Syntaxin 4a Regulates Matrix Vesicle‐Mediated Bone Matrix Production by Osteoblasts

• Published in: Journal of bone and mineral research Vol. 32; no. 3; pp. 440 - 448
• Main Authors: Kawai, Shinji, Michikami, Ikumi, Kitagaki, Jirouta, Hata, Kenji, Kiyonari, Hiroshi, Abe, Takaya, Amano, Atsuo, Wakisaka, Satoshi
• Format: Journal Article
• Language: English
• Published: United States Wiley Subscription Services, Inc 01.03.2017
• Subjects: Animals; Animals, Newborn; Bone Density; Bone matrix; Bone Matrix - metabolism; BONE MATRIX PRODUCTION; Bone mineral density; BONE MINERALIZATION; Calcification, Physiologic; Cancellous bone; Computed tomography; Cytoplasmic Vesicles - metabolism; EXOCYTOSIS; Extracellular matrix; Femur; Insulin-like growth factors; Localization; Matrix vesicles; MEMBRANE TRAFFICKING; Mice, Knockout; Mineralization; Molecular modelling; Osteoblasts; Osteoblasts - metabolism; Phenotypes; Qa-SNARE Proteins - genetics; Qa-SNARE Proteins - metabolism; Secretion; Skull - cytology; SNAP receptors; SNARE; SYNTAXIN; Tibia - diagnostic imaging; Tomography; X-Ray Microtomography; BONE MINERALIZATION; EXOCYTOSIS; SYNTAXIN; MEMBRANE TRAFFICKING; BONE MATRIX PRODUCTION; SNARE
• ISSN: 0884-0431; 1523-4681
• DOI: 10.1002/jbmr.3056

ABSTRACT Osteoblasts secrete matrix vesicles and proteins to bone surfaces, but the molecular mechanisms of this secretion system remain unclear. The present findings reveal the roles of important genes in osteoblasts involved in regulation of extracellular matrix secretion. We especially focused on “soluble N‐ethylmaleimide‐sensitive factor (NSF) attachment protein receptor” (SNARE) genes and identified notable Syntaxin 4a (Stx4a) expression on the basolateral side of the plasma membrane of osteoblasts. Furthermore, Stx4a overexpression was found to increase mineralization by osteoblastic cells, whereas Stx4a knockdown reduced levels of mineralization. Also, BMP‐4 and IGF‐1 induced the localization of Stx4a to the basolateral side of the cells. To examine the function of Stx4a in osteoblasts, we generated osteoblast‐specific Stx4a conditional knockout mice, which demonstrated an osteopenic phenotype due to reduced matrix secretion. Bone mineral density, shown by peripheral quantitative computed tomography (pQCT), was reduced in the femur metaphyseal and diaphyseal regions of Stx4a osteoblast‐specific deficient mice, whereas bone parameters, shown by micro–computed tomography (μCT) and bone histomorphometric analysis, were also decreased in trabecular bone. In addition, primary calvarial cells from those mice showed decreased mineralization and lower secretion of matrix vesicles. Our findings indicate that Stx4a plays a critical role in bone matrix production by osteoblasts. © 2016 American Society for Bone and Mineral Research.