SCN1A mutations in patients with epilepsy. Top panel, missense mutations (circles) and in-frame deletions (triangles). Bottom panel, truncation mutations (stars). Most missense mutatons are located in the transmembrane spanning segments and the proximal half of the carboxyl terminal domains. The clinical type of epilepsy is indicated by color: GEFS+, generalized epilepsy with febrile seizures plus; SMEI, severe myoclonic epilepsy of infancy; SMEIb, borderline SMEI; ICEGTC, idiopathic childhood epilepsy with generalized tonic-clonic seizures; IS, infantile spasms; CGE, cryptogenic generalized epilepsy; CFE, cryptogenic focal epilepsy; MAE, myoclonic astatic epilepsy; SIGEI, severe idiopathic generalized epilepsy of infancy. Modified from Kearney and Meisler (2008).

A. Interaction between sodium and potassium channel mutations in the mouse. (Kearney et al, 2006b). B. Interaction between mutations in two sodium channel genes, Scn1a and Scn8a (Martin et al, 2007). C. Interaction between calcium and potassium channel genes (Glasscock et al, 2007).

Inherited erythromelalgia (green symbols) and paroxysmal extreme pain disorder (PEPD, black symbols) mutations are gain-of-function and inherited as a dominant trait. Na_V1.7-related congenital insensitivity to pain (CIP) is caused by loss-of-function mutations which are inherited as a recessive trait. Homozygous Na_V1.7-related CIP mutations carry the same nonsense mutation on both alleles of SCN9A (solid magenta), whereas two pairs of compound heterozygous mutations (blue-magenta and red-green) carry different mutations, which produce non-functional channels on the two alleles. Used with permission from (Dib-Hajj et al., 2007).

A. Representative DRG neuron expressing WT Na_v1.7 fires a single action potential in response to a 950 ms input of 100 pA from the RMP of this neuron (~ −50 mV). B. Representative DRG neuron expressing L858H fires 5 action potentials in response to a 100 pA current injection from RMP of this neuron (~−42 mV). C. For the entire population of DRG neurons studied, the firing frequency evoked by 50 pA current stimuli was 0.32±0.13 Hz after transfection with WT channels (n=20) and 2.06±0.79 Hz after transfection with L858H (n=24; p<0.05), and the firing frequency evoked by 100 pA stimuli was 0.89±0.28 Hz after transfection with WT and 3.37±1.13 Hz after transfection with L858H (p<0.05). D. Representative SCG neuron expressing WT Na_v1.7 fires 6 action potentials in response to a 950 ms input of 40 pA from RMP (~ −45 mV). E. Representative SCG neuron expressing L858H fires only 2 action potentials in response to a 100 pA current injection from RMP (~−40 mV). F. For the entire population of SCG neurons studied, the firing frequency evoked by 30 pA stimuli was 5.33±1.5 Hz after transfection with WT channels (n=14) and 0.63±0.01 Hz after transfection with L858H channels (n=15; p<0.05); firing frequency evoked by 40 pA stimuli was 7.05±1.86 Hz after transfection with WT and 1.96±1.0 Hz after transfection with L858H channels (p<0.05). G. Na_v1.8 sodium channel (green) has markedly depolarized voltage-dependence, compared to TTX-sensitive sodium channels, which include Na_v1.1, Na_v1.3, Na_v1.6 and Na_v1.7 (blue). H. Action potential overshoot in SCG neurons transfected with the L858H IEM mutant channel (gold trace) was significantly reduced compared to that in neurons transfected with wild type Na_v1.7 (blue trace). The action potential overshoot was restored to wild type levels when Na_v1.8 was co-expressed with L858H (green trace). Modified from (Rush et al., 2006).

A. The positions of mutations causing FHM1 in the α₁ subunit of CaV2.1 channels are illustrate by numbered circles, and the specific mutations are listed at the right. Mutations whose functional consequences on the single channel properties of recombinant human Ca_V2.1 channels have been studied are shown in color. (Hans et al., 1999; Tottene et al., 2002; Tottene et al., 2005 and unpublished). B. Single channel analysis (with 90 mM Ba²⁺) revealed an increase of the open probability, p_o, and a corresponding increase in the single channel Ca²⁺ influx as measured by the product of the unitary current, i, and p_o, over a broad voltage range, resulting in a shift to more negative voltages for activation of mutant channels. The thick black line represents the normalized whole cell current-voltage curve (5 mM Ba²⁺, shifted 26 mV toward more positive voltages to account for the difference in surface potential caused by 90 mM Ba²⁺; cf Tottene et al., 2002).