In silico analysis of gene expression in V3a and the superior occipital gyrus: Relevance for migraine

Q3 Medicine
Marco Lisicki, M. Carpinella, G. Coppola, Tatiana Castro Zamparella, Emiliano Ruiz-Romagnoli, M. Manise, A. M. de Noordhout, J. Schoenen, Diego Conci Magris
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Abstract

Introduction: Visual manifestations are the most prominent non-painful features of migraine. During the last decades, visual area V3a has gathered attention of headache scientists because of its apparent implication on aura initiation, photophobia and cortical hyper-responsiveness related to visual motion perception. In this hypothesis-generating study, we performed an in silico analysis of gene expression in left V3a and the cerebral gyrus that harbours it (left superior occipital gyrus (lSOG)) searching for transcriptomic patterns that could be linked with migraine’s pathophysiology. Materials and methods: Neurotransmitter receptor gene expression levels in left V3a were extracted from validated brain mRNA expression models using a probabilistic volumetric mask of this region. The primary visual cortex and other sensory cortices (auditory, olfactory and somatosensory) were used as comparators. Genome-wide transcriptomic differences between the gyrus harbouring left V3a (lSOG) and the rest of the cerebral cortex were assessed using the Allen Brain Institute Human RNA micro array atlas/database. Results: Adrenergic receptor β1, dopaminergic receptor D3 and serotoninergic receptors 1B, 1F and 2A, which have been previously implicated in migraine’s pathophysiology and/or treatment, showed significantly higher expression levels on left V3a. Transcriptomic differences between the lSOG harbouring V3a and the rest of the cortex comprise genes whose products are involved in neuronal excitability (SLC17A6, KCNS1, KCNG1 and GABRQ), activation of multiple signal transduction pathways (MET) and cell metabolism (SPHKAP via its interaction with cAMP-dependent protein kinase). Conclusions: Focal gene expression analysis of V3a suggests some clues about its implication in migraine. Further studies are warranted.
V3a和枕上回基因表达的计算机分析:与偏头痛的相关性
引言:视觉表现是偏头痛最突出的非疼痛特征。在过去的几十年里,视觉区域V3a引起了头痛科学家的注意,因为它对与视觉运动感知相关的先兆启动、畏光和皮层超反应有明显的影响。在这项产生假设的研究中,我们对左V3a和携带它的大脑回(左枕上回(lSOG))的基因表达进行了计算机分析,以寻找可能与偏头痛病理生理学有关的转录组模式。材料和方法:使用该区域的概率体积掩模从经验证的脑信使核糖核酸表达模型中提取左V3a的神经递质受体基因表达水平。初级视觉皮层和其他感觉皮层(听觉、嗅觉和体感)被用作比较。使用艾伦大脑研究所人类RNA微阵列图谱/数据库评估了携带左V3a(lSOG)的回与大脑皮层其他部分之间的全基因组转录组差异。结果:肾上腺素能受体β1、多巴胺能受体D3和血清素能受体1B、1F和2A先前与偏头痛的病理生理学和/或治疗有关,它们在左V3a上显示出显著更高的表达水平。携带V3a的lSOG与皮层其他部分之间的转录组学差异包括其产物涉及神经元兴奋性(SLC17A6、KCNS1、KCNG1和GABRQ)、多种信号转导途径(MET)的激活和细胞代谢(SPHKAP通过其与cAMP依赖性蛋白激酶的相互作用)的基因。结论:V3a的局灶性基因表达分析为其在偏头痛中的意义提供了一些线索。需要进一步研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Cephalalgia Reports
Cephalalgia Reports Medicine-Neurology (clinical)
CiteScore
2.50
自引率
0.00%
发文量
17
审稿时长
9 weeks
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