<p>The single-pass transmembrane receptor guanylyl cyclase A (GC-A), also known as natriuretic peptide receptor A (NPR-A) or NPR1, regulates blood pressure through vasodilation and natriuresis, making it a promising therapeutic target for hypertension and heart failure. We describe two monoclonal antibodies, XX16 and REGN5308, that differentially activate GC-A. Using cryo-electron microscopy and molecular dynamics simulations, we reveal that XX16 stabilizes GC-A in an active conformation even without its ligand ANP, whereas REGN5308 requires ANP to fully promote receptor activation. Both antibodies increase ANP binding affinity to GC-A and enhance GC-A-mediated cGMP signaling, although XX16 exerts a stronger stabilizing influence on ATP and GTP binding. In a mouse model of obesity-induced hypertension, XX16 treatment significantly reduces blood pressure, underscoring its therapeutic potential. These findings outline the structural and functional basis of GC-A activation by antibody positive allosteric modulators, offering strategies for durable antihypertensive therapies and improved management of cardiovascular diseases.</p>

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Structural insights into single-pass transmembrane receptor GC-A activation by distinct antihypertensive antibodies

  • Shian Liu,
  • Onorina Manzo,
  • Jinan Wang,
  • Lan Zhu,
  • Fu Xiao,
  • Yi-Chen Su,
  • Devanshu Kurre,
  • Wei Liu,
  • Yinglong Miao,
  • Annarita Di Lorenzo,
  • Xin-Yun Huang

摘要

The single-pass transmembrane receptor guanylyl cyclase A (GC-A), also known as natriuretic peptide receptor A (NPR-A) or NPR1, regulates blood pressure through vasodilation and natriuresis, making it a promising therapeutic target for hypertension and heart failure. We describe two monoclonal antibodies, XX16 and REGN5308, that differentially activate GC-A. Using cryo-electron microscopy and molecular dynamics simulations, we reveal that XX16 stabilizes GC-A in an active conformation even without its ligand ANP, whereas REGN5308 requires ANP to fully promote receptor activation. Both antibodies increase ANP binding affinity to GC-A and enhance GC-A-mediated cGMP signaling, although XX16 exerts a stronger stabilizing influence on ATP and GTP binding. In a mouse model of obesity-induced hypertension, XX16 treatment significantly reduces blood pressure, underscoring its therapeutic potential. These findings outline the structural and functional basis of GC-A activation by antibody positive allosteric modulators, offering strategies for durable antihypertensive therapies and improved management of cardiovascular diseases.