diagnosis, prognosis, and prediction. Finally, we will also review current developments regarding epi-drug usage in clinical and experimental settings.
- Published
- 2022
40. Regulatory effects of noncoding RNAs on the interplay of oxidative stress and autophagy in cancer malignancy and therapy
- Author
-
Tzu-Jung Yu, Sheng-Chieh Wang, Pei-Feng Liu, Hans-Uwe Dahms, Jen-Yang Tang, Hsueh-Wei Chang, Cheng-Hsin Lee, Ammad Ahmad Farooqi, Sheng-Yao Peng, and Chih-Wen Shu
- Subjects
0301 basic medicine ,Cancer Research ,RNA, Untranslated ,Biology ,medicine.disease_cause ,Antioxidants ,03 medical and health sciences ,0302 clinical medicine ,Neoplasms ,microRNA ,Autophagy ,medicine ,Humans ,Gene ,chemistry.chemical_classification ,Reactive oxygen species ,Non-coding RNA ,MicroRNAs ,Oxidative Stress ,030104 developmental biology ,chemistry ,030220 oncology & carcinogenesis ,Cancer cell ,Cancer research ,RNA, Long Noncoding ,Neoplasm Recurrence, Local ,Reactive Oxygen Species ,Carcinogenesis ,Oxidative stress - Abstract
Noncoding RNAs (ncRNAs) regulation of various diseases including cancer has been extensively studied. Reactive oxidative species (ROS) elevated by oxidative stress are associated with cancer progression and drug resistance, while autophagy serves as an ROS scavenger in cancer cells. However, the regulatory effects of ncRNAs on autophagy and ROS in various cancer cells remains complex. Here, we explore how currently investigated ncRNAs, mainly miRNAs and lncRNAs, are involved in ROS production through modulating antioxidant genes. The regulatory effects of miRNAs and lncRNAs on autophagy-related (ATG) proteins to control autophagy activity in cancer cells are discussed. Moreover, differential expression of ncRNAs in tumor and normal tissues of cancer patients are further analyzed using The Cancer Genome Atlas (TCGA) database. This review hypothesizes links between ATG genes- or antioxidant genes-modulated ncRNAs and ROS production, which might result in tumorigenesis, malignancy, and cancer recurrence. A better understanding of the regulation of ROS and autophagy by ncRNAs might advance the use of ncRNAs as diagnostic and prognostic markers as well as therapeutic targets in cancer therapy.
- Published
- 2022
41. Inflammasomes in cancer: Effect of epigenetic and autophagic modulations
- Author
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Prakash Priyadarshi Praharaj, Debasna P. Panigrahi, Bishnu Prasad Behera, Kewal Kumar Mahapatra, Shankargouda Patil, Amruta Singh, Rohan Dhiman, Srimanta Patra, Soumya Ranjan Mishra, Chandra Sekhar Bhol, Sujit K. Bhutia, and Samir Kumar Patra
- Subjects
0301 basic medicine ,Cancer Research ,Carcinogenesis ,Inflammasomes ,Cellular homeostasis ,Biology ,medicine.disease_cause ,Epigenesis, Genetic ,03 medical and health sciences ,0302 clinical medicine ,Neoplasms ,Autophagy ,Tumor Microenvironment ,medicine ,Humans ,Epigenetics ,Tissue homeostasis ,Cancer ,Inflammasome ,medicine.disease ,Cell biology ,030104 developmental biology ,030220 oncology & carcinogenesis ,DNA methylation ,medicine.drug - Abstract
Tumour-promoting inflammation is a critical hallmark in cancer development, and inflammasomes are well-known regulators of inflammatory processes within the tumour microenvironment. Different inflammasome components along with the adaptor, apoptosis-associated speck-like protein containing caspase activation and recruitment domain (ASC), and the effector, caspase-1, have a significant influence on tumorigenesis but in a tissue-specific and stage-dependent manner. The downstream products of inflammasome activation, that is the proinflammatory cytokines such as IL-1β and IL-18, regulate tissue homeostasis and induce antitumour immune responses, but in contrast, they can also favour cancer growth and proliferation by directing various oncogenic signalling pathways in cancer cells. Moreover, different epigenetic mechanisms, including DNA methylation, histone modification and noncoding RNAs, control inflammasomes and their components by regulating gene expression during cancer progression. Furthermore, autophagy, a master controller of cellular homeostasis, targets inflammasome-induced carcinogenesis by maintaining cellular homeostasis and removing potential cancer risk factors that promote inflammasome activation in support of tumorigenesis. Here, in this review, we summarize the effect of inflammasome activation in cancers and discuss the role of epigenetic and autophagic regulatory mechanisms in controlling inflammasomes. A proper understanding of the interactions among these key processes will be useful for developing novel therapeutic regimens for targeting inflammasomes in cancer.
