Mild traumatic injury can modify the key sodium (Na+) current underlying the excitability of neurons. It causes the activation and inactivation properties of this current to become shifted to more negative trans-membrane voltages. This so-called coupled left shift (CLS) leads to a chronic influx of Na+ into the cell that eventually causes spontaneous or “ectopic” firing along the axon, even in the absence of stimuli. The bifurcations underlying this enhanced excitability have been worked out in full ionic models of this effect. Here, we present computational evidence that increased temperature T can exacerbate this pathological state. Conversely, and perhaps of clinical relevance, mild cooling is shown to move the naturally quiescent cell further away from the threshold of ectopic behavior. The origin of this stabilization-by-cooling effect is analyzed by knocking in and knocking out, one at a time, various processes thought to be T-dependent. The T-dependence of the Na+ current, quantified by its Q10‐Na factor, has the biggest impact on the threshold, followed by Q10‐pump of the sodium-potassium exchanger. Below the ectopic boundary, the steady state for the gating variables and the resting potential are not modified by temperature, since our model separately tallies the Na+ and K+ ions including their separate leaks through the pump. When only the gating kinetics are considered, cooling is detrimental, but in the full T-dependent model, it is beneficial because the other processes dominate. Cooling decreases the pump’s activity, and since the pump hyperpolarizes, less hyperpolarization should lead to more excitability and ectopic behavior. But actually the opposite happens in the full model because decreased pump activity leads to smaller gradients of Na+ and K+, which in turn decreases the driving force of the Na+ current.

1.
J. A.
Wang
,
W.
Lin
,
T.
Morris
,
U.
Banderali
,
P. F.
Juranka
, and
C. E.
Morris
, “
Membrane trauma and Na+ leak from Nav1.6 channels
,”
Am. J. Physiol.
297
,
C823
C834
(
2009
).
2.
P. A.
Boucher
,
B.
Joós
, and
C. E.
Morris
, “
Coupled left-shift of Nav channels: Modeling Na+ loading and dysfunctional excitability of damaged axons
,”
J. Comput. Neurosci.
33
,
301
319
(
2012
).
3.
A. L.
Hodgkin
and
A. F.
Huxley
, “
A quantitative description of membrane current and its application to conduction and excitation in nerve
,”
J. Physiol.
117
,
500
544
(
1952
).
4.
N.
Yu
,
C. E.
Morris
,
B.
Joos
, and
A.
Longtin
, “
Spontaneous excitation patterns computed for myelinated axons with injury-like impairments of nodal Na/K pumps and sodium channels
,”
PLoS Comput. Biol.
8
(
9
),
e1002664
(
2012
).
5.
M.
Lachance
,
A.
Longtin
,
C. E.
Morris
,
N.
Yu
, and
B.
Joos
, “
Leak/pump dynamics in a model of mild axonal injury yield neuropathic input/output abnormalities in saltatory propagation
,”
J. Comput. Neurosci.
37
,
523
531
(
2014
).
6.
R.
Amir
,
M.
Michaelis
, and
M.
Devor
, “
Membrane potential oscillations in dorsal root ganglion neurons: Role in normal electrogenesis and neuropathic pain
,”
J. Neurosci.
19
,
8589
(
1999
).
7.
Y.
Kovalsky
,
R.
Amir
, and
M.
Devor
, “
Simulation in sensory neurons reveals a key role for delayed Na current in subthreshold oscillations and ectopic discharge: Implications for neuropathic pain
,”
J. Neurophysiol.
102
,
1430
1442
(
2009
).
8.
J. S.
Choi
and
S. G.
Waxman
, “
Physiological interactions between Na(v)1.7 and Na(v)1.8 sodium channels: A computer simulation study
,”
J. Neurophysiol.
106
,
3173
3184
(
2011
).
9.
D. O.
Carpenter
, “
Ionic and metabolic bases of neuronal thermosensitivity
,”
Fed. Proc.
40
,
2808
2813
(
1981
).
10.
H.
Franssen
,
G. H.
Wieneke
, and
J. H. J.
Wokke
, “
The influence of temperature on conduction block
,”
Muscle Nerve
22
,
166
173
(
1999
).
11.
C.
Tai
,
J.
Wang
,
J. R.
Roppolo
, and
W. C.
de Groat
, “
Relationship between temperature and stimulation frequency in conduction block of amphibian myelinated axon
,”
J. Comput. Neurosci.
26
,
331
338
(
2009
).
12.
G. J. M.
Rutten
,
R. D. A.
Gaasbeek
, and
H.
Franssen
, “
Decrease in nerve temperature: A model for increased temporal dispersion
,”
Electroencephalogr. Clin. Neurophysiol.
109
,
15
23
(
1998
).
13.
M.
Rasminsky
, “
The effects of temperature on conduction in demyelinated single nerve fibers
,”
Arch. Neurol.
28
,
287
292
(
1973
).
14.
K. J.
Smith
, “
Conduction properties of central demyelinated and remyelinated axons, and their relation to symptom production in demyelinating disorders
,”
Eye
8
,
224
237
(
1994
).
15.
H. A.
Choi
,
N.
Badjatia
, and
S. A.
Mayer
, “
Hypothermia for acute brain injury—Mechanisms and practical aspects
,”
Nat. Rev. Neurol.
