Department of Cardiovascular Research, Shinshu University Graduate School of Medicine, Nagano, Japan.
Department of Cardiovascular Research, Shinshu University Graduate School of Medicine, Nagano, Japan.
Peptides. 2019 Jan;111:55-61. doi: 10.1016/j.peptides.2018.04.004. Epub 2018 Apr 22.
Adrenomedullin (AM), a member of the calcitonin peptide superfamily, is a peptide involved in both the pathogenesis of cardiovascular diseases and circulatory homeostasis. Its receptor, calcitonin receptor-like receptor (CLR), associates with an accessory protein, receptor activity-modifying protein (RAMP). Depending upon which the three RAMP isoforms (RAMP1-3) it interacts with, CLR functions as a receptor for AM or other calcitonin family peptides. AM knockout mice (-/-) died mid-gestation due to abnormalities in vascular development. We found that phenotypes similar to AM-/- were reproduced only in RAMP2-/- mice. We generated endothelial cell-specific RAMP2 knockout mice (E-RAMP2-/-) and found most E-RAMP2-/- mice died perinatally. In surviving adults, vasculitis and organ fibrosis occurred spontaneously. We next generated drug-inducible cardiac myocyte-specific RAMP2-/- (DI-C-RAMP2-/-) mice, which exhibited dilated cardiomyopathy-like heart failure with cardiac dilatation and myofibril disruption. DI-C-RAMP2-/- hearts also showed changes in mitochondrial structure and downregulation of mitochondria-related genes involved in oxidative phosphorylation and β-oxidation. In contrast to RAMP2-/- mice, RAMP3-/- mice were born with no major abnormalities. In adult RAMP3-/- mice, postnatal angiogenesis was normal, but drainage of subcutaneous lymphatic vessels was delayed. RAMP3-/- mice also showed more severe interstitial edema than in wild-type mice in a tail lymphedema model. These findings show that the AM-RAMP system is a key determinant of cardiovascular integrity and homeostasis from prenatal stages through adulthood. The AM-RAMP2 system mainly regulates vascular development and homeostasis, while the AM-RAMP3 system mainly regulates lymphatic function in adults. The AM-RAMP system may thus have therapeutic potential for the treatment of cardiovascular diseases.
肾上腺髓质素(AM),钙素肽超家族的一员,是一种参与心血管疾病发病机制和循环内稳态的肽。其受体,降钙素受体样受体(CLR),与辅助蛋白,受体活性修饰蛋白(RAMP)相关联。根据它与之相互作用的三种 RAMP 同工型(RAMP1-3)的不同,CLR 作为 AM 或其他降钙素家族肽的受体发挥作用。AM 敲除小鼠(-/-)由于血管发育异常而在中期妊娠死亡。我们发现,仅在 RAMP2-/-小鼠中重现了与 AM-/-相似的表型。我们生成了内皮细胞特异性 RAMP2 敲除小鼠(E-RAMP2-/-),并发现大多数 E-RAMP2-/-小鼠在围产期死亡。在存活的成年动物中,血管炎和器官纤维化自发发生。我们接下来生成了可诱导的心肌细胞特异性 RAMP2 敲除(DI-C-RAMP2-/-)小鼠,其表现出扩张型心肌病样心力衰竭,伴有心脏扩张和肌原纤维破坏。DI-C-RAMP2-/-心脏还表现出线粒体结构的变化和涉及氧化磷酸化和β-氧化的线粒体相关基因的下调。与 RAMP2-/-小鼠不同,RAMP3-/-小鼠出生时没有重大异常。在成年 RAMP3-/-小鼠中,出生后血管生成正常,但皮下淋巴管引流延迟。RAMP3-/-小鼠在尾淋巴水肿模型中也表现出比野生型小鼠更严重的间质水肿。这些发现表明,AM-RAMP 系统是从产前阶段到成年期心血管完整性和内稳态的关键决定因素。AM-RAMP2 系统主要调节血管发育和内稳态,而 AM-RAMP3 系统主要调节成年期的淋巴管功能。因此,AM-RAMP 系统可能具有治疗心血管疾病的治疗潜力。
