The Promising Epigenetic Regulators for Refractory Epilepsy: An Adventurous Road Ahead.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-06-01 DOI:10.1007/s12017-022-08723-0
Vemparthan Suvekbala, Haribaskar Ramachandran, Alaguraj Veluchamy, Mariano A Bruno Mascarenhas, Tharmarajan Ramprasath, M K C Nair, Venkata Naga Srikanth Garikipati, Rohit Gundamaraju, Ramasamy Subbiah
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Abstract

The attribution of seizure freedom is yet to be achieved for patients suffering from refractory epilepsy, e.g. Dravet Syndrome (DS). The confined ability of mono-chemical entity-based antiseizure drugs (ASDs) to act directly at genomic level is one of the factors, combined with undetermined seizure triggers lead to recurrent seizure (RS) in DS, abominably affecting the sub-genomic architecture of neural cells. Thus, the RS and ASD appear to be responsible for the spectrum of exorbitant clinical pathology. The RS distresses the 5-HT-serotonin pathway, hypomethylates genes of CNS, and modulates the microRNA (miRNA)/long non-coding RNA (lncRNA), eventually leading to frozen molecular alterations. These changes shall be reverted by compatible epigenetic regulators (EGR) like, miRNA and lncRNA from Breast milk (BML) and Bacopa monnieri (BMI). The absence of studious seizure in SCN1A mutation-positive babies for the first 6 months raises the possibility that the consequences of mutation in SCN1A are subsidized by EGRs from BML. EGR-dependent-modifier gene effect is likely imposed by the other members of the SCN family. Therefore, we advocate that miRNA/lncRNA from BML and bacosides/miRNA from BMI buffer the effect of SCN1A mutation by sustainably maintaining modifier gene effect in the aberrant neurons. The presence of miRNA-155-5p, -30b-5p, and -30c-5p family in BML and miR857, miR168, miR156, and miR158 in BMI target at regulating SCN family and CLCN5 as visualized by Cystoscope. Thus, we envisage that the possible effects of EGR might include (a) upregulating the haploinsufficient SCN1A strand, (b) down-regulating seizure-elevated miRNA, (c) suppressing the seizure-induced methyltransferases, and (d) enhancing the GluN2A subunit of NMDA receptor to improve cognition. The potential of these EGRs from BML and BML is to further experimentally strengthen, long-haul step forward in molecular therapeutics.

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难治性癫痫的表观遗传调控:一条冒险的道路。
对于难治性癫痫患者,如Dravet综合征(DS),癫痫发作自由的归属尚未实现。基于单一化学实体的抗癫痫药物(ASDs)在基因组水平上直接起作用的能力有限,加上不确定的癫痫发作触发因素,导致DS患者复发性癫痫发作(RS),严重影响神经细胞的亚基因组结构。因此,RS和ASD似乎是导致一系列过高的临床病理的原因。RS干扰5- ht - 5-羟色胺通路,使中枢神经系统基因低甲基化,并调节microRNA (miRNA)/长链非编码RNA (lncRNA),最终导致冷冻分子改变。这些变化可以通过兼容的表观遗传调节因子(EGR),如来自母乳(BML)和假马尾草(BMI)的miRNA和lncRNA来恢复。SCN1A突变阳性婴儿在前6个月没有明显的癫痫发作,这提高了SCN1A突变的后果由BML的egr补贴的可能性。egr依赖性修饰基因效应可能是由SCN家族的其他成员施加的。因此,我们主张来自BML的miRNA/lncRNA和来自BMI的马尾草苷/miRNA通过持续维持异常神经元中修饰基因的作用来缓冲SCN1A突变的影响。膀胱镜显示,在BML中存在miRNA-155-5p、-30b-5p和-30c-5p家族,在BMI中存在miR857、miR168、miR156和miR158,其目标是调节SCN家族和CLCN5。因此,我们设想EGR可能的作用包括(a)上调单倍体不足的SCN1A链,(b)下调癫痫发作时升高的miRNA, (c)抑制癫痫发作诱导的甲基转移酶,以及(d)增强NMDA受体GluN2A亚基以改善认知。这些来自BML和BML的egr的潜力是在实验上进一步加强分子治疗的长期进展。
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4.30%
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