星形胶质细胞通过 NMDA 受体以物种和供体特异性方式调控神经元网络爆发频率

Noora Räsänen , Jari Tiihonen , Marja Koskuvi , Šárka Lehtonen , Nelli Jalkanen , Nelli Karmila , Isabelle Weert , Olli Vaurio , Ilkka Ojansuu , Markku Lähteenvuo , Olli Pietiläinen , Jari Koistinaho
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引用次数: 0

摘要

背景突触活动的发展是神经元的一个关键特征,主要依赖于神经元和星形胶质细胞之间的相互作用。虽然星形胶质细胞在调节突触功能和功能失常方面的作用众所周知,但在疾病模型中使用人类或供体特异性星形胶质细胞的情况仍然很少见。我们建立了人类诱导多能干细胞衍生的神经元-星形胶质细胞共培养物,并在微电极阵列上研究了它们的功能发展。我们使用了来自 5 个神经畸形对照组和 3 对精神分裂症单卵双生子的细胞系。神经元分化采用了NGN2过表达和SMAD双重抑制相结合的方法。结果我们发现,人类诱导多能干细胞衍生的共培养物产生的复杂网络爆发活动与神经元与大鼠星形胶质细胞共培养物相似。然而,NMDA受体对神经元网络猝发频率(NBF)的影响在含有人类或大鼠星形胶质细胞的共培养物中有所不同。通过使用来自精神分裂症患者和未受影响个体的共培养物,我们发现受影响细胞的 NBF 降低了。结论我们的研究结果表明,星形胶质细胞通过一种涉及 NMDA 受体的机制参与了神经元 NBF 的调节。这些发现揭示了在疾病建模中使用人类和供体特异性星形胶质细胞的重要性。
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Astrocytes Regulate Neuronal Network Burst Frequency Through NMDA Receptors in a Species- and Donor-Specific Manner

Background

Development of synaptic activity is a key neuronal characteristic that relies largely on interactions between neurons and astrocytes. Although astrocytes have known roles in regulating synaptic function and malfunction, the use of human- or donor-specific astrocytes in disease models is still rare. Rodent astrocytes are routinely used to enhance neuronal activity in cell cultures, but less is known about how human astrocytes influence neuronal activity.

Methods

We established human induced pluripotent stem cell–derived neuron-astrocyte cocultures and studied their functional development on microelectrode array. We used cell lines from 5 neurotypical control individuals and 3 pairs of monozygotic twins discordant for schizophrenia. A method combining NGN2 overexpression and dual SMAD inhibition was used for neuronal differentiation. The neurons were cocultured with human induced pluripotent stem cell–derived astrocytes differentiated from 6-month-old astrospheres or rat astrocytes.

Results

We found that the human induced pluripotent stem cell–derived cocultures developed complex network bursting activity similar to neuronal cocultures with rat astrocytes. However, the effect of NMDA receptors on neuronal network burst frequency (NBF) differed between cocultures containing human or rat astrocytes. By using cocultures derived from patients with schizophrenia and unaffected individuals, we found lowered NBF in the affected cells. We continued by demonstrating how astrocytes from an unaffected individual rescued the lowered NBF in the affected neurons by increasing NMDA receptor activity.

Conclusions

Our results indicate that astrocytes participate in the regulation of neuronal NBF through a mechanism that involves NMDA receptors. These findings shed light on the importance of using human and donor-specific astrocytes in disease modeling.

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Biological psychiatry global open science
Biological psychiatry global open science Psychiatry and Mental Health
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