Lorenza Guarnieri, Nicola Amodio, Francesca Bosco, Sara Carpi, Martina Tallarico, Luca Gallelli, Vincenzo Rania, Rita Citraro, Antonio Leo, Giovambattista De Sarro
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引用次数: 0
摘要
颞叶癫痫(TLE)是最常见的难治性局灶性癫痫。确定能够对颞叶癫痫患者进行分类的创新临床生物标志物,从而改善治疗和预后,仍是一项尚未满足的需求。循环微RNA(c-miRNA)是可在体液中检测到的非编码短RNA,在基因表达调控中起着至关重要的作用。它们具有细胞外稳定性、可通过非侵入性方法检测、对病理变化和/或治疗干预反应灵敏等特点,因此在各种疾病中是很有前途的候选生物标记物。最近的研究对狼疮患者各种体液(包括血清、血浆和脑脊液)中的 c-miRNA 进行了调查。尽管在方法学、队列组成和归一化策略方面存在一些差异,但不同研究中出现了共同的 c-miRNA 失调特征,为把 c-miRNA 用作治疗 TLE 患者的新型生物标记物奠定了基础。
Circulating miRNAs as Novel Clinical Biomarkers in Temporal Lobe Epilepsy.
Temporal lobe epilepsy (TLE) represents the most common form of refractory focal epilepsy. The identification of innovative clinical biomarkers capable of categorizing patients with TLE, allowing for improved treatment and outcomes, still represents an unmet need. Circulating microRNAs (c-miRNAs) are short non-coding RNAs detectable in body fluids, which play crucial roles in the regulation of gene expression. Their characteristics, including extracellular stability, detectability through non-invasive methods, and responsiveness to pathological changes and/or therapeutic interventions, make them promising candidate biomarkers in various disease settings. Recent research has investigated c-miRNAs in various bodily fluids, including serum, plasma, and cerebrospinal fluid, of TLE patients. Despite some discrepancies in methodologies, cohort composition, and normalization strategies, a common dysregulated signature of c-miRNAs has emerged across different studies, providing the basis for using c-miRNAs as novel biomarkers for TLE patient management.
Non-Coding RNABiochemistry, Genetics and Molecular Biology-Genetics
CiteScore
6.70
自引率
4.70%
发文量
74
审稿时长
10 weeks
期刊介绍:
Functional studies dealing with identification, structure-function relationships or biological activity of: small regulatory RNAs (miRNAs, siRNAs and piRNAs) associated with the RNA interference pathway small nuclear RNAs, small nucleolar and tRNAs derived small RNAs other types of small RNAs, such as those associated with splice junctions and transcription start sites long non-coding RNAs, including antisense RNAs, long ''intergenic'' RNAs, intronic RNAs and ''enhancer'' RNAs other classes of RNAs such as vault RNAs, scaRNAs, circular RNAs, 7SL RNAs, telomeric and centromeric RNAs regulatory functions of mRNAs and UTR-derived RNAs catalytic and allosteric (riboswitch) RNAs viral, transposon and repeat-derived RNAs bacterial regulatory RNAs, including CRISPR RNAS Analysis of RNA processing, RNA binding proteins, RNA signaling and RNA interaction pathways: DICER AGO, PIWI and PIWI-like proteins other classes of RNA binding and RNA transport proteins RNA interactions with chromatin-modifying complexes RNA interactions with DNA and other RNAs the role of RNA in the formation and function of specialized subnuclear organelles and other aspects of cell biology intercellular and intergenerational RNA signaling RNA processing structure-function relationships in RNA complexes RNA analyses, informatics, tools and technologies: transcriptomic analyses and technologies development of tools and technologies for RNA biology and therapeutics Translational studies involving long and short non-coding RNAs: identification of biomarkers development of new therapies involving microRNAs and other ncRNAs clinical studies involving microRNAs and other ncRNAs.
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