- Published
- 2022
42. New Metabolic Alterations and A Predictive Marker Pipecolic Acid in Sera for Esophageal Squamous Cell Carcinoma
- Author
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Lei Liu, Jia Wu, Minxin Shi, Fengying Wang, Haimin Lu, Jibing Liu, Weiqin Chen, Guanzhen Yu, Dan Liu, Jing Yang, Qin Luo, Yan Ni, Xing Jin, Xiaoxia Jin, and Wen-Lian Chen
- Subjects
Predictive marker ,business.industry ,Metabolite ,Esophageal cancer ,medicine.disease ,medicine.disease_cause ,Biochemistry ,digestive system diseases ,chemistry.chemical_compound ,Computational Mathematics ,chemistry ,Dysplasia ,medicine ,Cancer research ,Metabolome ,Genetics ,Biomarker (medicine) ,Carcinogenesis ,business ,neoplasms ,Molecular Biology ,Pipecolic acid - Abstract
Esophageal squamous cell carcinoma (ESCC) is a major histological subtype of esophageal cancer with a poor prognosis. Although several serum metabolomic investigations have been reported, ESCC tumor-associated metabolic alterations and predictive biomarkers in sera have not been defined. Here, we enrolled 34 treatment-naive patients with ESCC and collected their pre- and post-esophagectomy sera together with the sera from 34 healthy volunteers for a metabolomic survey. Our comprehensive analysis identified ESCC tumor-associated metabolic alterations as represented by a panel of 12 serum metabolites. Notably, postoperative abrosia and parenteral nutrition substantially perturbed the serum metabolome. Furthermore, we performed an examination using sera from carcinogen-induced mice at the dysplasia and ESCC stages and identified three ESCC tumor-associated metabolites conserved between mice and humans. Notably, among these metabolites, the level of pipecolic acid was observed to be progressively increasing in mouse sera from dysplasia to cancerization, and it could be used to accurately discriminate between mice at the dysplasia stage and healthy control mice. Furthermore, this metabolite is essential for ESCC cells to restrain oxidative stress-induced DNA damage and cell proliferation arrest. Together, this study revealed a panel of 12 ESCC tumor-associated serum metabolites with potential for monitoring therapeutic efficacy and disease relapse, presented evidence for refining parenteral nutrition composition, and highlighted serum pipecolic acid as an attractive biomarker for predicting ESCC tumorigenesis.
