小RNA
生物
基因沉默
表观遗传学
基因表达调控
细胞生物学
功能(生物学)
癌症
计算生物学
遗传学
基因
作者
Dipta Sengupta,Moonmoon Deb,Swayamsiddha Kar,Nibedita Pradhan,Sabnam Parbin,R. Kirtana,Suraj Pal Singh,Sakurako Suma,Niharika Niharika,Ankan Roy,Saumen Manna,Priyanka Saha,Priyanka Chakraborty,Soumya Dash,Chahat Kausar,Samir Kumar Patra
标识
DOI:10.1016/j.semcancer.2020.05.017
摘要
MicroRNAs (miRNAs) are key epigenomic regulators of biological processes in animals and plants. These small non coding RNAs form a complex networks that regulate cellular function and development. MiRNAs prevent translation by either inactivation or inducing degradation of mRNA, a major concern in post-transcriptional gene regulation. Aberrant regulation of gene expression by miRNAs is frequently observed in cancer. Overexpression of various 'oncomiRs' and silencing of tumor suppressor miRNAs are associated with various types of human cancers, although overall downregulation of miRNA expression is reported as a hallmark of cancer. Modulations of the total pool of cellular miRNA by alteration in genetic and epigenetic factors associated with the biogenesis of miRNA machinery. It also depends on the availability of cellular miRNAs from its store in the organelles which affect tumor development and cancer progression. Here, we have dissected the roles and pathways of various miRNAs during normal cellular and molecular functions as well as during breast cancer progression. Recent research works and prevailing views implicate that there are two major types of miRNAs; (i) intracellular miRNAs and (ii) extracellular miRNAs. Concept, that the functions of intracellular miRNAs are driven by cellular organelles in mammalian cells. Extracellular miRNAs function in cell-cell communication in extracellular spaces and distance cells through circulation. A detailed understanding of organelle driven miRNA function and the precise role of extracellular miRNAs, pre- and post-therapeutic implications of miRNAs in this scenario would open several avenues for further understanding of miRNA function and can be better exploited for the treatment of breast cancers.
科研通智能强力驱动
Strongly Powered by AbleSci AI