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High-resolution spatiotemporal analysis of single serotonergic axons in an in vitro system.

Frontiers in neuroscience (2022-11-11)
Melissa Hingorani, Adele M L Viviani, Jenna E Sanfilippo, Skirmantas Janušonis
ZUSAMMENFASSUNG

Vertebrate brains have a dual structure, composed of (i) axons that can be well-captured with graph-theoretical methods and (ii) axons that form a dense matrix in which neurons with precise connections operate. A core part of this matrix is formed by axons (fibers) that store and release 5-hydroxytryptamine (5-HT, serotonin), an ancient neurotransmitter that supports neuroplasticity and has profound implications for mental health. The self-organization of the serotonergic matrix is not well understood, despite recent advances in experimental and theoretical approaches. In particular, individual serotonergic axons produce highly stochastic trajectories, fundamental to the construction of regional fiber densities, but further advances in predictive computer simulations require more accurate experimental information. This study examined single serotonergic axons in culture systems (co-cultures and monolayers), by using a set of complementary high-resolution methods: confocal microscopy, holotomography (refractive index-based live imaging), and super-resolution (STED) microscopy. It shows that serotonergic axon walks in neural tissue may strongly reflect the stochastic geometry of this tissue and it also provides new insights into the morphology and branching properties of serotonergic axons. The proposed experimental platform can support next-generation analyses of the serotonergic matrix, including seamless integration with supercomputing approaches.

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Albumin aus Rinderserum, cold ethanol fraction, pH 5.2, ≥96%
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5-Fluor-2′-Desoxyuridin, thymidylate synthase inhibitor
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Superoxid-Dismutase aus Rindererythrocyten, lyophilized powder, ≥3,000 units/mg protein, Protein ≥95 % by biuret
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Katalase aus Rinderleber, aqueous solution, ≥30,000 units/mg protein
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apo-Transferrin bovine, BioReagent, suitable for cell culture, ≥98%
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Anti-Tau-1-Antikörper, Klon PC1C6, clone PC1C6, Chemicon®, from mouse
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GDNF, Human Recombinant
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