Junzheng Peng scite author profile

Background— Lysosomal carboxypeptidase, cathepsin A (protective protein, CathA), is a component of the lysosomal multienzyme complex along with β-galactosidase (GAL) and sialidase Neu1, where it activates Neu1 and protects GAL and Neu1 against the rapid proteolytic degradation. On the cell surface, CathA, Neu1, and the enzymatically inactive splice variant of GAL form the elastin-binding protein complex. In humans, genetic defects of CathA cause galactosialidosis, a metabolic disease characterized by combined deficiency of CathA, GAL, and Neu1 and a lysosomal storage of sialylated glycoconjugates. However, several phenotypic features of galactosialidosis patients, including hypertension and cardiomyopathies, cannot be explained by the lysosomal storage. These observations suggest that CathA may be involved in hemodynamic functions that go beyond its protective activity in the lysosome. Methods and Results— We generated a gene-targeted mouse in which the active CathA was replaced with a mutant enzyme carrying a Ser190Ala substitution in the active site. These animals expressed physiological amounts of catalytically inactive CathA protein, capable of forming lysosomal multienzyme complex, and did not develop secondary deficiency of Neu1 and GAL. Conversely, the mice showed a reduced degradation rate of the vasoconstrictor peptide, endothelin-1, and significantly increased arterial blood pressure. CathA-deficient mice also displayed scarcity of elastic fibers in lungs, aortic adventitia, and skin. Conclusions— Our results provide the first evidence that CathA acts in vivo as an endothelin-1–inactivating enzyme and strongly confirm a crucial role of this enzyme in effective elastic fiber formation.

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Receptor Tyrosine Kinase Ephb6 Regulates Vascular Smooth Muscle Contractility and Modulates Blood Pressure in Concert with Sex Hormones

Luo

Tremblay

et al. 2012

Journal of Biological Chemistry

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Background: Eph kinases constitute the largest receptor tyrosine kinase family, and there is no knowledge about their function in blood pressure regulation. Results: Ephb6 regulates vascular smooth muscle cell contraction, and its knock-out resulted in increased blood pressure in castrated male mice. Conclusion: Ephb6 and its ligands can regulate vessel tone and blood pressure. Significance: We have identified a new group of molecules capable of regulating blood pressure.

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Junzheng Peng

Enzymatic Activity of Lysosomal Carboxypeptidase (Cathepsin) A Is Required for Proper Elastic Fiber Formation and Inactivation of Endothelin-1

Receptor Tyrosine Kinase Ephb6 Regulates Vascular Smooth Muscle Contractility and Modulates Blood Pressure in Concert with Sex Hormones

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