BACKGROUND: Congenital heart block (CHB) is an autoimmune disease that affects fetuses/infants born to mothers with anti-Ro/La antibodies (positive IgG). Although the hallmark of CHB is complete atrioventricular block, sinus bradycardia has been reported recently in animal models of CHB. Interestingly, knockout of the neuroendocrine alpha1D Ca channel in mice results in significant sinus bradycardia and atrioventricular block, a phenotype reminiscent to that seen in CHB. Here, we tested the hypothesis that the alpha1D Ca channel is a novel target for positive IgG. METHODS AND RESULTS: Reverse transcription-polymerase chain reaction, confocal indirect immunostaining, and Western blot data established the expression of the alpha1D Ca channel in the human fetal heart. The effect of positive IgG on alpha1D Ca current (I(Ca-L)) was characterized in heterologous expression systems (tsA201 cells and Xenopus oocytes) because of the unavailability of alpha1D-specific modulators. alpha1D I(Ca-L) activated at negative potentials (between -60 and -50 mV). Positive IgG inhibited alpha1D I(Ca-L) in both expression systems. This inhibition was rescued by a Ca channel activator, Bay K8644. No effect on alpha1D I(Ca-L) was observed with negative IgG and denatured positive IgG. Western blot data showed that positive IgG binds directly to alpha1D Ca channel protein. CONCLUSIONS: The data are the first to demonstrate (1) expression of the alpha1D Ca channel in human fetal heart, (2) inhibition of alpha1D I(Ca-L) by positive IgG, and (3) direct cross-reactivity of positive IgG with the alpha1D Ca channel protein. Given that alpha1D I(Ca-L) activates at voltages within the pacemaker's diastolic depolarization, inhibition of alpha1D I(Ca-L) in part may account for autoimmune-associated sinus bradycardia. In addition, Bay K8644 rescue of alpha1D I(Ca-L) inhibition opens new directions in the development of pharmacotherapeutic approaches in the management of CHB.
BACKGROUND:Congenital heart block (CHB) is an autoimmune disease that affects fetuses/infants born to mothers with anti-Ro/La antibodies (positive IgG). Although the hallmark of CHB is complete atrioventricular block, sinus bradycardia has been reported recently in animal models of CHB. Interestingly, knockout of the neuroendocrine alpha1D Ca channel in mice results in significant sinus bradycardia and atrioventricular block, a phenotype reminiscent to that seen in CHB. Here, we tested the hypothesis that the alpha1D Ca channel is a novel target for positive IgG. METHODS AND RESULTS: Reverse transcription-polymerase chain reaction, confocal indirect immunostaining, and Western blot data established the expression of the alpha1D Ca channel in the human fetal heart. The effect of positive IgG on alpha1D Ca current (I(Ca-L)) was characterized in heterologous expression systems (tsA201 cells and Xenopus oocytes) because of the unavailability of alpha1D-specific modulators. alpha1D I(Ca-L) activated at negative potentials (between -60 and -50 mV). Positive IgG inhibited alpha1D I(Ca-L) in both expression systems. This inhibition was rescued by a Ca channel activator, Bay K8644. No effect on alpha1D I(Ca-L) was observed with negative IgG and denatured positive IgG. Western blot data showed that positive IgG binds directly to alpha1D Ca channel protein. CONCLUSIONS: The data are the first to demonstrate (1) expression of the alpha1D Ca channel in human fetal heart, (2) inhibition of alpha1D I(Ca-L) by positive IgG, and (3) direct cross-reactivity of positive IgG with the alpha1D Ca channel protein. Given that alpha1D I(Ca-L) activates at voltages within the pacemaker's diastolic depolarization, inhibition of alpha1D I(Ca-L) in part may account for autoimmune-associated sinus bradycardia. In addition, Bay K8644 rescue of alpha1D I(Ca-L) inhibition opens new directions in the development of pharmacotherapeutic approaches in the management of CHB.
Authors: Carolina Llanos; Deborah M Friedman; Amit Saxena; Peter M Izmirly; Chung-E Tseng; Renata Dische; Rosanna G Abellar; Marc Halushka; Robert M Clancy; Jill P Buyon Journal: Rheumatology (Oxford) Date: 2012-02-03 Impact factor: 7.580
Authors: Pietro Mesirca; Isabelle Bidaud; François Briec; Stéphane Evain; Angelo G Torrente; Khai Le Quang; Anne-Laure Leoni; Matthias Baudot; Laurine Marger; Antony Chung You Chong; Joël Nargeot; Joerg Striessnig; Kevin Wickman; Flavien Charpentier; Matteo E Mangoni Journal: Proc Natl Acad Sci U S A Date: 2016-02-01 Impact factor: 11.205
Authors: Sara B Seidelmann; Emily Smith; Lakshman Subrahmanyan; Daniel Dykas; Maen D Abou Ziki; Bani Azari; Fady Hannah-Shmouni; Yuexin Jiang; Joseph G Akar; Mark Marieb; Daniel Jacoby; Allen E Bale; Richard P Lifton; Arya Mani Journal: Circ Cardiovasc Genet Date: 2017-02