Introduction to cellular calcium signaling

Bootman, Martin

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Introduction to Calcium Signaling
72 min
1. Introduction to cellular calcium signaling
- Dr. Martin Bootman
20 min
2. Monitoring Ca2+ concentration in living cells
- Dr. Marisa Brini
30 min
3. Cell boundary theorem
- Prof. Eduardo Ríos
Calcium Influx
19 min
4. Arachidonic acid and store-independent Ca2+ entry
- Dr. Luca Munaron
34 min
5. Voltage-dependent calcium channels
- Prof. Annette Dolphin
34 min
6. Protein networks of voltage-gated Ca2+ channels – proteomic & functional analysis of local Ca2+ signalling
- Prof. Bernd Fakler
37 min
7. Intracellular Ca2+ signaling: calcium influx
- Prof. Anant Parekh
60 min
8. Molecular identification of the CRAC channel
- Prof. Michael Cahalan
35 min
9. TRP channels with diverse permeability profiles: regulation of blood pressure and fertility
- Prof. Marc Freichel
Calcium Release
53 min
10. The InsP3 receptor calcium release channel
- Prof. J. Kevin Foskett
31 min
11. Molecular biology of ryanodine receptors: an overview
- Dr. Christopher George
- Prof. F. Anthony Lai
57 min
12. cADPR and NAADP: messengers for calcium signalling
- Prof. Antony Galione
43 min
13. Ryanodine receptors and cardiac function
- Prof. David Eisner
Calcium Efflux and Sequestration
45 min
14. Sodium-calcium exchange
- Prof. John Reeves
Organelle Calcium
42 min
15. Regulation and role of mitochondrial Ca2+ homeostasis
- Prof. Rosario Rizzuto
54 min
16. Peroxisomes and Golgi apparatus as players in Ca2+ homeostasis
- Dr. Paola Pizzo
- Dr. Alex Costa
34 min
17. Ca2+ dynamics between mitochondria and the endoplasmic reticulum
- Dr. Wolfgang Graier
26 min
18. Nuclear calcium signaling
- Dr. Oleg Gerasimenko
- Dr. Julia Gerasimenko
Spatiotemporal Calcium Signals
54 min
19. Regulation of intracellular calcium signaling, localized signals and oscillations
- Prof. Barbara Ehrlich
43 min
20. Modeling Ca2+ signals: understanding Ca2+ regulatory networks in cells: introduction and basic concepts
- Dr. David Friel
41 min
21. Modeling Ca2+ signals: understanding Ca2+ regulatory networks in cells - Ca2+ stores: endoplasmic reticulum, calcium oscillations
- Dr. David Friel
49 min
22. Modeling Ca2+ signals: understanding Ca2+ regulatory networks in cells - Ca2+ stores: mitochondria, models of spatially non-uniform Ca2+ signals, applications to analysis of experimental results
- Dr. David Friel
Calcium Effectors
34 min
23. Neuronal calcium sensor proteins: calcium sensors and regulators of diverse cellular functions
- Prof. Bob Burgoyne
41 min
24. Calcium-regulated adenylyl cyclases and cyclic AMP compartmentalization
- Prof. Dermot Cooper
32 min
25. Calcium and transcription-coupling
- Dr. Karen Lounsbury
50 min
26. Cellular calcium (Ca2+) buffers
- Prof. Dr. Beat Schwaller
24 min
27. Extracellular calcium signaling
- Dr. Aldebaran M. Hofer
50 min
28. Ca2+, fertilization and egg activation
- Prof. Karl Swann
24 min
29. Calcium regulation of transcription in plants
- Prof. Hillel Fromm
34 min
30. Mechanisms regulating STIM expression and function in Ca2+ signaling
- Dr. Jonathan Soboloff
46 min
31. Dynamic signal encoding in the S. cerevisiae calcium response
- Dr. Chiraj Dalal
Calcium and Disease
43 min
32. Polycystins, calcium signaling and pathogenesis of polycystic kidney disease
- Prof. Laura del Senno
28 min
33. Ca2+ alterations in familial Alzheimer's disease (FAD)
- Dr. Paola Pizzo
38 min
34. Pancreatitis and calcium signaling
- Prof. Ole Petersen
47 min
35. Mechanism-based therapies for heart failure and cardiac arrhythmias
- Prof. Andrew Marks
46 min
36. Genetic defects and calcium
- Prof. Tullio Pozzan
Archived Lectures *These may not cover the latest advances in the field
31 min
37. Calcium, calmodulin and calcineurin
- Prof. Stephen Bolsover
34 min
38. Calcium flickers steer cell migration
- Prof. Heping Cheng
28 min
39. Automated Ca2+ imaging of chemosensory neurones in C.elegans
- Dr. Nikos Chronis
46 min
40. Ca2+ and the regulation of small GTPases
- Prof. Peter Cullen
35 min
41. Genetically encoded Ca2+ indicators: molecular scale measurements in mammals in vivo
- Dr. Michael I. Kotlikoff
35 min
42. Capacitative (store-operated) calcium entry
- Dr. Jim Putney
47 min
43. The molecular biology of the inositol trisphosphate receptor
- Dr. Randen Patterson
50 min
44. Coordinated Ca2+ release from intracellular Ca2+ stores
- Prof. Ole Petersen
45 min
45. The plasma membrane calcium pump: biochemistry, physiology and molecular pathology
- Prof. Ernesto Carafoli
60 min
46. The calcium saga: a matter of life and death
- Prof. Pierluigi Nicotera
22 min
47. Ca2+ efflux and Ca2+ signals
- Dr. Anne Green
31 min
48. Organellar calcium pumps of the golgi and ER: from yeast to human
- Prof. Rajini Rao
58 min
49. Spatial and temporal aspects of cellular calcium signals: 'elementary' signals and waves
- Prof. Ian Parker
26 min
50. Modeling Ca2+ signals
- Dr. David Friel

