Bai Tao Sun scite author profile

Collagen triple helix repeat containing 1 (CTHRC1) is associated with bone metabolism. Alveolar bone has an ability to rapidly remodel itself to adapt its biomechanical environment and function. However, whether CTHRC1 is expressed in alveolar bone tissue and the role of CTHRC1 in alveolar bone remodeling remain unclear. We used orthodontic tooth movement (OTM) rat model to study the effects of CHTRC1 in alveolar bone remodeling in vivo. We found that CTHRC1 was expressed in normal physiological condition of osteocytes, bone matrix, and periodontal ligament cells in rat. During the OTM, the expression of CTHRC1, Runx2 and TAZ were increased. We further studied the effects of CTHRC1 on osteogenic differentiation of human periodontal ligament stem cells in vitro. CTHRC1 can positively regulate the expression of TAZ and osteogenic differentiation markers like Col1, ALP, Runx2 and OCN. Overexpression of CHTRC1 increased osteogenic differentiation of PDLSCs, which could be abolished by TAZ siRNA. Our results suggest that CTHRC1 plays an important role in alveolar bone remodeling and osteogenic differentiation of PDLSCs.

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Expression pattern of YAP and TAZ during orthodontic tooth movement in rats

Sun

Yang

et al. 2018

J Mol Hist

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Orthodontic tooth movement (OTM) is a periodontal tissue remodeling and regeneration process that is caused by bio-mechanical stimulation. This mechanical-chemical transduction process involves a variety of biological factors and signaling pathways. It has been shown that the Hippo-YAP/TAZ signaling pathway plays a pivotal role in the mechanical-chemical signal transduction process. Moreover, YAP and TAZ proteins interact with RUNX family proteins via different mechanisms. To explore the regulation of the Hippo signaling pathway during periodontal tissue remodeling, we examined the upper first molar OTM model in rats. We examined YAP, TAZ and RUNX2 expression at 12 hours, 24 hours, 2 days (2d), 4 days, 7 days (7d) and 14 days (14d) after force application. Haemotoxylin and eosin staining, immunohistochemical staining and western blot analysis were used to examine the expression level and localization of these proteins. We found that YAP, TAZ and RUNX2 expression started increasing at 2d, YAP and TAZ expression was proportional to the orthodontic force applied until peaking at 7d, and at 14d the expression started to decrease. YAP and TAZ were observed in osteocytes, bone matrix and periodontal ligament cells during OTM. Furthermore, using double labeling immunofluorescence staining, we found that the increase in TAZ expression was associated with RUNX2 expression, however, YAP and RUNX2 showed different expression patterns. These results suggest that the Hippo-YAP/TAZ signaling pathway participates in periodontal tissue remodeling through various mechanisms; TAZ may adjust bone tissue remodeling through RUNX2 during OTM, while YAP may regulate periodontal cell proliferation and differentiation.

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MCD1 Associates with FtsZ Filaments via the Membrane-Tethering Protein ARC6 to Guide Chloroplast Division

et al. 2018

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Chloroplasts replicate by binary fission, a process driven by ring-like dynamic division machinery at mid-chloroplast. In , the first molecular assembly of this machinery, the Z-ring, forms via the association of FtsZ1 and FtsZ2 heteropolymers with the inner envelope membrane through the membrane-tethering protein ACCUMULATION AND REPLICATION OF CHLOROPLASTS6 (ARC6). Spatial control of Z-ring assembly ensures the correct placement of the division machinery and, therefore, symmetric chloroplast division. The plant-specific protein MULTIPLE CHLOROPLAST DIVISION SITE1 (MCD1) plays a role in Z-ring positioning and chloroplast division site placement, but its mechanism of action is unknown. Here, we provide evidence that MCD1 is a bitopic inner membrane protein whose C terminus faces the chloroplast stroma. Interaction analysis showed that MCD1 and ARC6 directly interact in the stroma and that MCD1 binds to FtsZ2 in an ARC6-dependent manner. These results are consistent with the in vivo observation that ARC6 influences the localization of MCD1 to membrane-tethered FtsZ filaments. Additionally, we found that MCD1 is required for the regulation of Z-ring positioning by ARC3 and MinE1, two components of the chloroplast Min (minicell) system, which negatively regulates Z-ring placement. Together, our findings indicate that MCD1 is part of the chloroplast Min system that recognizes membrane-tethered FtsZ filaments during chloroplast division-ring positioning.

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Bai Tao Sun

A Multicenter Application and Evaluation of the Oxford Classification of IgA Nephropathy in Adult Chinese Patients

CTHRC1 promotes osteogenic differentiation of periodontal ligament stem cells by regulating TAZ

Expression pattern of YAP and TAZ during orthodontic tooth movement in rats

MCD1 Associates with FtsZ Filaments via the Membrane-Tethering Protein ARC6 to Guide Chloroplast Division

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