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- 2022
43. Epigenetic landscape of small cell lung cancer: small image of a giant recalcitrant disease
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Mohd W. Nasser, Imayavaramban Lakshmanan, Surinder K. Batra, Jawed A. Siddiqui, Ravi Salgia, Maneesh Jain, Shailendra Kumar Maurya, Apar Kishor Ganti, and Parvez Khan
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0301 basic medicine ,Cancer Research ,Lung Neoplasms ,Disease ,medicine.disease_cause ,Article ,Epigenesis, Genetic ,Metastasis ,03 medical and health sciences ,0302 clinical medicine ,Histone methylation ,Humans ,Medicine ,Epigenetics ,Lung cancer ,neoplasms ,business.industry ,Cancer ,DNA Methylation ,medicine.disease ,Small Cell Lung Carcinoma ,humanities ,respiratory tract diseases ,030104 developmental biology ,030220 oncology & carcinogenesis ,DNA methylation ,Cancer research ,Immunotherapy ,business ,Carcinogenesis - Abstract
Small cell lung cancer (SCLC) is a particular subtype of lung cancer with high mortality. Recent advances in understanding SCLC genomics and breakthroughs of immunotherapy have substantially expanded existing knowledge and treatment modalities. However, challenges associated with SCLC remain enigmatic and elusive. Most of the conventional drug discovery approaches targeting altered signaling pathways in SCLC end up in the ‘grave-yard of drug discovery’, which mandates exploring novel approaches beyond inhibiting cell signaling pathways. Epigenetic modifications have long been documented as the key contributors to the tumorigenesis of almost all types of cancer, including SCLC. The last decade witnessed an exponential increase in our understanding of epigenetic modifications for SCLC. The present review highlights the central role of epigenetic regulations in acquiring neoplastic phenotype, metastasis, aggressiveness, resistance to chemotherapy, and immunotherapeutic approaches of SCLC. Different types of epigenetic modifications (DNA/histone methylation or acetylation) that can serve as predictive biomarkers for prognostication, treatment stratification, neuroendocrine lineage determination, and development of potential SCLC therapies are also discussed. We also review the utility of epigenetic targets/epidrugs in combination with first-line chemotherapy and immunotherapy that are currently under investigation in preclinical and clinical studies. Altogether, the information presents the inclusive landscape of SCLC epigenetics and epidrugs that will help translate the knowledge of epigenetics to improve SCLC outcomes.
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- 2022
44. β-Catenin Sustains and Is Required for YES-associated Protein Oncogenic Activity in Cholangiocarcinoma
- Author
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Yi Zhang, Hongwei Xu, Guofei Cui, Binyong Liang, Xiangzheng Chen, Sungjin Ko, Silvia Affo, Xinhua Song, Yi Liao, Jianguo Feng, Pan Wang, Haichuan Wang, Meng Xu, Jingxiao Wang, Giovanni M. Pes, Silvia Ribback, Yong Zeng, Aatur Singhi, Robert F. Schwabe, Satdarshan P. Monga, Matthias Evert, Liling Tang, Diego F. Calvisi, and Xin Chen
- Subjects
Hepatology ,Carcinogenesis ,Gastroenterology ,YAP-Signaling Proteins ,Cholangiocarcinoma ,Mice ,Bile Ducts, Intrahepatic ,Bile Duct Neoplasms ,Animals ,Humans ,Proto-Oncogene Proteins c-akt ,beta Catenin ,Adaptor Proteins, Signal Transducing ,Transcription Factors - Abstract
YES-associated protein (YAP) aberrant activation is implicated in intrahepatic cholangiocarcinoma (iCCA). Transcriptional enhanced associate domain (TEAD)-mediated transcriptional regulation is the primary signaling event downstream of YAP. The role of Wnt/β-Catenin signaling in cholangiocarcinogenesis remains undetermined. Here, we investigated the possible molecular interplay between YAP and β-Catenin cascades in iCCA.Activated AKT (Myr-Akt) was coexpressed with YAP (YapS127A) or Tead2VP16 via hydrodynamic tail vein injection into mouse livers. Tumor growth was monitored, and liver tissues were collected and analyzed using histopathologic and molecular analysis. YAP, β-Catenin, and TEAD interaction in iCCAs was investigated through coimmunoprecipitation. Conditional Ctnnb1 knockout mice were used to determine β-Catenin function in murine iCCA models. RNA sequencing was performed to analyze the genes regulated by YAP and/or β-Catenin. Immunostaining of total and nonphosphorylated/activated β-Catenin staining was performed in mouse and human iCCAs.We discovered that TEAD factors are required for YAP-dependent iCCA development. However, transcriptional activation of TEADs did not fully recapitulate YAP's activities in promoting cholangiocarcinogenesis. Notably, β-Catenin physically interacted with YAP in human and mouse iCCA. Ctnnb1 ablation strongly suppressed human iCCA cell growth and Yap-dependent cholangiocarcinogenesis. Furthermore, RNA-sequencing analysis revealed that YAP/ transcriptional coactivator with PDZ-binding motif (TAZ) regulate a set of genes significantly overlapping with those controlled by β-Catenin. Importantly, activated/nonphosphorylated β-Catenin was detected in more than 80% of human iCCAs.YAP induces cholangiocarcinogenesis via TEAD-dependent transcriptional activation and interaction with β-Catenin. β-Catenin binds to YAP in iCCA and is required for YAP full transcriptional activity, revealing the functional crosstalk between YAP and β-Catenin pathways in cholangiocarcinogenesis.
