肿瘤上皮向间质转化的结构、细胞和分子机制

Moniri Javadhesari, Vaezi Heris
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Complicated interactions between the external and internal factors result in the establishment of various regulatory networks between different types of carcinogenesis promoting factors. Identification of these modifications plays a critical role in understanding the mechanisms of disease progression, prognosis and management. Text: Various mutations and differential gene expression trigger metastasis of cancer cells by epithelial to mesenchymal transition (EMT) mechanism, among which the role of chromatin structural changes, intracellular signal transduction pathways, regulation of cell cycle and microRNAs, and genomic instability has been reported. The alterations in gene expression patterns of mentioned pathways lead to potential regulatory complications that faced the management of disease progression and response to therapies with problems. Cancer cells provide their requirements by neutralizing biological barriers, modifying the regulation of inhibiting processes of cancer progression, establishing de novo endogenous mechanisms and providing specialized molecular and structural markers, and various combinations of these methods have been demonstrated in different types of cancer. Furthermore, EMT and Structural, cellular and molecular mechanisms involved in the Epithelial-to-Mesenchymal Transition in Cancer Journal of Cell and Tissue 13(2) (2022) 71-94 cancer stem cells (CSCs) have a mutual relationship in which the presence of one assists the occurrence of the other. Altogether, cancer cells take the advantage of multiple approaches including upregulation of main transcription factors such as snail, slug, Foxc2, Twist and ZEB1/2, benefiting the mechanisms of telomere length protection, production of CD133,CD44 and BMI1 biomarkers, mutation in P53 coding gene, Failure in acquiring aging phenotype, mutation in amino acid residue S115 of SIM2S gene and increased genomic instability, enhanced activity of signaling pathways such as NF-κB, TGF-β, Wnt, Notch and Hh, mitotic rounding process, facilitated cell division, epigenetic changes such as acetylation and methylation of histones and dysregulation of miRNAs. Conclusion: EMT plays a crucial role in cancer progression, crossing the cells through the biological and body barriers, and metastasis that are usually associated with poor prognosis of cancer patients. 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Identification of these modifications plays a critical role in understanding the mechanisms of disease progression, prognosis and management. Text: Various mutations and differential gene expression trigger metastasis of cancer cells by epithelial to mesenchymal transition (EMT) mechanism, among which the role of chromatin structural changes, intracellular signal transduction pathways, regulation of cell cycle and microRNAs, and genomic instability has been reported. The alterations in gene expression patterns of mentioned pathways lead to potential regulatory complications that faced the management of disease progression and response to therapies with problems. 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引用次数: 0

