Hideki Chusho scite author profile

Longitudinal bone growth is determined by endochondral ossification that occurs as chondrocytes in the cartilaginous growth plate undergo proliferation, hypertrophy, cell death, and osteoblastic replacement. The natriuretic peptide family consists of three structurally related endogenous ligands, atrial, brain, and C-type natriuretic peptides (ANP, BNP, and CNP), and is thought to be involved in a variety of homeostatic processes. To investigate the physiological significance of CNP in vivo, we generated mice with targeted disruption of CNP (Nppc ؊/؊ mice). The Nppc ؊/؊ mice show severe dwarfism as a result of impaired endochondral ossification. They are all viable perinatally, but less than half can survive during postnatal development. The skeletal phenotypes are histologically similar to those seen in patients with achondroplasia, the most common genetic form of human dwarfism. Targeted expression of CNP in the growth plate chondrocytes can rescue the skeletal defect of Nppc ؊/؊ mice and allow their prolonged survival. This study demonstrates that CNP acts locally as a positive regulator of endochondral ossification in vivo and suggests its pathophysiological and therapeutic implication in some forms of skeletal dysplasia.

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Overexpression of CNP in chondrocytes rescues achondroplasia through a MAPK-dependent pathway

Yasoda

Komatsu

Chusho

et al. 2003

Nat Med

363

335

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Achondroplasia is the most common genetic form of human dwarfism, for which there is presently no effective therapy. C-type natriuretic peptide (CNP) is a newly identified molecule that regulates endochondral bone growth through GC-B, a subtype of particulate guanylyl cyclase. Here we show that targeted overexpression of CNP in chondrocytes counteracts dwarfism in a mouse model of achondroplasia with activated fibroblast growth factor receptor 3 (FGFR-3) in the cartilage. CNP prevented the shortening of achondroplastic bones by correcting the decreased extracellular matrix synthesis in the growth plate through inhibition of the MAPK pathway of FGF signaling. CNP had no effect on the STAT-1 pathway of FGF signaling that mediates the decreased proliferation and the delayed differentiation of achondroplastic chondrocytes. These results demonstrate that activation of the CNP-GC-B system in endochondral bone formation constitutes a new therapeutic strategy for human achondroplasia.

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Cardiac fibrosis in mice lacking brain natriuretic peptide

Tamura

Ogawa

Chusho

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

558

330

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Cardiac fibrosis, defined as a proliferation of interstitial fibroblasts and biosynthesis of extracellular matrix components in the ventricles of the heart, is a consequence of remodeling processes initiated by pathologic events associated with a variety of cardiovascular disorders, which leads to abnormal myocardial stiffness and, ultimately, ventricular dysfunction. Brain natriuretic peptide (BNP) is a cardiac hormone produced primarily by ventricular myocytes, and its plasma concentrations are markedly elevated in patients with congestive heart failure and acute myocardial infarction. However, its precise functional significance has been undefined. In this paper, we report the generation of mice with targeted disruption of BNP (Nppb ؊/؊ mice). We observed multifocal fibrotic lesions in the ventricles from Nppb ؊/؊ mice. No signs of systemic hypertension and ventricular hypertrophy are noted in Nppb ؊/؊ mice. In response to ventricular pressure overload, focal fibrotic lesions are increased in size and number in Nppb ؊/؊ mice, whereas no focal fibrotic changes are found in wild-type littermates (Nppb ؉/؉ mice). This study establishes BNP as a cardiomyocytederived antifibrotic factor in vivo and provides evidence for its role as a local regulator of ventricular remodeling.

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Hideki Chusho

Dwarfism and early death in mice lacking C-type natriuretic peptide

Overexpression of CNP in chondrocytes rescues achondroplasia through a MAPK-dependent pathway

Cardiac fibrosis in mice lacking brain natriuretic peptide

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