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- 2022
45. Dietary molecules and experimental evidence of epigenetic influence in cancer chemoprevention: An insight
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Shazia Usmani, Faisel M. Abu-Duhier, Mohammad Fahad Ullah, and Aaliya Shah
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Epigenomics ,0301 basic medicine ,Regulation of gene expression ,Cancer Research ,Cancer ,Epigenome ,DNA Methylation ,Biology ,medicine.disease_cause ,medicine.disease ,Diet ,Epigenesis, Genetic ,03 medical and health sciences ,030104 developmental biology ,0302 clinical medicine ,Neoplasms ,030220 oncology & carcinogenesis ,Cancer cell ,DNA methylation ,medicine ,Cancer research ,Humans ,Epigenetics ,Carcinogenesis ,Epigenetic therapy - Abstract
The world-wide rate of incidence of cancer disease has been only modestly contested by the past and current preventive and interventional strategies. Hence, the global effort towards novel ideas to contain the disease still continues. Constituents of human diets have in recent years emerged as key regulators of carcinogenesis, with studies reporting their inhibitory potential against all the three stages vis-a-vis initiation, promotion and progression. Unlike drugs which usually act on single targets, these dietary factors have an advantage of multi-targeted effects and pleiotropic action mechanisms, which are effective against cancer that manifest as a micro-evolutionary and multi-factorial disease. Since most of the cellular targets have been identified and their consumption considered relatively safe, these diet-derived agents often appear as molecules of interest in repurposing strategies. Currently, many of these molecules are being investigated for their ability to influence the aberrant alterations in cell's epigenome for epigenetic therapy against cancer. Targeting the epigenetic regulators is a new paradigm in cancer chemoprevention which acts to reverse the warped-up epigenetic alterations in a cancer cell, thereby directing it towards a normal phenotype. In this review, we discuss the significance of dietary factors and natural products as chemopreventive agents. Further, we corroborate the experimental evidence from existing literature, reflecting the ability of a series of such molecules to act as epigenetic modifiers in cancer cells, by interfering with molecular events that map the epigenetic imprints such as DNA methylation, histone acetylation and non-coding RNA mediated gene regulation.
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- 2022
46. Induction of Transcriptional Inhibitor HES1 and the Related Repression of Tumor-Suppressor TXNIP Are Important Components of Cell-Transformation Program Imposed by Oncogenic Kinase NPM-ALK
- Author
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Qian Zhang, Hong Y. Wang, Anindita Nayak, Selene Nunez-Cruz, Artur Slupianek, Xiaobin Liu, Johnvesly Basappa, Jing-Song Fan, Seble Chekol, Reza Nejati, Agata M. Bogusz, Suzanne D. Turner, Kunchithapadam Swaminathan, and Mariusz A. Wasik
- Subjects
Carcinogenesis ,Cell Line, Tumor ,Humans ,Transcription Factor HES-1 ,Anaplastic Lymphoma Kinase ,Oncogenes ,Phosphorylation ,Carrier Proteins ,Lymphoma, T-Cell ,Pathology and Forensic Medicine - Abstract
This study reports that hairy and enhancer of split homolog-1 (HES1), known to repress gene transcription in progenitor cells of several cell lineages, was strongly expressed in cells and tissues of T-cell lymphoma expressing the oncogenic chimeric tyrosine kinase nucleophosmin (NPM)-anaplastic lymphoma kinase [ALK; ALK
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- 2022
47. Role of epigenetics in carcinogenesis: Recent advancements in anticancer therapy
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Shafiul Haque, Sonam Tulsyan, Umme Abiha, Bhartendu Nath Mishra, Sajad Ahmad Dar, Rajesh Kumar, Sandeep Sisodiya, and Showket Hussain
