Yuwen Bai scite author profile

Background Bone tissue engineering is a new concept bringing hope for the repair of large bone defects, which remains a major clinical challenge. The formation of vascularized bone is key for bone tissue engineering. Growth of specialized blood vessels termed type H is associated with bone formation. In vivo and in vitro studies have shown that low level laser therapy (LLLT) promotes angiogenesis, fracture healing, and osteogenic differentiation of stem cells by increasing reactive oxygen species (ROS). However, whether LLLT can couple angiogenesis and osteogenesis, and the underlying mechanisms during bone formation, remains largely unknown. Methods Mouse bone marrow mesenchymal stem cells (BMSCs) combined with biphasic calcium phosphate (BCP) grafts were implanted into C57BL/6 mice to evaluate the effects of LLLT on the specialized vessel subtypes and bone regeneration in vivo. Furthermore, human BMSCs and human umbilical vein endothelial cells (HUVECs) were co-cultured in vitro. The effects of LLLT on cell proliferation, angiogenesis, and osteogenesis were assessed. Results LLLT promoted the formation of blood vessels, collagen fibers, and bone tissue and also increased CD31hiEMCNhi-expressing type H vessels in mBMSC/BCP grafts implanted in mice. LLLT significantly increased both osteogenesis and angiogenesis, as well as related gene expression (HIF-1α, VEGF, TGF-β) of grafts in vivo and of co-cultured BMSCs/HUVECs in vitro. An increase or decrease of ROS induced by H2O2 or Vitamin C, respectively, resulted in an increase or decrease of HIF-1α, and a subsequent increase and decrease of VEGF and TGF-β in the co-culture system. The ROS accumulation induced by LLLT in the co-culture system was significantly decreased when HIF-1α was inhibited with DMBPA and was followed by decreased expression of VEGF and TGF-β. Conclusions LLLT enhanced vascularized bone regeneration by coupling angiogenesis and osteogenesis. ROS/HIF-1α was necessary for these effects of LLLT. LLLT triggered a ROS-dependent increase of HIF-1α, VEGF, and TGF-β and resulted in subsequent formation of type H vessels and osteogenic differentiation of mesenchymal stem cells. As ROS also was a target of HIF-1α, there may be a positive feedback loop between ROS and HIF-1α, which further amplified HIF-1α induction via the LLLT-mediated ROS increase. This study provided new insight into the effects of LLLT on vascularization and bone regeneration in bone tissue engineering.

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Targeting Soluble Epoxide Hydrolase with TPPU Alleviates Irradiation‐Induced Hyposalivation in Mice via Preventing Apoptosis and Microcirculation Disturbance

Zhang

Bai

et al. 2020

Advanced Therapeutics

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IR irradiation-induced dysfunction of the salivary gland and hyposalivation are one of the main complications of radiotherapy treatment for malignant head and neck tumors, and its mechanisms are not fully understood. IR-induced microcirculation disturbance and apoptosis is one of the most important mechanisms. Most recent studies have focused on the regenerative effects of epoxyeicosatrienoic acids (EETs) through the process of increased angiogenesis. This study suggests that increasing endogenous EETs by the soluble epoxide hydrolase (sEH) inhibitor TPPU can reverse dysfunctional salivary glands and hyposalivation by improving the associated microenvironment and tissue regeneration. The findings suggest that TPPU alleviates hyposalivation and histological lesions, increases angiogenesis and reduces apoptosis of acinar cells significantly in IR-damaged mice. The results in vitro demonstrate that TPPU promotes the proliferation and inhibits apoptosis of human salivary gland (HSG) cells, and enhances the motility and angiogenesis of human umbilical vein endothelial cells (HUVECs). The results also suggest that TPPU-induced synergy and crosstalk between acinar cells and vascular endothelial cells might contribute to angiogenesis. Together, this study proves the feasibility of targeting sEH using TPPU to promote angiogenesis and reduce apoptosis, and also indicates the potential of sEH inhibitors for functional reconstruction of IR-induced salivary glands damage.

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Healing kinetics of diabetic wounds controlled with charge-biased hydrogel dressings

et al. 2019

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Lignin self-assembly and auto-adhesion for hydrophobic cellulose/lignin composite film fabrication

Wang

Xie

et al. 2023

International Journal of Biological Macromolecules

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CCL25/CCR9 interaction promotes the malignant behavior of salivary adenoid cystic carcinoma via the PI3K/AKT signaling pathway

Chai

Wen

Zhang

et al. 2022

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Background CC chemokine receptor 9 (CCR9), an organ-specific chemokine receptor, interacts with its exclusive ligand CCL25 to promote tumor proliferation and metastasis. However, the effect of CCR9 on salivary adenoid cystic carcinoma (SACC) malignant behavior remains unknown. This study aimed to investigate the specific molecular mechanism by which CCR9/CCL25 modulates malignant progression in SACC. Methods Immunohistochemistry staining and RT–qPCR analyses were performed to detect the correlation of CCR9 expression and tumor progression-associated markers in SACC. In vitro, SACC cell proliferation and apoptosis were evaluated using Cell Counting Kit-8 and colon formation, and cell migration and invasion were detected by wound healing and transwell assays. Vercirnon was used as an inhibitor of CCR9, and LY294002 was used as an inhibitor of the PI3K/AKT pathway in this study. Western blot and RT–qPCR assays were carried out to measure the downstream factors of the interaction of CCL25 and CCR9. The effect of CCL25 on the development of SACC in vivo was examined by a xenograft tumor model in nude mice following CCL25, Vercirnon and LY294002 treatment. Results CCR9 was highly expressed in SACC compared with adjacent salivary gland tissues, and its level was associated with tumor proliferation and metastases. CCL25 enhanced cell proliferation, migration, and invasion through its interaction with CCR9 and exerted an antiapoptotic effect on SACC cells. Targeting CCR9 via Vercirnon significantly reduced the phosphorylation level of AKT induced by CCL25. CCL25/CCR9 could activate its downstream factors through the PI3K/AKT signaling pathway, such as cyclin D1, BCL2 and SLUG, thus promoting SACC cell proliferation, antiapoptosis, invasion and metastasis. The in vivo data from the xenograft mouse models further proved that CCL25 administration promoted malignant tumor progression by activating the PI3K/AKT pathway. Conclusion The interaction of CCL25 and CCR9 promotes tumor growth and metastasis in SACC by activating the PI3K/AKT signaling pathway, offering a promising strategy for SACC treatment.

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Yuwen Bai

Low level laser therapy promotes bone regeneration by coupling angiogenesis and osteogenesis

Targeting Soluble Epoxide Hydrolase with TPPU Alleviates Irradiation‐Induced Hyposalivation in Mice via Preventing Apoptosis and Microcirculation Disturbance

Healing kinetics of diabetic wounds controlled with charge-biased hydrogel dressings

Lignin self-assembly and auto-adhesion for hydrophobic cellulose/lignin composite film fabrication

CCL25/CCR9 interaction promotes the malignant behavior of salivary adenoid cystic carcinoma via the PI3K/AKT signaling pathway

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