Dynamical response, information transition and energy dependence in a neuron model driven by autapse

Bekkers, J.M., Stevens, C.F.: Excitatory and inhibitory autaptic currents in isolated hippocampal neurons maintained in cell culture. Proc. Nat. Acad. Sci. U. S. A. 88(17), 7834 (1991) Cobb, S.R., Halasy, K., Vida, I., et al.: Synaptic effects of identified interneurons innervating both interneurons and pyramidal cells in the rat hippocampus. Neuroscience 79(3), 629–648 (1997) Tams, G., Buhl, E.H., Somogyi, P.: Massive autaptic self-innervation of GABAergic neurons in cat visual cortex. J. Neurosci. 17(16), 6352–6364 (1997) Bekkers, J.M.: Synaptic transmission: functional autapses in the cortex. Curr. Biol. 13(11), 433 (2003) Karabelas, A.B., Purpura, D.P.: Evidence for autapses in the substantia nigra. Brain Res. 200(200), 467–473 (1980) Kaori, I., Bekkers, J.M.: Autapses. Curr. Biol. 16(9), R308–R308 (2006) Bekkers, J.M.: Synaptic transmission: excitatory autapses find a function? Curr. Biol. 19(7), 296–8 (2009) Bacci, A., Huguenard, J.R.: Enhancement of spike-timing precision by autaptic transmission in neocortical inhibitory interneurons. Neuron 49(1), 119 (2006) Wang, H., Sun, Y., Li, Y., et al.: Influence of autapse on mode-locking structure of a Hodgkin–Huxley neuron under sinusoidal stimulus. J. Theor. Biol. 358(23), 25–30 (2014) Saada, R., Miller, N., Hurwitz, I., et al.: Autaptic excitation elicits persistent activity and a plateau potential in a neuron of known behavioral function. Curr. Biol. 19(6), 479–484 (2009) Boussa, S., Pasquier, J., Leboulenger, F., et al.: Exploring modulation of action potential firing by artificial graft of fast GABAergic autaptic afferences in hypophyseal neuroendocrine melanotrope cells. J. Physiol. Paris 104(1), 99–106 (2009) Bushell, T.J., Chong, C.L., Shigemoto, R., et al.: Modulation of synaptic transmission and differential localisation of mGlus in cultured hippocampal autapses. Neuropharmacology 38(10), 1553–1567 (1999) Wang, H., Chen, Y.: Response of autaptic Hodgkin–Huxley neuron with noise to subthreshold sinusoidal signals. Phys. A Stat. Mech. Appl. 462, 321–329 (2016) Qin, H.X., Ma, J., Jin, W.Y., et al.: Dynamics of electric activities in neuron and neurons of network induced by autapses. Sci. China Technol. Sci. 57(5), 936–946 (2014) Li, Y., Schmid, G., Hanggi, P., et al.: Spontaneous spiking in an autaptic Hodgkin–Huxley setup. Phys. Rev. E Stat. Nonlinear Soft Matter Phys. 82(1), 061907 (2010) Wang, H., Ma, J., Chen, Y., et al.: Effect of an autapse on the firing pattern transition in a bursting neuron. Commun. Nonlinear Sci. Numer. Simul. 19(9), 3242–3254 (2014) Hengtong, W., Yong, C.: Firing dynamics of an autaptic neuron. Chin. Phys. B 24(12), 53–64 (2015) Zhao, Z., Jia, B., Gu, H.: Bifurcations and enhancement of neuronal firing induced by negative feedback. Nonlinear Dyn. 86(3), 1–12 (2016) Zhao, Z., Gu, H.: Transitions between classes of neuronal excitability and bifurcations induced by autapse. Sci. Rep. 7(1), 1 (2017) Fox, R.F., Gatland, I.R., Roy, R., et al.: Fast, accurate algorithm for numerical simulation