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Epigenomics ,0301 basic medicine ,Cancer Research ,Carcinogenesis ,Computational biology ,medicine.disease_cause ,Chromatin remodeling ,Epigenesis, Genetic ,03 medical and health sciences ,0302 clinical medicine ,Neoplasms ,microRNA ,medicine ,Humans ,Epigenetics ,biology ,Cancer ,DNA Methylation ,medicine.disease ,Chromatin ,030104 developmental biology ,Histone ,030220 oncology & carcinogenesis ,DNA methylation ,biology.protein - Abstract
The role of epigenetics in the etiology of cancer progression is being emphasized for the past two decades to check the impact of chromatin modifiers and remodelers. Histone modifications, DNA methylation, chromatin remodeling, nucleosome positioning, regulation by non-coding RNAs and precisely microRNAs are influential epigenetic marks in the field of progressive cancer sub-types. Furthermore, constant epigenetic changes due to hyper or hypomethylation could efficiently serve as effective biomarkers of cancer diagnosis and therapeutic development. Ongoing research in the field of epigenetics has resulted in the resolutory role of various epigenetic markers and their inhibition using specific inhibitors to arrest their key cellular functions in in-vitro and pre-clinical studies. Although, the mechanism of epigenetics in cancer largely remains unexplored. Nevertheless, various advancements in the field of epigenetics have been made through transcriptome analysis and in-vitro genome targeting technologies to unravel the applicability of epigenetic markers for future cancer therapeutics and management. Therefore, this review emphasizes on recent advances in epigenetic landscapes that could be targeted/explored using novel approaches as personalized treatment modalities for cancer containment.
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- 2022
48. CRISPR/Cas mediated epigenome editing for cancer therapy
- Author
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Deepak Chitkara, Animesh Chaturvedi, Saurabh Singh, and Imran Ansari
- Subjects
Epigenomics ,0301 basic medicine ,Cancer Research ,Computational biology ,Biology ,medicine.disease_cause ,Epigenesis, Genetic ,Epigenome ,03 medical and health sciences ,0302 clinical medicine ,Genome editing ,Neoplasms ,Epigenome editing ,medicine ,Humans ,CRISPR ,Epigenetics ,Cancer epigenetics ,Gene Editing ,DNA Methylation ,030104 developmental biology ,030220 oncology & carcinogenesis ,DNA methylation ,Histone deacetylase ,CRISPR-Cas Systems ,Carcinogenesis - Abstract
The understanding of the relationship between epigenetic alterations, their effects on gene expression and the knowledge that these epigenetic alterations are reversible, have opened up new therapeutic pathways for treating various diseases, including cancer. This has led the research for a better understanding of the mechanism and pathways of carcinogenesis and provided the opportunity to develop the therapeutic approaches by targeting such pathways. Epi-drugs, DNA methyl transferase (DNMT) inhibitors and histone deacetylase (HDAC) inhibitors are the best examples of epigenetic therapies with clinical applicability. Moreover, precise genome editing technologies such as CRISPR/Cas has proven their efficacy in epigenome editing, including the alteration of epigenetic markers, such as DNA methylation or histone modification. The main disadvantage with DNA gene editing technologies is off-target DNA sequence alteration, which is not an issue with epigenetic editing. It is known that cancer is linked with epigenetic alteration, and thus CRISPR/Cas system shows potential for cancer therapy via epigenome editing. This review outlines the epigenetic therapeutic approach for cancer therapy using CRISPR/Cas, from the basic understanding of cancer epigenetics to potential applications of CRISPR/Cas in treating cancer.
