Thoracic Interneurons, Motorneurons and Sensory Neurons of Locusta Migratoria (Insecta: Orthoptera) in Primary Cell Culture

Pfahlert, Carsten; Lakes‐Harlan, Reinhard

doi:10.2174/1874407900802010006

Cited by 3 publications

(1 citation statement)

References 42 publications

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“…When comparing the expression pattern of SYT‐1 to that of the innexins, we saw that GJs appeared early on in development, before active chemical synapses. The presence of functional active chemical synapses in insect neural cell cultures was recently demonstrated in locust cell cultures using immunohistochemical (Pfahlert & Lakes‐Harlan, ) and patch clamp studies (Weigel et al ., ). Hence, GJs may play a role in early developmental processes, including the formation of chemical synapses.…”

Section: Discussionmentioning

confidence: 87%

The role of gap junction proteins in the development of neural network functional topology

Anava

Saad

Ayali

2013

Insect Molecular Biology

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Gap junctions (GJs) provide a common form of intercellular communication in most animal cells and tissues, from Hydra to human, including electrical synaptic signalling. Cell coupling via GJs has an important role in development in general, and in neural network development in particular. However, quantitative studies monitoring GJ proteins throughout nervous system development are few. Direct investigations demonstrating a role for GJ proteins by way of experimental manipulation of their expression are also rare. In the current work we focused on the role of invertebrate GJ proteins (innexins) in the in vitro development of neural network functional topology, using two-dimensional neural culture preparations derived from the frontal ganglion of the desert locust, Schistocerca gregaria. Immunocytochemistry and quantitative real-time PCR revealed a dynamic expression pattern of the innexins during development of the cultured networks. Changes were observed both in the levels and in the localization of expression. Down-regulating the expression of innexins, by using double-strand RNA for the first time in locust neural cultures, induced clear changes in network morphology, as well as inhibition of synaptogenesis, thus suggesting a role for GJs during the development of the functional topology of neuronal networks.

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Section: Discussionmentioning

confidence: 87%

The role of gap junction proteins in the development of neural network functional topology

Anava

Saad

Ayali

2013

Insect Molecular Biology

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Locust primary neuronal culture for the study of synaptic transmission

Weigel

Schulte

Meffert³

et al. 2012

J Mol Hist

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We have designed a cell culture system for thoracic neurons of adult Locusta migratoria that enables the establishment of functional synapses in vitro. Patch-clamp recordings revealed three different neuron classes. About half of the neurons (47%) had unexcitable somata with outward and no inward conductance. The other half generated either single (37%) or multiple action potentials (18%) and differed mainly in lower outward conductance. Selectively stained motor neurons were analyzed to demonstrate varied physiological properties due to culture conditions. Using paired patch clamp recordings we demonstrate directly synaptic transmission in morphologically connected neurons in vitro. Presynaptic stimulation resulted in postsynaptic potentials in 42 pairs of neurons tested, independent of the type of neuron. According to pharmacological experiments most of these synapses were either glutamatergic or GABAergic. In addition to these chemical synapses, electrical synapses were found. With the demonstration of synapse formation in cell culture of adult locust neurons, this study provides the basis for the future analysis of more defined insect neuronal circuits in culture.

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Low density cell culture of locust neurons in closed-channel microfluidic devices

Göbbels

Thiebes

Ooyen

et al. 2010

Journal of Insect Physiology

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Thoracic Interneurons, Motorneurons and Sensory Neurons of Locusta Migratoria (Insecta: Orthoptera) in Primary Cell Culture

Cited by 3 publications

References 42 publications

The role of gap junction proteins in the development of neural network functional topology

The role of gap junction proteins in the development of neural network functional topology

Locust primary neuronal culture for the study of synaptic transmission

Low density cell culture of locust neurons in closed-channel microfluidic devices

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