eLife (Apr 2015)

Recurrent gain of function mutation in calcium channel CACNA1H causes early-onset hypertension with primary aldosteronism

  • Ute I Scholl,
  • Gabriel Stölting,
  • Carol Nelson-Williams,
  • Alfred A Vichot,
  • Murim Choi,
  • Erin Loring,
  • Manju L Prasad,
  • Gerald Goh,
  • Tobias Carling,
  • C Christofer Juhlin,
  • Ivo Quack,
  • Lars C Rump,
  • Anne Thiel,
  • Marc Lande,
  • Britney G Frazier,
  • Majid Rasoulpour,
  • David L Bowlin,
  • Christine B Sethna,
  • Howard Trachtman,
  • Christoph Fahlke,
  • Richard P Lifton

DOI
https://doi.org/10.7554/eLife.06315
Journal volume & issue
Vol. 4

Abstract

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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.

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