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• 50 min
  1. Where the thoughts dwell: history of neuroscience and introduction into neuroglia

  • Prof. Alexei Verkhratsky
• 35 min
  2. Astrocytes: definition, appearance and general physiology 1

  • Prof. Alexei Verkhratsky
• 30 min
  3. Astrocytes: definition, appearance and general physiology 2

  • Prof. Alexei Verkhratsky
• 39 min
  4. Glial calcium signalling

  • Prof. Alexei Verkhratsky
• 33 min
  5. Astroglial calcium signalling: what it could tell us

  • Prof. Dmitri Rusakov
• 42 min
  6. Neuronal-glial chemical transmission mediated by glutamate and ATP

  • Prof. Alexei Verkhratsky
• 27 min
  7. Energy and amino acid neurotransmitter metabolism in astrocytes

  • Prof. Helle Waagepetersen
• 49 min
  8. Mechanisms of glutamate release from astrocytes

  • Prof. Vladimir Parpura
• 37 min
  9. Cannabinoid type 1 receptors in astrocytes

  • Prof. Giovanni Marsicano
• 34 min
  10. Neuronal-glial anatomical plasticity in the hypothalamus

  • Dr. Stéphane H.R. Oliet
• 25 min
  11. General physiology of oligodendrocytes

  • Prof. Arthur M. Butt
• 35 min
  12. Neuropathology of microglia and oligodendrocytes

  • Prof. Arthur M. Butt
• 38 min
  13. Oligodendroglia/MCT1 are an unexpected contributor to CNS toxicity/neurodegeneration

  • Prof. Jeffrey D. Rothstein
• 41 min
  14. Physiology and pathophysiology of microglia

  • Prof. Dr. Uwe-Karsten Hanisch
• 39 min
  15. Properties of regulated exocytosis in astrocytes

  • Prof. Robert Zorec
• 51 min
  16. Exocytosis and gliocrine astroglia

  • Prof. Robert Zorec
• 37 min
  17. Noradrenergic hypothesis of neurodegeneration and astroglia

  • Prof. Robert Zorec
• 45 min
  18. Principles of astrogliopathology: from reactivity to atrophy and degeneration

  • Prof. Alexei Verkhratsky
• 23 min
  19. Regulation of synaptic plasticity by astroglia

  • Prof. Dmitri Rusakov
• 48 min
  20. Enteric glia: the glue of the enteric nervous system

  • Dr. Keith A. Sharkey
• 38 min
  21. Purinergic neuron-to-glia signaling in the enteric nervous system

  • Dr. Brian D. Gulbransen
• 43 min
  22. Astrocytes and Alexander disease: the first - but not last - primary astrocyte disease

  • Prof. Albee Messing
• 45 min
  23. Vesicular release of glutamate mediates bidirectional signaling between astrocytes and neurons

  • Prof. Vladimir Parpura
• 43 min
  24. The impact of astrocyte mitochondrial ATP production on neuroprotection after stroke

  • Prof. James Lechleiter
• 33 min
  25. Hepatic encephalopathy in cirrhosis: a disorder of glial-neuronal signalling

  • Prof. Roger F. Butterworth
• 33 min
  26. Hepatic encephalopathy in acute liver failure: a primary neurogliopathy

  • Prof. Roger F. Butterworth
• 37 min
  27. Bi-directional communication at the neurovascular unit: implications for neuronal function

  • Prof. Jessica A. Filosa
• 51 min
  28. Astrocyte reactivity

  • Prof. Michael Sofroniew
• 36 min
  29. Roles of microglia in the healthy brain

  • Dr. Marie-Ève Tremblay
• Archived Lectures *These may not cover the latest advances in the field
• 44 min
  30. Astroglia in neuropathology

  • Prof. Alexei Verkhratsky
• 44 min
  31. Cell biology and physiology of astroglia

  • Prof. Alexei Verkhratsky
• 29 min
  32. General physiology of oligodendrocytes and Schwann cells

  • Prof. Arthur M. Butt

Printable Handouts

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Navigable Slide Index

1. Introduction
2. Brain Glia
3. A couple of things to remember about astroglia (1)
4. A couple of things to remember about astroglia (2)
5. A couple of things to remember about astroglia (3)
6. Since the past two decades it turned out that astrocytes also
7. Monitoring astroglial Ca2+ signalling ex vivo
8. Monitoring astroglial Ca2+ signalling in vivo (awake) (1)
9. Monitoring astroglial Ca2+ signalling in vivo (awake) (2)
10. Some major pathways of Ca2+ signalling in astroglia
11. Summary
12. Lecture plan: three chapters
13. Spatial filtering due to diffraction limit of light
14. Spatiotemporal filtering due to Ca2+/Ca2+ indicator diffusion-reaction
15. Different [Ca2+] dynamics could generate similar fluorescence readout
16. Interim conclusion (1)
17. Ca2+ signalling dynamics depends on the resting (nanomolar) [Ca2+] level
18. Monitoring nanomolar Ca2+ using a time-domain measure – FLIM
19. Monitoring basal nanomolar Ca2+ using 3D FLIM
20. Astrocytic Ca2+ landscapes in situ and in vivo (1)
21. Astrocytic Ca2+ landscapes in situ and in vivo (2)
22. Astrocytic Ca2+ landscapes in situ and in vivo (3)
23. Interim conclusion (2)
24. Resting [Ca2+] versus spontaneous Ca2+ signals
25. Resting [Ca2+] versus exogenously evoked Ca2+ signals
26. Resting [Ca2+] versus physiologically evoked Ca2+ signals
27. In this dependence a constituent or adaptive feature?
28. Interim conclusion (3)
29. Building a realistic astrocyte model using ASTRO+NEURON (1)
30. Building a realistic astrocyte model using ASTRO+NEURON (2)
31. Building a realistic astrocyte model using ASTRO+NEURON (3)
32. Building a realistic astrocyte model using ASTRO+NEURON (4)
33. Running a realistic astrocyte model using ASTRO+NEURON (examples)
34. Conclusions
35. Funding and collaborators

Topics Covered

• Astrocytes
• Astroglia
• Glia
• Calcium signalling
• Three Dimensional Electron Microscopy
• Alexa Fluor 594
• Oregon Green 488 BAPTA-1
• Monitoring resting calcium
• Fluorescence recordings
• Fluorescence lifetime imaging microscopy
• Astrocyte model

Links

Series:

• Physiology and Pathophysiology of Neuroglia

Categories:

• Neuroscience
• Physiology & Anatomy

Therapeutic Areas:

• Neurology

External Links

• Slide 33: ASTRO platform link 1
• Slide 33: ASTRO platform link 2

Talk Citation

Publication History

• Published on June 29, 2022

Financial Disclosures

• Prof. Dmitri Rusakov has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.