of exponentially correlated colored noise. Phys. Rev. A 38(11), 5938 (1988) Guo, D., Chen, M., Perc, M., et al.: Firing regulation of fast-spiking interneurons by autaptic inhibition. EPL 114(3), 30001 (2016) Rusin, C.G., Johnson, S.E., Kapur, J., et al.: Engineering the synchronization of neuron action potentials using global time-delayed feedback stimulation. Phys. Rev. E Stat. Nonlinear Soft Matter Phys. 84(2), 066202 (2011) Wang, Q., Gong, Y., Wu, Y.: Autaptic self-feedback-induced synchronization transitions in Newman-Watts neuronal network with time delays. Eur. Phys. J. B 88(4), 103 (2015) Gong, Y., Wang, B., Xie, H.: Spike-timing-dependent plasticity enhanced synchronization transitions induced by autapses in adaptive Newman-Watts neuronal networks. Bio Syst. 150, 132–137 (2016) Wang, B., Gong, Y., Xie, H., et al.: Optimal autaptic and synaptic delays enhanced synchronization transitions induced by each other in Newman-Watts neuronal networks. Chaos Solitons Fractals 91, 372–378 (2016) Yilmaz, E., Baysal, V., Ozer, M., et al.: Autaptic pacemaker mediated propagation of weak rhythmic activity across small-world neuronal networks. Phys. A Stat. Mech. Appl. 444, 538–546 (2016) Ao, X., Hanggi, P., Schmid, G.: In-phase and anti-phase synchronization in noisy Hodgkin–Huxley neurons. Math. Biosci. 245(1), 49–55 (2013) Guo, D., Perc, M., Zhang, Y., et al.: Frequency-difference dependent stochastic resonance in neural systems. Phys. Rev. E 96(2), 022415 (2017) Gu, H., Zhao, Z.: Dynamics of time delay-induced multiple synchronous behaviors in inhibitory coupled neurons. PLoS ONE 10(9), e0138593 (2015) Guo, D., Wu, S., Chen, M., et al.: Regulation of irregular neuronal firing by autaptic transmission. Sci. Rep. 6, 26096 (2016) Ma, J., Song, X., Jin, W., et al.: Autapse-induced synchronization in a coupled neuronal network. Chaos Solitons Fractals Interdiscip. J. Nonlinear Sci. Nonequilib. Complex Phenom. 80, 31–38 (2015) Tang, J., Luo, J.M., Ma, J.: Information transmission in a neuron-astrocyte coupled model. PLoS ONE 8(11), e80324 (2013) Ma, J., Song, X., Tang, J., et al.: Wave emitting and propagation induced by autapse in a forward feedback neuronal network. Neurocomputing 167(C), 378–389 (2015) Kety, S.S.: The general metabolism of the brain in vivo. Metab. Nerv. Syst. 46(1), 221–237 (1957) Bear, M.F., Connors, B.W.: Neuroscience: exploring the brain. J. Child Fam. Stud. 5(3), 377–379 (2007) Howarth, C., Gleeson, P., Attwell, D.: Updated energy budgets for neural computation in the neocortex and cerebellum. J. Cereb. Blood Flow Metab. 32(7), 1222 (2012) Valente, P., Castroflorio, E., Rossim, P., et al.: PRRT2 is a key component of the Ca\(^{2+}\)-dependent neurotransmitter release machinery. Cell Rep. 15(1), 117 (2016) Laughlin, S.B., van Steveninck, R.R., Anderson, J.C.: The metabolic cost of neural information. Nat. Neurosci. 1(1), 36–41 (1998) Attwell, D., Laughlin, S.B.: An energy budget for signaling in the grey matter of the brain. J. Cereb. Blood Flow Metab. 