8
,
214
222
(
2012
).
16.
M. C.
Kiernan
,
K.
Cikurel
, and
H.
Bostock
, “
Effects of temperature on the excitability properties of human motor axons
,”
Brain
124
(Pt
4
),
816
825
(
2001
).
17.
H.
Bade
,
H. A.
Braun
, and
H.
Hensel
, “
Parameters of the static burst discharge of lingual cold receptors in the cat
,”
Pfluegers Arch.
382
,
1
5
(
1979
).
18.
H. A.
Braun
,
H.
Bade
, and
H.
Hensel
, “
Static and dynamic discharge patterns of bursting cold fibers related to hypothetical receptor mechanisms
,”
Pfluegers Arch.
386
,
1
9
(
1980
).
19.
H. A.
Braun
,
K.
Schäfer
,
H.
Wissing
, and
H.
Hensel
, “
Periodic transduction processes in thermosensitive receptors
,” in
Sensory Receptor Mechanisms
, edited by
W.
Hamann
and
A.
Iggo
(World Scientific, Singapore,
1984
), pp.
147
156
.
20.
A.
Longtin
and
K.
Hinzer
, “
Encoding with bursting, subthreshold oscillations and noise in mammalian cold receptors
,”
Neural Comput.
8
,
215
255
(
1996
).
21.
H. A.
Braun
,
M. T.
Huber
,
M.
Dewald
,
K.
Schäfer
, and
K.
Voigt
, “
Computer simulations of neuronal signal transduction: The role of nonlinear dynamics and noise
,”
Int. J. Bifurc. Chaos
8
,
881
889
(
1998
).
22.
W. L.
Maxwell
, “
Histopathological changes at central nodes of Ranvier after stretch injury
,”
Microsc. Res. Tech.
34
,
522
535
(
1996
).
23.
A.
Ochab-Marcinek
,
G.
Schmid
,
I.
Goychuk
, and
P.
Hänggi
, “
Noise-assisted spike propagation in myelinated neurons
,”
Phys. Rev. E
79
,
011904
(
2009
).
24.
B.
Joos
,
B. M.
Barlow
, and
C. E.
Morris
, “
Calculating the consequences of left-shifted Nav channel activity in sick excitable cells
,” in
Voltage-Gated Sodium Channels: Structure, Function and Channelopathies. Handbook of Experimental Pharmacology
, edited by
M.
Chahine
(
Springer
,
Cham
), Vol. 246.
25.
J. A.
Willis
,
G. L.
Gaubatz
, and
D. O.
Carpenter
, “
The role of the electrogenic sodium pump in modulation of pacemaker discharge of Aplysia neurons
,”
J. Cell. Physiol.
84
,
463
471
(
1974
).
26.
M. L.
Wiederhold
and
D. O.
Carpenter
, in
Cellular Pacemakers, Vol. 2: Function in Normal and Diseased States
, edited by
D. O.
Carpenter
(
Wiley-Interscience
,
New York
,
1982
), pp.
27
58
.
27.
E.
Olivares
,
S.
Salgado
,
J. P.
Maidana
,
G.
Herrera
,
M.
Campos
,
R.
Madrid
, and
P.
Orio
, “
TRPM8-dependent dynamic response in a mathematical model of cold thermoreceptor
,”
PLoS One
10
(
10
),
e0139314
(
2015
).
28.
A. L.
Hodgkin
and
R. D.
Keynes
, “
Active transport of cations in giant axons from Sepia and Loligo
,”
J. Physiol.
128
,
2840
(
1955
).
29.
J. R.
Schwarz
, “
The effect of temperature on Na currents in rat myelinated nerve fibres
,”
Pflugers Arch.
406
,
397
(
1986
).
30.
B.
Hille
,
Ionic Channels of Excitable Membranes
, 2nd ed. (
Sinauer
,
Sunderland
,
MA
,
1992
); 3rd ed. (2001); for Q10 values, see p. 51.
31.
M. T.
Huber
and
H. A.
Braun
, “
Stimulus-response curves of a neuronal model for noisy subthreshold oscillations and related spike generation
,”
Phys. Rev. E
73
,
041929
(
2006
).
32.
K.
Schäfer
,
H. A.
Braun
, and
H.
Hensel
, “
Static and dynamic activity of cold receptors at various calcium levels
,”
J. Neurophysiol.
47
,
1017
1028
(
1982
).
33.
M. O.
Kovalchuk
,
H.
Franssen
,
L. J.
Van Schelven
, and
B. T. H. M.
Sleutjes
, “
Comparing excitability at 37°C versus at 20°C differences between motor and sensory axons
,”
Muscle Nerve
57
,
574
580
(
2018
).
34.
N. G.
Hyun
,
K. H.
Hyun
,
K.
Lee
, and
B. K.
Kaang
, “
Temperature dependence of action potential parameters in Aplysia neurons
,”
Neurosignals
20
,
252
264
(
2012
).
35.
T. A.
Coates
,
O.
Woolnough
,
J. M.
Masters
,
G.
Asadova
,
C.
Chandrakumar
, and
M. D.
Baker
, “
Acute temperature sensitivity in optic nerve axons explained by an electrogenic membrane potential
,”
Pflugers Arch.
467
,
2337
2349
(
2015
).
You do not currently have access to this content.