Cortex and Epilepsie, Institut National de la Santé et de la Recherche Médicale U1127, Centre National de la Recherche Scientifique Unité Mixte de Recherche 7225, Université Pierre et Marie Curie, Université Paris 6, Institut du Cerveau et de la Moelle épinière, Paris 75013, France,
Neuroglial Interactions in Cerebral Physiopathology, Center for Interdisciplinary Research in Biology, Collège de France, Centre National de la Recherche Unité Mixte de Recherche 7241, Institut National de la Santé et de la Recherche Médicale U1050, Labex Memolife, PSL Research University, Paris 75005, France.
J Neurosci. 2020 Feb 12;40(7):1373-1388. doi: 10.1523/JNEUROSCI.0218-19.2019. Epub 2020 Jan 2.
Microglia exhibit multiple, phenotype-dependent motility patterns often triggered by purinergic stimuli. However, little data exist on motility of human microglia in pathological situations. Here we examine motility of microglia stained with a fluorescent lectin in tissue slices from female and male epileptic patients diagnosed with mesial temporal lobe epilepsy or cortical glioma (peritumoral cortex). Microglial shape varied from ramified to amoeboid cells predominantly in regions of high neuronal loss or closer to a tumor. Live imaging revealed unstimulated or purine-induced microglial motilities, including surveillance movements, membrane ruffling, and process extension or retraction. At different concentrations, ADP triggered opposing motilities. Low doses triggered process extension. It was suppressed by P2Y12 receptor antagonists, which also reduced process length and surveillance movements. Higher purine doses caused process retraction and membrane ruffling, which were blocked by joint application of P2Y1 and P2Y13 receptor antagonists. Purinergic effects on motility were similar for all microglia tested. Both amoeboid and ramified cells from mesial temporal lobe epilepsy or peritumoral cortex tissue expressed P2Y12 receptors. A minority of microglia expressed the adenosine A2A receptor, which has been linked with process withdrawal of rodent cells. Laser-mediated tissue damage let us test the functional significance of these effects. Moderate damage induced microglial process extension, which was blocked by P2Y12 receptor antagonists. Overall, the purine-induced motility of human microglia in epileptic tissue is similar to that of rodent microglia in that the P2Y12 receptor initiates process extension. It differs in that retraction is triggered by joint activation of P2Y1/P2Y13 receptors. Microglial cells are brain-resident immune cells with multiple functions in healthy or diseased brains. These diverse functions are associated with distinct phenotypes, including different microglial shapes. In the rodent, purinergic signaling is associated with changes in cell shape, such as process extension toward tissue damage. However, there are little data on living human microglia, especially in diseased states. We developed a reliable technique to stain microglia from epileptic and glioma patients to examine responses to purines. Low-intensity purinergic stimuli induced process extension, as in rodents. In contrast, high-intensity stimuli triggered a process withdrawal mediated by both P2Y1 and P2Y13 receptors. P2Y1/P2Y13 receptor activation has not previously been linked to microglial morphological changes.
小胶质细胞表现出多种表型依赖性运动模式,这些模式通常由嘌呤能刺激引发。然而,在病理情况下,人类小胶质细胞的运动情况的数据很少。在这里,我们研究了在女性和男性癫痫患者的组织切片中用荧光凝集素染色的小胶质细胞的运动,这些患者被诊断为内侧颞叶癫痫或皮质胶质瘤(肿瘤周围皮质)。小胶质细胞的形状从有分支的到阿米巴样细胞不等,主要存在于神经元丢失较多的区域或靠近肿瘤的区域。实时成像显示,未受刺激或嘌呤能诱导的小胶质细胞运动,包括监视运动、细胞膜皱襞、突起延伸或回缩。在不同浓度下,ADP 触发相反的运动。低剂量触发突起延伸。它被 P2Y12 受体拮抗剂抑制,这也降低了突起长度和监视运动。较高的嘌呤剂量导致突起回缩和细胞膜皱襞,这可以被 P2Y1 和 P2Y13 受体拮抗剂联合应用阻断。嘌呤能对运动的影响在所有测试的小胶质细胞中都是相似的。来自内侧颞叶癫痫或肿瘤周围皮质组织的阿米巴样和有分支的细胞都表达 P2Y12 受体。少数小胶质细胞表达腺苷 A2A 受体,该受体与啮齿动物细胞的突起撤回有关。激光介导的组织损伤使我们能够测试这些效应的功能意义。适度的损伤诱导小胶质细胞突起延伸,这被 P2Y12 受体拮抗剂阻断。总的来说,癫痫组织中小胶质细胞的嘌呤诱导运动与啮齿动物小胶质细胞的运动相似,即 P2Y12 受体启动突起延伸。不同之处在于,回缩是由 P2Y1/P2Y13 受体的联合激活触发的。小胶质细胞是大脑驻留的免疫细胞,在健康或患病的大脑中具有多种功能。这些不同的功能与不同的表型有关,包括不同的小胶质细胞形状。在啮齿动物中,嘌呤能信号与细胞形状的变化有关,例如朝向组织损伤的突起延伸。然而,关于活的人类小胶质细胞的数据很少,尤其是在患病状态下。我们开发了一种可靠的技术来染色来自癫痫和神经胶质瘤患者的小胶质细胞,以研究它们对嘌呤的反应。低强度嘌呤能刺激诱导突起延伸,如在啮齿动物中一样。相比之下,高强度刺激触发由 P2Y1 和 P2Y13 受体介导的突起撤回。P2Y1/P2Y13 受体的激活以前与小胶质细胞形态变化无关。