基质微环境和血管稳态

心血管疾病是中国及全球人口死亡的主要原因,且患病率持续上升.心血管疾病的发生发展与血管稳态失衡和病理性血管重塑密切相关.近年来的研究发现,细胞外基质与血管壁细胞的交互作用参与血管稳态的调控,深入了解基质微环境对血管稳态及血管重构的调控机制,发掘血管重构相关的心血管疾病的治疗药物有重要意义.本课题组及合作者在国家自然科学基金“血管稳态与重构的调控机制”重大研究计划的资助下开展了一系列研究工作,对在生理和病理条件下基质蛋白对血管结构和功能的调控作用进行了深入探索.本文围绕基质微环境对血管稳态与重构的作用,重点对细胞外基质蛋白调控血管稳态的机制进行综述,以期为高血压、动脉粥样硬化、血管再狭窄、血管钙化和动脉瘤等心血管疾病的防治提供新的思路和理论指导.

不同来源骨髓基质细胞微环境对Jurkat细胞生物学特性的影响

目的观察正常及急性淋巴细胞白血病骨髓基质细胞微环境对Jurkat细胞生物学特性的影响。方法收集与正常及急性淋巴细胞白血病骨髓基质细胞微环境共培养10d的Jurkat细胞,观测Jurkat细胞增殖、细胞周期分布、凋亡、分化及DNR摄药量的改变。结果白血病骨髓基质细胞微环境对Jurkat细胞黏附、趋化及降低摄药量的作用强于正常骨髓基质细胞微环境;抑制增殖及促分化作用弱于正常骨髓基质细胞微环境。白血病骨髓基质细胞微环境抑制Jurkat细胞凋亡,而正常骨髓基质细胞微环境促进其凋亡。结论正常骨髓源基质细胞微环境较白血病源骨髓基质细胞微环境对Jurkat细胞具有更强的促进凋亡、分化及抑制增殖的作用,增加Jurkat细胞对DNR的敏感性。

肿瘤微环境与口腔癌生物学行为及治疗

口腔鳞状细胞癌(OSCC)是口腔发病率最高的侵袭性肿瘤,晚期肿瘤预后差。肿瘤微环境(TME)中多种因素可以重编程肿瘤,协同影响肿瘤的发生、生长、侵袭、转移和治疗。对TME特征的全面了解,不仅可以深入理解OSCC的生物学特征动态变化,也为其治疗提供新的干预手段。为此,我们将TME分为生化微环境、细胞外基质微环境和细胞微环境,重点阐述其中氧化应激、缺氧、酸性微环境、细胞外基质及非肿瘤细胞微环境特征等方面对OSCC生物学行为和治疗的影响,并展望了基于TME特征的OSCC联合治疗策略的应用前景。

Mesenchymal stromal cells' role in tumor microenvironment:involvement of signaling pathways

Mesenchymal stromal cells(MSCs) are adult multipotent stem cells residing as pericytes in various tissues and organs where they can differentiate into specialized cells to replace dying cells and damaged tissues. These cells are commonly found at injury sites and in tumors that are known to behave like "wounds that do not heal." In this article, we discuss the mechanisms of MSCs in migrating, homing, and repairing injured tissues. We also review a number of reports showing that tumor microenvironment triggers plasticity mechanisms in MSCs to induce malignant neoplastic tissue formation, maintenance, and chemoresistance, as well as tumor growth. The antitumor properties and therapeutic potential of MSCs are also discussed.

Effect of gamma irradiation on nuclear factor-kappa B in cultured bone marrow stromal cells

Objective: To explore the effect of gamma irradiation on nuclear factor-kappa B in cultured bone marrow stromal cells. Methods: Immunocytochemistry, Western blot and electrophoretic mobility shift assay (EMSA) were used. Results: The expression of NF-kB in cultured mouse bone marrow stromal cells (BM-SCs) on the level of protein was elevated after exposure to 60Co in the dosage of 8. 0 Gy with the use of im-munocytochemistry and Western blot. The activity of nuclear factor-kappa B in cultured BMSCs was significantly increased after exposure to gamma irradiation by using EMSA. The activity peak was at the 4th h after irradiation. Conclusion: Our results suggest that the activation of nuclear factor-kappa B in the BMSCs after irradiation may be involved in the protection of BMSCs against apoptosis and in the recovery of hematopoiesis after radiation.

TRPV4和PIEZOs介导软骨细胞力转导的研究进展

软骨细胞转导机械力信号的力转导过程在关节软骨生长、发育和骨性关节炎(OA)过程中发挥着重要作用。在关节软骨中,细胞外基质代谢活动调控着软骨细胞的基质力学微环境。因此,理解软骨细胞感受基质力学微环境的力转导机制能够通过精准靶向机械力感受器有效建立OA治疗策略。近十几年,大量研究证实力敏感离子通道TRPV4和PIEZOs在关节软骨细胞中大量表达,而且介导机械力相关的软骨重塑和损伤响应。本文综述了软骨细胞感受基质力学微环境过程中TRPV4和PIEZOs介导的力感受和力响应方面的相关研究,同时也介绍了TRPV4和PIEZOs介导炎症信号调控骨性关节炎方面的进展。本文为理解关节软骨发病机制和寻求可能药物靶点,以及设计细胞诱导性生物材料提供了新思路。