BACKGROUND: Myotonia and periodic paralysis caused by sodium channel mutations show variable responses to the anti-myotonic drug mexiletine. OBJECTIVE: To investigate whether variability among sodium channel mutants results from differences in drug binding affinity or in channel gating. METHODS: Whole-cell sodium currents (I(Na)) were recorded in tsA201 cells expressing human wild-type (WT) and mutant skeletal muscle sodium channels (A1156T, hyperkalemic periodic paralysis; R1448C, paramyotonia congenita; G1306E, potassium-aggravated myotonia). RESULTS: At a holding potential (hp) of -120 mV, mexiletine produced a tonic (TB, 0.33 Hz) and a use-dependent (UDB, 10 Hz) block of peak I(Na) with a potency following the order rank R1448C > WT approximately equal A1156T > G1306E. Yet, when assayed from an hp of -180 mV, TB and UDB by mexiletine were similar for the four channels. The different midpoints of channel availability curves found for the four channels track the half-maximum inhibitory value (IC50) measured at -120 mV. Thus differences in the partitioning of channels between the closed and fast-inactivated states underlie the different IC50 measured at a given potential. The mexiletine-derivative, Me7 (alpha-[(2-methylphenoxy)methyl]-benzenemethanamine), behaved similarly but was approximately 5 times more potent than mexiletine. Interestingly, the higher drug concentrations ameliorated the abnormally slower decay rate of myotonic I(Na). CONCLUSIONS: These results explain the basis of the apparent difference in block of mutant sodium channels by mexiletine and Me7, opening the way to a more rationale drug use and to design more potent drugs able to correct specifically the biophysical defect of the mutation in individual myotonic patients.
BACKGROUND: Myotonia and periodic paralysis caused by sodium channel mutations show variable responses to the anti-myotonic drug mexiletine. OBJECTIVE: To investigate whether variability among sodium channel mutants results from differences in drug binding affinity or in channel gating. METHODS: Whole-cell sodium currents (I(Na)) were recorded in tsA201 cells expressing human wild-type (WT) and mutant skeletal muscle sodium channels (A1156T, hyperkalemic periodic paralysis; R1448C, paramyotonia congenita; G1306E, potassium-aggravated myotonia). RESULTS: At a holding potential (hp) of -120 mV, mexiletine produced a tonic (TB, 0.33 Hz) and a use-dependent (UDB, 10 Hz) block of peak I(Na) with a potency following the order rank R1448C > WT approximately equal A1156T > G1306E. Yet, when assayed from an hp of -180 mV, TB and UDB by mexiletine were similar for the four channels. The different midpoints of channel availability curves found for the four channels track the half-maximum inhibitory value (IC50) measured at -120 mV. Thus differences in the partitioning of channels between the closed and fast-inactivated states underlie the different IC50 measured at a given potential. The mexiletine-derivative, Me7 (alpha-[(2-methylphenoxy)methyl]-benzenemethanamine), behaved similarly but was approximately 5 times more potent than mexiletine. Interestingly, the higher drug concentrations ameliorated the abnormally slower decay rate of myotonic I(Na). CONCLUSIONS: These results explain the basis of the apparent difference in block of mutant sodium channels by mexiletine and Me7, opening the way to a more rationale drug use and to design more potent drugs able to correct specifically the biophysical defect of the mutation in individual myotonic patients.
Authors: J-F Desaphy; A Dipalma; T Costanza; C Bruno; G Lentini; C Franchini; Al George; D Conte Camerino Journal: Br J Pharmacol Date: 2010-07 Impact factor: 8.739
Authors: S Pierno; G M Camerino; V Cippone; J-F Rolland; J-F Desaphy; A De Luca; A Liantonio; G Bianco; J D Kunic; A L George; D Conte Camerino Journal: Br J Pharmacol Date: 2009-02-13 Impact factor: 8.739
Authors: Jean-François Desaphy; Annamaria De Luca; Maria Paola Didonna; Alfred L George; Diana Camerino Conte; Annamaria D E Luca Journal: J Physiol Date: 2003-11-07 Impact factor: 5.182
Authors: J-F Rolland; D Tricarico; A Laghezza; F Loiodice; V Tortorella; D Conte Camerino Journal: Br J Pharmacol Date: 2006-10-23 Impact factor: 8.739
Authors: Jeffrey M Statland; Brian N Bundy; Yunxia Wang; Dipa Raja Rayan; Jaya R Trivedi; Valeria A Sansone; Mohammad K Salajegheh; Shannon L Venance; Emma Ciafaloni; Emma Matthews; Giovanni Meola; Laura Herbelin; Robert C Griggs; Richard J Barohn; Michael G Hanna Journal: JAMA Date: 2012-10-03 Impact factor: 56.272