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- 2022
49. miRNAs as cornerstones in colorectal cancer pathogenesis and resistance to therapy: A spotlight on signaling pathways interplay — A review
- Author
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Mahmoud A, Elrebehy, Sarah, Al-Saeed, Sara, Gamal, Asmaa, El-Sayed, Alshaimaa A, Ahmed, Omnia, Waheed, Ahmed, Ismail, Hesham A, El-Mahdy, Al-Aliaa M, Sallam, and Ahmed S, Doghish
- Subjects
Gene Expression Regulation, Neoplastic ,MicroRNAs ,Carcinogenesis ,Structural Biology ,Humans ,General Medicine ,Colorectal Neoplasms ,Wnt Signaling Pathway ,Molecular Biology ,Biochemistry - Abstract
Colorectal cancer (CRC) is the world's third most prevalent cancer and the main cause of cancer-related mortality. A lot of work has been put into improving CRC patients' clinical care, including the development of more effective methods and wide biomarkers variety for prognostic, and diagnostic purposes. MicroRNAs (miRNAs) regulate a variety of cellular processes and play a significant role in the CRC progression and spread via controlling their target gene expression by translation inhibition or mRNA degradation. Consequently, dysregulation and disruption in their function, miRNAs are linked to CRC malignant pathogenesis by controlling several cellular processes involved in the CRC. These cellular processes include increased proliferative and invasive capacity, cell cycle aberration, evasion of apoptosis, enhanced EMT, promotion of angiogenesis and metastasis, and decreased sensitivity to major treatments. The miRNAs control cellular processes in CRC via regulation of pathways such as Wnt/β-catenin signaling, PTEN/AKT/mTOR axis, KRAS, TGFb signaling, VEGFR, EGFR, and P53. Hence, the goal of this review was to review miRNA biogenesis and present an updated summary of oncogenic and tumor suppressor (TS) miRNAs and their potential implication in CRC pathogenesis and responses to chemotherapy and radiotherapy. We also summarise the biological importance and clinical applications of miRNAs in the CRC.
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- 2022
50. Epithelial and fibroblast SPARC expression patterns in oral leukoplakia and oral squamous cell carcinoma
- Author
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Sirima Sanguansin, Theerachai Kosanwat, Sopee Poomsawat, and Ounruean Meesakul
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Normal oral mucosa ,medicine.disease_cause ,Pathology and Forensic Medicine ,medicine ,Humans ,Osteonectin ,Radiology, Nuclear Medicine and imaging ,Dentistry (miscellaneous) ,Basal cell ,Fibroblast ,Squamous Cell Carcinoma of Head and Neck ,business.industry ,Mouth Mucosa ,Late stage ,Fibroblasts ,medicine.disease ,Oral leukoplakia ,stomatognathic diseases ,medicine.anatomical_structure ,Dysplasia ,Cancer research ,Immunohistochemistry ,Mouth Neoplasms ,Surgery ,Leukoplakia, Oral ,Oral Surgery ,Carcinogenesis ,business - Abstract
This study evaluated and compared the expression of secreted protein acidic and rich in cysteine (SPARC) in epithelial cells and fibroblasts of oral leukoplakia (OL) and oral squamous cell carcinoma (OSCC) using normal oral mucosa as a control.The expression of SPARC was determined in samples of normal oral mucosa (n = 12), OL without dysplasia (n = 31), OL with dysplasia (n = 54), and OSCC (n = 69) using immunohistochemistry. The percentage of positive cells in epithelial cells and fibroblasts was independently evaluated.Epithelial SPARC was found in 33.3%, 35.5%, 25.9%, and 66.7% of normal oral mucosa, OL without dysplasia, OL with dysplasia, and OSCC, respectively. Fibroblast SPARC was found in 50.0%, 29.0%, 46.3%, and 84.1% of normal oral mucosa, OL without dysplasia, OL with dysplasia, and OSCC, respectively. OSCC had higher epithelial and fibroblast SPARC expression than normal oral mucosa, OL without dysplasia, and OL with dysplasia (P.05). No significant differences were observed in epithelial and fibroblast SPARC among normal oral mucosa or OL with and without dysplasia.Overexpression of epithelial and fibroblast SPARC was observed in OSCC but not in OL, suggesting that SPARC is involved in the late stage of oral carcinogenesis.
- Published
- 2022
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