Department of Neuroscience, Psychology, Drug Research and Child Health (NEUROFARBA), Division of Pharmacology and Toxicology, University of Florence, Viale Pieraccini 6, 50139 Florence, Italy.
Neuropharmacology. 2013 Oct;73:301-10. doi: 10.1016/j.neuropharm.2013.05.035. Epub 2013 Jun 13.
Oligodendrocyte progenitor cells (OPCs) are a population of cycling cells which persist in the adult central nervous system (CNS) where, under opportune stimuli, they differentiate into mature myelinating oligodendrocytes. Adenosine A(2A) receptors are Gs-coupled P1 purinergic receptors which are widely distributed throughout the CNS. It has been demonstrated that OPCs express A(2A) receptors, but their functional role in these cells remains elusive. Oligodendrocytes express distinct voltage-gated ion channels depending on their maturation. Here, by electrophysiological recordings coupled with immunocytochemical labeling, we studied the effects of adenosine A(2A) receptors on membrane currents and differentiation of purified primary OPCs isolated from the rat cortex. We found that the selective A(2A) agonist, CGS21680, inhibits sustained, delayed rectifier, K(+) currents (I(K)) without modifying transient (I(A)) conductances. The effect was observed in all cells tested, independently from time in culture. CGS21680 inhibition of I(K) current was concentration-dependent (10-200 nM) and blocked in the presence of the selective A(2A) antagonist SCH58261 (100 nM). It is known that I(K) currents play an important role during OPC development since their block decreases cell proliferation and differentiation. In light of these data, our further aim was to investigate whether A(2A) receptors modulate these processes. CGS21680, applied at 100 nM in the culture medium of oligodendrocyte cultures, inhibits OPC differentiation (an effect prevented by SCH58261) without affecting cell proliferation. Data demonstrate that cultured OPCs express functional A(2A) receptors whose activation negatively modulate I(K) currents. We propose that, by this mechanism, A(2A) adenosine receptors inhibit OPC differentiation.
少突胶质前体细胞(OPC)是一类存在于成年中枢神经系统(CNS)中的增殖细胞,在适当的刺激下,它们分化为成熟的髓鞘形成少突胶质细胞。腺苷 A(2A)受体是广泛分布于 CNS 的 Gs 偶联 P1 嘌呤能受体。已经证明 OPC 表达 A(2A)受体,但它们在这些细胞中的功能作用仍不清楚。少突胶质细胞根据其成熟程度表达不同的电压门控离子通道。在这里,我们通过与免疫细胞化学标记相结合的电生理记录,研究了腺苷 A(2A)受体对从大鼠皮层分离的纯化原代 OPC 膜电流和分化的影响。我们发现,选择性 A(2A)激动剂 CGS21680 抑制持续的、延迟整流、K(+)电流(I(K)),而不改变瞬时(I(A))电导率。该效应在所有测试的细胞中观察到,与培养时间无关。CGS21680 对 I(K)电流的抑制作用呈浓度依赖性(10-200 nM),并在选择性 A(2A)拮抗剂 SCH58261(100 nM)存在下被阻断。已知 I(K)电流在 OPC 发育过程中发挥重要作用,因为其阻断会降低细胞增殖和分化。鉴于这些数据,我们进一步的目的是研究 A(2A)受体是否调节这些过程。CGS21680 在少突胶质细胞培养物的培养基中以 100 nM 的浓度应用,抑制 OPC 分化(SCH58261 可防止这种作用),而不影响细胞增殖。数据表明,培养的 OPC 表达功能性 A(2A)受体,其激活负调节 I(K)电流。我们提出,通过这种机制,A(2A)腺苷受体抑制 OPC 分化。
