Proprotein convertase furin regulates osteocalcin and bone endocrine function
Omar Al Rifai, … , Nabil G. Seidah, Mathieu Ferron
Omar Al Rifai, … , Nabil G. Seidah, Mathieu Ferron
Published October 3, 2017
Citation Information: J Clin Invest. 2017;127(11):4104-4117. https://doi.org/10.1172/JCI93437.
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Research Article Bone biology Metabolism

Proprotein convertase furin regulates osteocalcin and bone endocrine function

Abstract

Osteocalcin (OCN) is an osteoblast-derived hormone that increases energy expenditure, insulin sensitivity, insulin secretion, and glucose tolerance. The cDNA sequence of OCN predicts that, like many other peptide hormones, OCN is first synthesized as a prohormone (pro-OCN). The importance of pro-OCN maturation in regulating OCN and the identity of the endopeptidase responsible for pro-OCN cleavage in osteoblasts are still unknown. Here, we show that the proprotein convertase furin is responsible for pro-OCN maturation in vitro and in vivo. Using pharmacological and genetic experiments, we also determined that furin-mediated pro-OCN cleavage occurred independently of its γ-carboxylation, a posttranslational modification that is known to hamper OCN endocrine action. However, because pro-OCN is not efficiently decarboxylated and activated during bone resorption, inactivation of furin in osteoblasts in mice resulted in decreased circulating levels of undercarboxylated OCN, impaired glucose tolerance, and reduced energy expenditure. Furthermore, we show that Furin deletion in osteoblasts reduced appetite, a function not modulated by OCN, thus suggesting that osteoblasts may secrete additional hormones that regulate different aspects of energy metabolism. Accordingly, the metabolic defects of the mice lacking furin in osteoblasts became more apparent under pair-feeding conditions. These findings identify furin as an important regulator of bone endocrine function.

Authors

Omar Al Rifai, Jacqueline Chow, Julie Lacombe, Catherine Julien, Denis Faubert, Delia Susan-Resiga, Rachid Essalmani, John W.M. Creemers, Nabil G. Seidah, Mathieu Ferron

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Figure 2

Furin cleaves pro-OCN in vitro.

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Furin cleaves pro-OCN in vitro. (A) Relative mRNA expression levels of k...
(A) Relative mRNA expression levels of kexin-like PCs in mouse nondifferentiated and differentiated osteoblasts analyzed by qPCR. Copy numbers were calculated from a standard curve prepared from mouse genomic DNA, and samples were normalized using Actb as a reference gene (n = 3). (B) In vitro processing assay of GST–pro-OCN incubated for 0 or 15 minutes with equal numbers of enzymatic units of furin, PC5A, PC7, and PACE4; released OCN was assessed by Western blotting, and the relative ratio of OCN/GST–pro-OCN from 3 independent experiments was quantified (graph). (C) Time course for processing of GST–pro-OCN by furin, as assessed by Western blotting. (D) In vitro processing assay of GST–pro-OCN with increasing amounts of furin for 60 minutes, as assessed by Western blotting. (E and F) In vitro processing assay of GST–pro-OCN and the R48A/R49A OCN mutant (GST-RR/AA–pro-OCN) by furin for 30 minutes (E) or for various incubation durations (F), as assessed by Western blotting. In BF, GST-OCN and mature OCN proteins are shown as separate Western blot exposures due to the reduced transfer efficiency of mature OCN (5 kDa) compared with that of GST–pro-OCN (36 kDa). (G) Western blot analyses of furin protein expression in the indicated tissues and cell lines. Osb calv, calvaria-derived osteoblasts; Osb BM, bone marrow–derived osteoblasts; HEK293 + furin, HEK293 cells transfected with human full-length Furin cDNA. Results represent the mean ± SEM.