The dynamic equilibrium between glutamate- and GABA-mediated synaptic neurotransmission in the brain is fundamental to the control of nervous system function. Such a balance is regulated by the ‘tonic’ release of a variety of neurotransmitters and endogenous factors that influence synaptic function. One such important group of modulatory molecules are the neurosteroids (NSs) which, similarly to benzodiazepines (BDZs), enhance GABAergic neurotransmission. The purpose of our work was to investigate, at in-vivo physiologically relevant concentrations, the effects of these two classes of GABA modulators on dissociated neocortical neuron networks grown in long-term culture. We used a multi-electrode array (MEA) recording technique and a novel method of analysis that was able to both identify the action potentials of engaged excitatory and inhibitory neurons and to detect novel drug-induced network up-states (burst). We found that the NSs tetrahydrodeoxycorticosterone (THDOC) and allopregnanolone (ALLO) applied at low nanomolar concentrations, produced different modulatory effects on the two neuronal clusters. Conversely, at high concentrations (1 µM), both NSs, decreased excitatory and inhibitory neuron cluster excitability; however, even several hours after washout, the excitability of inhibitory neurons continued to be depressed, leading to a network long term depression (LTD). The BDZs clonazepam (CLZ) and midazolam (MDZ) also decreased the network excitability, but only MDZ caused LTD of inhibitory neuron cluster. To investigate the origin of the LTD after MDZ application, we tested finasteride (FIN), an inhibitor of endogenous NSs synthesis. FIN did not prevent the LTD induced by MDZ, but surprisingly induced it after application of CLZ. The significance and possible mechanisms underlying these LTD effects of NSs and BDZs are discussed. Taken together, our results not only demonstrate that ex-vivo neuronal networks show a sensitivity to drugs comparable to that expressed in vivo, but also provide a new global in-vitro description of the physiological mode of action of NSs and BDZs that can help in understanding their activity in more complex systems.
Novel modulatory effects of neurosteroids and benzodiazepines on excitatory and inhibitory neurons excitability: a multi-electrode array (MEA) recording study / Puja, Giulia; F., Gullo; E., Dossi; M., Lecchi; E., Wanke. - In: FRONTIERS IN NEURAL CIRCUITS. - ISSN 1662-5110. - ELETTRONICO. - 6:(2012), pp. 1-17. [10.3389/fncir.2012.00094]
Novel modulatory effects of neurosteroids and benzodiazepines on excitatory and inhibitory neurons excitability: a multi-electrode array (MEA) recording study.
PUJA, Giulia;
2012
Abstract
The dynamic equilibrium between glutamate- and GABA-mediated synaptic neurotransmission in the brain is fundamental to the control of nervous system function. Such a balance is regulated by the ‘tonic’ release of a variety of neurotransmitters and endogenous factors that influence synaptic function. One such important group of modulatory molecules are the neurosteroids (NSs) which, similarly to benzodiazepines (BDZs), enhance GABAergic neurotransmission. The purpose of our work was to investigate, at in-vivo physiologically relevant concentrations, the effects of these two classes of GABA modulators on dissociated neocortical neuron networks grown in long-term culture. We used a multi-electrode array (MEA) recording technique and a novel method of analysis that was able to both identify the action potentials of engaged excitatory and inhibitory neurons and to detect novel drug-induced network up-states (burst). We found that the NSs tetrahydrodeoxycorticosterone (THDOC) and allopregnanolone (ALLO) applied at low nanomolar concentrations, produced different modulatory effects on the two neuronal clusters. Conversely, at high concentrations (1 µM), both NSs, decreased excitatory and inhibitory neuron cluster excitability; however, even several hours after washout, the excitability of inhibitory neurons continued to be depressed, leading to a network long term depression (LTD). The BDZs clonazepam (CLZ) and midazolam (MDZ) also decreased the network excitability, but only MDZ caused LTD of inhibitory neuron cluster. To investigate the origin of the LTD after MDZ application, we tested finasteride (FIN), an inhibitor of endogenous NSs synthesis. FIN did not prevent the LTD induced by MDZ, but surprisingly induced it after application of CLZ. The significance and possible mechanisms underlying these LTD effects of NSs and BDZs are discussed. Taken together, our results not only demonstrate that ex-vivo neuronal networks show a sensitivity to drugs comparable to that expressed in vivo, but also provide a new global in-vitro description of the physiological mode of action of NSs and BDZs that can help in understanding their activity in more complex systems.File | Dimensione | Formato | |
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