/* 4-compartment model of a deep layer PFC pyramidal cell */ /* Based on Durstewitz et al. (2000), J.Neurophysiol. 83: 1733-50 */ /* Papoutsi et al. (2014), Plos Computational Biology*/ begintemplate Pcell public soma, dend, axon create soma,dend[3], axon //dend[0]=basal, dend[1]=proximal, dend[2]=distal proc init() { ndend = 3 create soma, dend[ndend], axon gCAN=0 soma{ nseg=3 L=75 diam=10.14 insert pas cm = 1.2 g_pas = 6e-5 e_pas = -66 Ra = 100 insert Naf gnafbar_Naf = 0.108 *1.675 insert Nap gnapbar_Nap = 1.8e-06 insert cal gcalbar_cal = 3e-05 insert can gcabar_can = 2e-5 insert car gcabar_car = 3e-08 *1000 insert cat gcatbar_cat = 6e-06 insert kdr gkdrbar_kdr = 0.0054*4 insert IKs gKsbar_IKs = 6e-4 *1.71 insert kad gkabar_kad = 7e-4 insert iC gkcbar_iC = 2.2e-3 insert h gbar_h = 9e-06 *0.8 insert kca gbar_kca = 0.025 *5.6 insert ican gbar_ican=gCAN insert cadyn } dend[0]{ //basal dendrites nseg=9 L=150 diam=1 insert pas //To account for spine density in basal denrites cm = 2 g_pas =1.7e-04 e_pas = -66 Ra = 100 insert Naf gnafbar_Naf = 1.8e-3 insert Nap gnapbar_Nap = 1.8e-05 insert can gcabar_can = 6e-05 insert kdr gkdrbar_kdr = 0.0054 insert IKs gKsbar_IKs = 0.0006 insert kad gkabar_kad = 0.0007 insert h gbar_h =9e-06 insert ican gbar_ican=gCAN*0.1 insert cadyn } dend[1]{ //proximal apical dendrites nseg=17 L=400.0 diam=3.4 insert pas cm = 1.2 /* microF/cm2 */ g_pas = 8.5e-5*2 /* mho/cm2 */ e_pas = -66 Ra = 150 /* ohm-cm */ insert Naf gnafbar_Naf = 5e-3 insert Nap gnapbar_Nap = 5.4e-05 insert cal gcalbar_cal = 1.9e-4 insert can gcabar_can = 6e-05 insert car gcabar_car = 9e-08 *1000 insert cat gcatbar_cat = 6e-05 insert kdr gkdrbar_kdr = 2.16e-05 insert IKs gKsbar_IKs = 0.0012 insert kad gkabar_kad = 0.0007 insert iC gkcbar_iC = 2.2e-05 insert kca gbar_kca = 0.0025 *1.1 insert h gbar_h =1.4e-5 insert ican gbar_ican=gCAN*0.1 insert cadyn } dend[2]{ nseg=5 L=400 diam=2.6 insert pas cm = 1.2 /* microF/cm2 */ g_pas = 8.5e-5*2 /* mho/cm2 */ e_pas = -66 Ra = 150 /* ohm-cm */ insert Naf gnafbar_Naf = 3.6e-3 insert Nap gnapbar_Nap = 1.8e-4 insert cal gcalbar_cal = 3.6e-6 insert can gcabar_can = 0.001 insert car gcabar_car = 1.5e-06 *1000 insert cat gcatbar_cat = 6e-06 insert kdr gkdrbar_kdr = 5.4e-06 insert IKs gKsbar_IKs = 0.0012 insert kad gkabar_kad = 7e-05 insert iC gkcbar_iC = 2.2e-06 insert kca gbar_kca = 0.0025 *1.1*0.01 insert h gbar_h =9e-05 insert ican gbar_ican=gCAN*0.1 insert cadyn } axon { nseg=1 L=113.22 diam=1.1 insert pas cm = 1.2 /* microF/cm2 */ g_pas = 8.5e-5 /* mho/cm2 */ e_pas = -66 Ra = 150 /* ohm-cm */ insert Naf gnafbar_Naf=0.18 insert kdr gkdrbar_kdr=0.0054 } connect dend[0](0), soma(0) connect dend[1](0), soma(1) connect dend[2](0), dend[1](1) connect axon(0), soma(0.5) cao0_ca_ion = 2 /* mM */ cai0_ca_ion = 50e-6 /* mM */ ko0_k_ion = 3.82 /* mM */ ki0_k_ion = 140 /* mM */ celsius = 34 } init() endtemplate Pcell //Creating new neurons nPcells = 8//200 objref Pcells[nPcells] for i = 0, (nPcells-1) { Pcells[i] = new Pcell() } //Create a list with segments objref soma_list, dend0_list, dend1_list, dend2_list, axon_list, dend_list, pcell_list, cell0_list soma_list = new SectionList() for i=0, (nPcells-1) { Pcells[i].soma soma_list.append() } dend0_list = new SectionList() for i=0, (nPcells-1) { Pcells[i].dend[0] dend0_list.append() } dend1_list = new SectionList() for i=0, (nPcells-1) { Pcells[i].dend[1] dend1_list.append() } dend2_list = new SectionList() for i=0, (nPcells-1) { Pcells[i].dend[2] dend2_list.append() } axon_list = new SectionList() for i=0, (nPcells-1) { Pcells[i].axon axon_list.append() } dend_list = new SectionList() for i=0, (nPcells-1) {Pcells[i].dend[0] dend_list.append()} for i=0, (nPcells-1) {Pcells[i].dend[1] dend_list.append()} for i=0, (nPcells-1) {Pcells[i].dend[2] dend_list.append()} pcell_list = new SectionList() for i=0, (nPcells-1) {Pcells[i].soma pcell_list.append()} for i=0, (nPcells-1) {Pcells[i].dend[0] pcell_list.append()} for i=0, (nPcells-1) {Pcells[i].dend[1] pcell_list.append()} for i=0, (nPcells-1) {Pcells[i].dend[2] pcell_list.append()} cell0_list=new SectionList() Pcells[0].soma cell0_list.append() Pcells[0].dend[0] cell0_list.append() Pcells[0].dend[1] cell0_list.append() Pcells[0].dend[2] cell0_list.append() //Balance membrane potential xopen("../bash_templates/current-balance.hoc") current_balance(-66)