Printable Handouts

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Navigable Slide Index

Introduction
Calcium signals and waves
Signal transduction via Ca2+
Cells utilise different sources of Ca2+ for signaling
Ca2+ release pathways
Ca2+ signalling via NAADP and cADPR
Store-operated Ca2+ entry
Calcium 'on' and 'off' mechanisms
Ca2+ acts in different time domains
Ca2+ signals can have different frequencies
Ca2+ signals can have varying amplitudes
Different spatial dimensions of Ca2+ signals
Ca2+-induced gene transcription
Neuronal development encoded by Ca2+ signals
Different cells express varying 'toolkit' components
Ca2+ signalsomes undergo self-assessment
Cells express multiple Ca2+ release pathways
The phosphoinositide signal transduction pathway
Inositol 1, 4, 5-trisphosphate receptors
InsP3 receptors are located on the ER
Mitochondrial calcium uptake monitoring
The mitochondrial Ca2+ uptake pathway
Mitochondrial calcium uptake and the Krebs cycle
Mitochondrial calcium uptake leads to apoptosis
InsP3 receptors accelerate apoptosis
InsP3 receptors bind multiple accessory proteins
Bcl-2 "B cell lymphoma-2"
Bcl-2 reduces InsP3 receptor activity
Bcl-2 suppresses InsP3-induced Ca2+ release
Calcium and apoptosis
Cells express multiple Ca2+ release pathways
Excitation-contraction coupling in cardiac muscle
Ca2+ underlies excitation-contraction coupling (1)
Inhomogeneous Ca2+ signals in atrial muscle (1)
Inhomogeneous Ca2+ signals in atrial muscle (2)
Ca2+ underlies excitation-contraction coupling (2)
Atrial myocyte Ca2+ channel distribution
Atrial myocyte excitation-contraction coupling (1)
Ca2+ underlies excitation-contraction coupling (3)
Physiological sympathetic inotropy stimulation
Isoproterenol increases cellular contraction
Endothelin-1 increases atrial cell contractility
Endothelin-1 causes positive inotropy
Positive inotropy and increased contraction in atria
Atrial myocyte excitation-contraction coupling (2)
Endothelin-1 causes inotropy and arrhythmias
Endothelin-1 evokes spontaneous Ca2+ transients
Dysrhythmias and spontaneous Ca2+ release
Atrial myocyte at rest
Atrial myocyte showing spontaneous Ca2+ sparks
Spontaneous calcium signals cause depolarisation
Further reading

Topics Covered

Introduction to the spatial and temporal complexity of cellular calcium signals
Calcium 'on' and 'off' mechanisms
The calcium signaling toolkit
Calcium sources
Calcium waves
Calcium oscillations
Cell-specific calcium signaling proteomes
Examples of calcium signaling differentially controlling cellular processes such as gene transcription and neuronal differentiation
Inositol 1,4,5-trisphosphate receptors as an example of a calcium release system
Mitochondrial calcium uptake
Regulation of apoptosis by calcium
Cardiac calcium signaling
Atrial myocytes regulate contraction by modulating the spatial properties of their calcium signals
Calcium-induced arrhythmias

Links

Series:

Calcium Signaling I

Categories:

Therapeutic Areas:

Cardiovascular & Metabolic

Talk Citation

Bootman, M. (2012, July 15). Introduction to cellular calcium signaling [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/YEBG2414.
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