21(10), 1133–1145 (2001) Niven, J.E., Laughlin, S.B.: Energy limitation as a selective pressure on the evolution of sensory systems. J. Exper. Biol. 211(11), 1792–1804 (2008) Alle, H., Roth, A., Geiger, J.R.: Energy-efficient action potentials in hippocampal mossy fibers. Science 325(5946), 1405–8 (2009) Schmidt, H.C., Bischofberger, J.: Fast sodium channel gating supports localized and efficient axonal action potential initiation. J. Neurosci. 30(30), 10233–42 (2010) Yu, Y., Hill, A.P., Mccormick, D.A.: Warm body temperature facilitates energy efficient cortical action potentials. PLoS Comput. Biol. 8(4), e1002456 (2012) Long, F.W., Fei, J., Xiao, Z.L., et al.: Temperature effects on information capacity and energy efficiency of Hodgkin–Huxley neuron. Chin. Phys. Lett. 32(10), 166–169 (2015) Schreiber, S., Machens, C.K., Herz, A.V., Laughlin, S.B.: Energy-efficient coding with discrete stochastic events. Neural Comput. 14(6), 1323–46 (2002) Yu, L., Liu, L.: Optimal size of stochastic Hodgkin–Huxley neuronal systems for maximal energy efficiency in coding pulse signals. Phys. Rev. E Stat. Nonlinear Soft Matter Phys. 89(3), 032725 (2014) Yu, L., Zhang, C., Liu, L., Yu, Y.: Energy-efficient population coding constrains network size of a neuronal array system. Sci. Rep. 6, 19369 (2016) Harris, J.J., Jolivet, R., Attwell, D.: Synaptic energy use and supply. Neuron 75(5), 762–77 (2012) Levy, W.B., Baxter, R.A.: Energy efficient neuronal computation via quantal synaptic failures. J. Neurosci. 22(11), 4746–55 (2002) Yu, Y., Migliore, M., Hines, M.L., Shepherd, G.M.: Sparse coding and lateral inhibition arising from balanced and unbalanced dendrodendritic excitation and inhibition. J. Neurosci. 34(41), 13701–13 (2014) Olshausen, B.A., Field, D.J.: Sparse coding of sensory inputs. Curr. Opin. Neurobiol. 14(4), 481–7 (2004) Lorincz, A., Palotai, Z., Szirtes, G.: Efficient sparse coding in early sensory processing: lessons from signal recovery. PLoS Comput. Biol. 8(3), e1002372 (2012) Vicente, R., Gollo, L.L., Mirasso, C.R., et al.: Dynamical relaying can yield zero time lag neuronal synchrony despite long conduction delays. Proc. Nat. Acad. Sci. U. S. A. 105(44), 17157–62 (2008) Strong, S.P., Koberle, R.: Entropy and information in neural spike trains. Phys. Rev. Lett. 80(1), 197–200 (1996) Ju, H., Hines, M.L., Yu, Y.: Cable energy function of cortical axons. Sci. Rep. 6, 1 (2016) Moujahid, A., D”Anjou, A., Torrealdea, F.J., et al.: Energy and information in Hodgkin–Huxley neurons. Phys. Rev. E Stat. Nonlinear Soft Matter Phys. 83(3), 031912 (2011) Shilnikov, A.: Complete dynamical analysis of a neuron model. Nonlinear Dyn. 68(3), 305–328 (2012) Xu, X., Luo, J.W.: Dynamical model and control of a small-world network with memory. Nonlinear Dyn. 73(3), 1659–1669 (2013) Wang, L., Zeng, Y.: Control of bursting behavior in neurons by autaptic modulation. Neurol. Sci. 34(11), 1977–1984 (2013) Bekkers, J.M.: Neurophysiology: are autapses prodigal synapses? Curr. Biol. 8(2), 52–5 (1998) Sengupta, B., Tozzi, A., Cooray, G.K., et al.: Towards a neuronal gauge theory. PLoS Biol. 14(3), e1002400 (2016) Friston, K.: The free-energy principle: a unified brain theory? Nat. Rev. Neurosci. 11(2), 127 (2010)