Yoon Hyesook, Radulovic Maja, Drucker Kristen L, Wu Jianmin, Scarisbrick Isobel A
Department of Physical Medicine and Rehabilitation, Mayo Clinic, Rochester, Minnesota; Rehabilitation Medicine Research Center, Mayo Clinic, Rochester, Minnesota.
Glia. 2015 May;63(5):846-59. doi: 10.1002/glia.22788. Epub 2015 Jan 27.
Hemorrhagic white matter injuries in the perinatal period are a growing cause of cerebral palsy yet no neuroprotective strategies exist to prevent the devastating motor and cognitive deficits that ensue. We demonstrate that the thrombin receptor (protease-activated receptor 1, PAR1) exhibits peak expression levels in the spinal cord at term and is a critical regulator of the myelination continuum from initiation to the final levels achieved. Specifically, PAR1 gene deletion resulted in earlier onset of spinal cord myelination, including substantially more Olig2-positive oligodendrocytes, more myelinated axons, and higher proteolipid protein (PLP) levels at birth. In vitro, the highest levels of PAR1 were observed in oligodendrocyte progenitor cells (OPCs), being reduced with differentiation. In parallel, the expression of PLP and myelin basic protein (MBP), in addition to Olig2, were all significantly higher in cultures of PAR1-/- oligodendroglia. Moreover, application of a small molecule inhibitor of PAR1 (SCH79797) to OPCs in vitro increased PLP and MBP expression. Enhancements in myelination associated with PAR1 genetic deletion were also observed in adulthood as evidenced by higher amounts of MBP and thickened myelin sheaths across large, medium, and small diameter axons. Enriched spinal cord myelination in PAR1-/- mice was coupled to increases in extracellular-signal-regulated kinase 1/2 and AKT signaling developmentally. Nocturnal ambulation and rearing activity were also elevated in PAR1-/- mice. These studies identify the thrombin receptor as a powerful extracellular regulatory switch that could be readily targeted to improve myelin production in the face of white matter injury and disease.
围生期出血性白质损伤是导致脑瘫的一个日益常见的原因,但目前尚无神经保护策略来预防随之而来的严重运动和认知缺陷。我们证明,凝血酶受体(蛋白酶激活受体1,PAR1)在足月时脊髓中表达水平达到峰值,并且是从起始到最终完成阶段的髓鞘形成连续过程的关键调节因子。具体而言,PAR1基因缺失导致脊髓髓鞘形成提前开始,包括出生时Olig2阳性少突胶质细胞数量显著增多、有髓轴突更多以及蛋白脂蛋白(PLP)水平更高。在体外,少突胶质前体细胞(OPC)中PAR1水平最高,随着分化而降低。同时,PAR1基因敲除的少突胶质细胞培养物中,除了Olig2之外,PLP和髓鞘碱性蛋白(MBP)的表达也均显著更高。此外,在体外将PAR1的小分子抑制剂(SCH79797)应用于OPC可增加PLP和MBP的表达。成年期也观察到与PAR1基因缺失相关的髓鞘形成增强,表现为大、中、小直径轴突上MBP含量更高且髓鞘增厚。PAR1基因敲除小鼠脊髓髓鞘形成丰富与细胞外信号调节激酶1/2和AKT信号在发育过程中的增加相关。PAR1基因敲除小鼠的夜间行走和竖毛活动也有所增加。这些研究确定凝血酶受体是一个强大的细胞外调节开关,面对白质损伤和疾病时,它可以很容易地成为改善髓鞘生成的靶点。