Biomedical Engineering Reference
In-Depth Information
extrasynaptic NMDA receptors
. Neuron, 2004.
4
3(5): pp. 729-43.
14. Newman,
revolution continues
. Nat Rev Neurosci, 2005.
6
(8): pp. 626-40.
29. Bergles, D.E. and C.E. Jahr,
Synaptic acti-
vation
E.A.,
Calcium
increases
in
reti-
nal
glial
cells
evoked
by
light-induced
neu-
of
glutamate
transporters
in
hip-
ronal
activity
.
J
Neurosci,
2005.
2
5(23):
pocampal
astrocytes
.
Neuron,
1997.
1
9(6):
pp. 5502-10.
15. Haydon, P.G. and G. Carmignoto,
Astro-
cyte control of synaptic transmission and neu-
rovascular coupling
. Physiol Rev, 2006.
8
6(3):
pp. 1009-31.
16. Fox, P.T. and M.E. Raichle,
Focal physiologi-
cal uncoupling of cerebral blood flow and oxida-
tive metabolism during somatosensory stimula-
tion in human subjects
. Proc Natl Acad Sci U S
A, 1986.
8
3(4): pp. 1140-4.
17. Mulligan, S.J. and B.A. MacVicar,
Calcium
transients in astrocyte endfeet cause cerebrovas-
cular constrictions
. Nature, 2004.
4
31(7005):
pp. 195-9.
18. Metea, M.R. and E.A. Newman,
Glial cells
dilate and constrict blood vessels: A mechanism
of neurovascular coupling
. J Neurosci, 2006.
2
6(11): pp. 2862-70.
19. Filosa, J.A., et al.,
Local potassium signaling
couples neuronal activity to vasodilation in the
brain
. Nat Neurosci, 2006.
9
(11): pp. 1397-
403.
20. Peppiatt, C.M., et al.,
Bidirectional control of
CNS capillary diameter by pericytes
.Nature,
2006.
4
43(7112): pp. 700-4.
21. Mathiesen, C., K. Caesar, and M. Lauritzen,
Temporal coupling between neuronal activity
and blood flow in rat cerebellar cortex as indi-
cated by field potential analysis
. J Physiol, 2000.
5
23 Pt 1: pp. 235-46.
22. Ngai, A.C., et al.,
Frequency-dependent
changes in cerebral blood flow and evoked poten-
tials during somatosensory stimulation in the
rat
. Brain Res, 1999.
8
37(1-2): pp. 221-8.
23. Charles, A.C.,
Glia-neuron intercellular cal-
cium signaling
. Dev Neurosci, 1994.
1
6(3-4):
pp. 196-206.
24. Porter, J.T. and K.D. McCarthy,
Astrocytic
neurotransmitter receptors in situ and in vivo
.
Prog Neurobiol, 1997.
5
1(4): pp. 439-55.
25. Duffy, S. and B.A. MacVicar,
Adrenergic cal-
cium signaling in astrocyte networks within the
hippocampal slice
. J Neurosci, 1995.
1
5(8):
pp. 5535-50.
26. Perea, G. and A. Araque,
Properties of synap-
tically evoked astrocyte calcium signal reveal
synaptic information processing by astrocytes
.J
Neurosci, 2005.
2
5(9): pp. 2192-203.
27. Verkhratsky, A., R.K. Orkand, and
H. Kettenmann,
Glial calcium: Home-
ostasis and signaling function
. Physiol Rev,
1998.
7
8(1): pp. 99-141.
28. Volterra, A. and J. Meldolesi,
Astrocytes
,
from
brain
pp. 1297-308.
30. Porter, J.T. and K.D. McCarthy,
- Astrocytic
neurotransmitter receptors in situ and in vivo
.
1997.
5
1: p. 455.
31. Matsui,
K.
and
C.E.
Jahr,
Ectopic
release
of
synaptic
vesicles
.
Neuron,
2003.
4
0(6):
pp. 1173-83.
32. Zoli, M., et al.,
The emergence of the volume
transmission concept
. Brain Res Brain Res Rev,
1998.
2
6(2-3): pp. 136-47.
33. Cotrina, M.L., J.H. Lin, and M. Nedergaard,
Cytoskeletal assembly and ATP release regulate
astrocytic calcium signaling
. J Neurosci, 1998.
1
8(21): pp. 8794-804.
34. Schell, M.J., M.E. Molliver, and S.H. Snyder,
D-serine
,
an endogenous synaptic modula-
tor: Localization to astrocytes and glutamate-
stimulated release
. Proc Natl Acad Sci U S A,
1995.
9
2(9): pp. 3948-52.
35. Beattie, E.C., et al.,
Control of synaptic
strength by glial TNFalpha
. Science, 2002.
2
95(5563): pp. 2282-5.
36. Simard, M., et al.,
Signaling at the gliovas-
cular interface
. J Neurosci, 2003.
2
3(27):
pp. 9254-62.
37. Price, D.L., et al.,
Distribution of rSlo Ca2+-
activated K+ channels in rat astrocyte perivas-
cular
endfeet
.
Brain
Res,
2002.
9
56(2):
pp. 183-93.
38. Filosa, J.A., A.D. Bonev, and M.T. Nelson,
Calcium dynamics in cortical astrocytes and
arterioles during neurovascular coupling
. Circ
Res, 2004.
9
5(10): pp. e73-81.
39. Denk, W., J.H. Strickler, and W.W. Webb,
Two-photon
laser
scanning
fluorescence
microscopy
.
Science,
1990.
2
48(4951):
pp. 73-6.
40. Stosiek, C., et al.,
In vivo two-photon calcium
imaging of neuronal networks
. Proc Natl Acad
Sci U S A, 2003.
1
00(12): pp. 7319-24.
41. Hirase, H., et al.,
Calcium dynamics of cor-
tical astrocytic networks in vivo
. PLoS Biol,
2004.
2
(4): pp. E96.
42. Svoboda, K. and R. Yasuda,
Principles of two-
photon excitation microscopy and its applica-
tions to neuroscience
. Neuron, 2006.
5
0(6):
pp. 823-39.
43. Svoboda, K., et al.,
Spread of dendritic excita-
tion in layer 2/3 pyramidal neurons in rat bar-
rel cortex in vivo
. Nat Neurosci, 1999.
2
(1):
pp. 65-73.
44. Nimmerjahn, A., et al.,
Sulforhodamine 101 as
a specific marker of astroglia in the neocortex in
vivo
. Nat Methods, 2004.
1
(1): pp. 31-7.
glue to communication elements: The
