Recurrent gain of function mutation in calcium channel CACNA1H causes early-onset hypertension with primary aldosteronism
Copyright policy )Recurrent gain of function mutation in calcium channel CACNA1H causes early-onset hypertension with primary aldosteronism
Many Mendelian traits are likely unrecognized owing to absence of traditional segregation patterns in families due to causation by de novo mutations, incomplete penetrance, and/or variable expressivity. Genome-level sequencing can overcome these complications. Extreme childhood phenotypes are promising candidates for new Mendelian traits. One example is early onset hypertension, a rare form of a global cause of morbidity and mortality. We performed exome sequencing of 40 unrelated subjects with hypertension due to primary aldosteronism by age 10. Five subjects (12.5%) shared the identical, previously unidentified, heterozygous CACNA1HM1549V mutation. Two mutations were demonstrated to be de novo events, and all mutations occurred independently. CACNA1H encodes a voltage-gated calcium channel (CaV3.2) expressed in adrenal glomerulosa. CACNA1HM1549V showed drastically impaired channel inactivation and activation at more hyperpolarized potentials, producing increased intracellular Ca2+, the signal for aldosterone production. This mutation explains disease pathogenesis and provides new insight into mechanisms mediating aldosterone production and hypertension.
- Defense Health Agency United States
- Connecticut Children's Medical Center United States
- Howard Hughes Medical Institute United States
- Madigan Army Medical Center United States
- New York University Langone Medical Center United States
Adult, Male, Heterozygote, CaV3.2, Adolescent, Genotype, QH301-705.5, Science, Gene Expression, Membrane Potentials, Calcium Channels, T-Type, Hyperaldosteronism, Humans, Amino Acid Sequence, Calcium Signaling, Biology (General), Age of Onset, Child, Aldosterone, adrenal gland, incomplete penetrance, Q, R, Infant, de novo mutation, Genes and Chromosomes, Child, Preschool, Hypertension, Medicine, Calcium, Female, voltage-gated calcium channel, exome sequencing, info:eu-repo/classification/ddc/500
Adult, Male, Heterozygote, CaV3.2, Adolescent, Genotype, QH301-705.5, Science, Gene Expression, Membrane Potentials, Calcium Channels, T-Type, Hyperaldosteronism, Humans, Amino Acid Sequence, Calcium Signaling, Biology (General), Age of Onset, Child, Aldosterone, adrenal gland, incomplete penetrance, Q, R, Infant, de novo mutation, Genes and Chromosomes, Child, Preschool, Hypertension, Medicine, Calcium, Female, voltage-gated calcium channel, exome sequencing, info:eu-repo/classification/ddc/500
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