摘要

上皮-间质转化,癌变,基因表达调控,肿瘤微环境。导言:癌症作为最常见的遗传性疾病之一,是世界范围内导致死亡的主要原因。癌细胞通过各种遗传和表型变化来扩散和生存。在早期阶段,这些变化导致肿瘤的发展,而在晚期阶段,它们可以提供一个合适的转移前微环境,在这个微环境中发生各种不受控制的事件,包括细胞增殖、穿过细胞外基质和跨越屏障进入血液。这种微环境的细胞外变化可以诱导原发性癌细胞的细胞内变化,从而帮助这些细胞的可持续性和繁殖。外部和内部因素之间复杂的相互作用导致不同类型的致癌促进因子之间建立了多种调控网络。鉴定这些修饰在理解疾病进展、预后和管理机制方面起着关键作用。文本:各种突变和差异基因表达通过上皮向间充质转化(epithelial to mesenchymal transition, EMT)机制触发癌细胞转移,其中染色质结构改变、细胞内信号转导途径、细胞周期和microrna调控以及基因组不稳定性等作用已被报道。上述途径的基因表达模式的改变导致潜在的调节并发症,这些并发症面临着疾病进展的管理和对治疗的反应存在问题。癌细胞通过中和生物屏障、修改肿瘤进展抑制过程的调控、建立新的内源性机制和提供专门的分子和结构标记来满足它们的需求,这些方法的各种组合已在不同类型的癌症中得到证实。此外,EMT和癌症上皮-间充质转化过程中涉及的结构、细胞和分子机制细胞与组织杂志13(2)(2022)71-94癌症干细胞(CSCs)具有相互关系,其中一个的存在有助于另一个的发生。总的来说,癌细胞通过上调snail、slug、Foxc2、Twist和ZEB1/2等主要转录因子,发挥端粒长度保护、CD133、CD44和BMI1生物标志物的产生、P53编码基因突变、衰老表型获取失败、SIM2S基因氨基酸残基S115突变和基因组不稳定性增加、NF-κB、TGF-β、Wnt等信号通路活性增强等多种机制。Notch和Hh,有丝分裂圆切过程,促进细胞分裂、表观遗传变化,如组蛋白的乙酰化和甲基化以及mirna的失调。结论:EMT在肿瘤进展、细胞跨越生物和机体屏障、转移等过程中起着至关重要的作用,而转移往往与癌症患者预后不良有关。细胞发育主要通路的分子和细胞变化被认为是EMT的促进因素,是由于EMT中基因与正常表型细胞的差异表达所致。这些变化及其在癌症进展中的作用的探索进展可以显著影响疾病的早期诊断、治疗和管理。目的:本文从信号转导途径、染色质和端粒的结构变化、mirna等小分子非编码rna的上调/下调、细胞周期调节和基因组不稳定性等方面对EMT进展和癌症的分子和细胞机制进行了研究。هرود،تفابولولس13هرامش،2،لاس1401تاحفص،71ات94
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structural, cellular and molecular mechanisms involved in the Epithelial-to-Mesenchymal Transition in Cancer
Epithelial-Mesenchymal Transition, Carcinogenesis, Gene Expression Regulation, Tumor Microenvironment. Intoduction: Cancer as one of the most common genetic diseases is the leading cause of death worldwide. Cancer cells undergo various genetic and phenotypic changes to spread and survive. In the early stages, these changes lead to the development of tumor, while at the advanced stages they can provide a suitable pre-metastatic microenvironment in which various uncontrolled events occur including cell proliferation, traversing through the extracellular matrix, and crossing barriers to enter the bloodstream. Extracellular changes in this microenvironment can induce intracellular changes in primary cancer cells that assist in the sustainability and propagation of these cells. Complicated interactions between the external and internal factors result in the establishment of various regulatory networks between different types of carcinogenesis promoting factors. Identification of these modifications plays a critical role in understanding the mechanisms of disease progression, prognosis and management. Text: Various mutations and differential gene expression trigger metastasis of cancer cells by epithelial to mesenchymal transition (EMT) mechanism, among which the role of chromatin structural changes, intracellular signal transduction pathways, regulation of cell cycle and microRNAs, and genomic instability has been reported. The alterations in gene expression patterns of mentioned pathways lead to potential regulatory complications that faced the management of disease progression and response to therapies with problems. Cancer cells provide their requirements by neutralizing biological barriers, modifying the regulation of inhibiting processes of cancer progression, establishing de novo endogenous mechanisms and providing specialized molecular and structural markers, and various combinations of these methods have been demonstrated in different types of cancer. Furthermore, EMT and Structural, cellular and molecular mechanisms involved in the Epithelial-to-Mesenchymal Transition in Cancer Journal of Cell and Tissue 13(2) (2022) 71-94 cancer stem cells (CSCs) have a mutual relationship in which the presence of one assists the occurrence of the other. Altogether, cancer cells take the advantage of multiple approaches including upregulation of main transcription factors such as snail, slug, Foxc2, Twist and ZEB1/2, benefiting the mechanisms of telomere length protection, production of CD133,CD44 and BMI1 biomarkers, mutation in P53 coding gene, Failure in acquiring aging phenotype, mutation in amino acid residue S115 of SIM2S gene and increased genomic instability, enhanced activity of signaling pathways such as NF-κB, TGF-β, Wnt, Notch and Hh, mitotic rounding process, facilitated cell division, epigenetic changes such as acetylation and methylation of histones and dysregulation of miRNAs. Conclusion: EMT plays a crucial role in cancer progression, crossing the cells through the biological and body barriers, and metastasis that are usually associated with poor prognosis of cancer patients. Molecular and cellular changes in the main pathways of cells , development are considered as the promoting factors of EMT and resulted from the differential expression of genes in EMT compared to the normal phenotype of cells. Advancement in the exploration of these changes and their role in the progression of cancer can remarkably affect the early diagnosis, treatment and management of disease. Aim: In this review, various molecular and cellular mechanisms involved in EMT progression and cancer have been investigated, including signal transduction pathways, structural changes of chromatin and telomeres, up/down-regulation of small non-coding RNAs such as miRNAs, cell cycle regulation and genomic instability. هرود ،تفاب و لولس 13 هرامش ، 2 ، لاس 1401 تاحفص ، 71 ات 94
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