微小RNA-374家族是慢性原发性疼痛发作的关键调节因子。
miR-374 family is a key regulator of chronic primary pain onset.
作者信息
Hernandez Nathaniel P, Rawls Ashleigh, Chen Jiegen, Zhang Xin, Wang Yaomin, Gao Xianglong, Parisien Marc, Karaky Mohamad, Meloto Carolina Beraldo, Montagna Francesca, Dang Hong, Pan Yue, Zhao Ying, McLean Samuel, Linnstaedt Sarah, Diatchenko Luda, Nackley Andrea G
机构信息
Department of Pharmacology and Cancer Biology, Duke University, Durham, NC, USA.
Department of Anesthesiology, Center for Translational Pain Medicine, Duke University School of Medicine, Durham, NC, USA.
出版信息
Pain Rep. 2024 Oct 16;9(6):e1199. doi: 10.1097/PR9.0000000000001199. eCollection 2024 Dec.
INTRODUCTION
Chronic primary pain conditions (CPPCs) are linked to catecholamine activation of peripheral adrenergic receptors. Yet, catecholamine-dependent epigenetic mechanisms, such as microRNA (miRNA) regulation of mRNA transcripts, remain largely unknown.
OBJECTIVES
We sought to identify RNA species correlated with case status in 3 pain cohorts, to validate RNAs found to be dysregulated in a mouse model of CPPC onset, and to directly test the role of adrenergic receptors in miRNA regulation. Furthermore, we tested antinociceptive effects of miR-374 overexpression.
METHODS
We used RNA-seq and quantitative reverse transcription polymerase chain reaction to measure RNA expression in 3 pain cohorts. Next, we validated identified RNAs with quantitative reverse transcription polymerase chain reaction in a mouse model of CPPC onset, measuring expression in plasma, peripheral (adipose, muscle, dorsal root ganglia [DRG]), and central (spinal cord) tissues. Then, we stimulated adrenergic receptors in primary adipocyte and DRG cultures to directly test regulation of microRNAs by adrenergic signaling. Furthermore, we used in vitro calcium imaging to measure the antinociceptive effects of miR-374 overexpression.
RESULTS
We found that one miRNA family, miR-374, was downregulated in the plasma of individuals with temporomandibular disorder, fibromyalgia syndrome, or widespread pain following a motor vehicle collision. miR-374 was also downregulated in plasma, white adipose tissue, and spinal cord from mice with multisite mechanical sensitivity. miR-374 downregulation in plasma and spinal cord was female specific. Norepinephrine stimulation of primary adipocytes, but not DRG, led to decreased miR-374 expression. Furthermore, we identified tissue-specific and sex-specific changes in the expression of predicted miR-374 mRNA targets, including known (HIF1A, NUMB, TGFBR2) and new (ATXN7, CRK-II) pain targets. Finally, we demonstrated that miR-374 overexpression in DRG neurons reduced capsaicin-induced nociceptor activity.
CONCLUSIONS
Downregulation of miR-374 occurs between adrenergic receptor activation and mechanical hypersensitivity, and its adipocyte source implicates adipose signaling in nociception. Further study of miR-374 may inform therapeutic strategies for the millions worldwide who experience CPPCs.
引言
慢性原发性疼痛病症(CPPCs)与外周肾上腺素能受体的儿茶酚胺激活有关。然而,儿茶酚胺依赖性表观遗传机制,如微小RNA(miRNA)对mRNA转录本的调控,在很大程度上仍不清楚。
目的
我们试图在3个疼痛队列中鉴定与病例状态相关的RNA种类,验证在CPPC发病小鼠模型中发现的失调RNA,并直接测试肾上腺素能受体在miRNA调控中的作用。此外,我们测试了miR-374过表达的镇痛效果。
方法
我们使用RNA测序和定量逆转录聚合酶链反应来测量3个疼痛队列中的RNA表达。接下来,我们在CPPC发病小鼠模型中用定量逆转录聚合酶链反应验证鉴定出的RNA,测量血浆、外周(脂肪、肌肉、背根神经节[DRG])和中枢(脊髓)组织中的表达。然后,我们在原代脂肪细胞和DRG培养物中刺激肾上腺素能受体,以直接测试肾上腺素能信号对微小RNA的调控。此外,我们使用体外钙成像来测量miR-374过表达的镇痛效果。
结果
我们发现一个miRNA家族,即miR-374,在患有颞下颌关节紊乱症、纤维肌痛综合征或机动车碰撞后广泛性疼痛的个体血浆中表达下调。miR-374在具有多部位机械敏感性的小鼠的血浆、白色脂肪组织和脊髓中也下调。血浆和脊髓中miR-374的下调具有女性特异性。去甲肾上腺素刺激原代脂肪细胞而非DRG会导致miR-374表达降低。此外,我们鉴定了预测的miR-374 mRNA靶标的表达在组织特异性和性别特异性方面的变化,包括已知的(HIF1A、NUMB、TGFBR2)和新的(ATXN7、CRK-II)疼痛靶标。最后,我们证明DRG神经元中miR-374的过表达降低了辣椒素诱导的伤害感受器活性。
结论
miR-374的下调发生在肾上腺素能受体激活和机械性超敏反应之间,其脂肪细胞来源表明脂肪信号传导与伤害感受有关。对miR-374的进一步研究可能为全球数百万患有CPPCs的人提供治疗策略。
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