1.Expression of myocardial heat shock protein under stress state
Lili WAN ; Minghua HU ; Shaorong SHI ; Changchu WU
Chinese Journal of Tissue Engineering Research 2014;(38):6216-6221
BACKGROUND:Heat shock proteins have unique biological characteristics, and exploration of such proteins expressed in the myocardium under exercise stress has important value.
OBJECTIVE:To investigate the studies about the expression of myocardial heat shock proteins under stress condition, and analyze the expression characteristics of myocardial heat shock proteins under different stress conditions.
METHODA computer-based online retrieval was performed to find articles about the production, classification and function of heat shock proteins, as wel as the expression of myocardial heat shock proteins published from January 1991 to January 2014 in PubMed database and Wanfang databases. The key words were“heat shock protein;myocardium;exercise stress”in English and Chinese. Final y 48 relevant articles were summarized.
RESULTS AND CONCLUSION:Heat shock proteins have the immune synergy effect. Researches show that, exercise training triggers the expression of myocardial heat shock protein. Acute exercise stress leads to a variety of physiological and biochemical changes, accordingly myocardial heat shock protein wil make the corresponding expression and protect myocardial cells. Low-intensity exercise can increase the expression level of heat shock protein 72, and inhibit cardiomyocyte apoptosis. High-intensity exercise reduces the expression of heat shock protein 72, which can not effectively inhibit cardiomyocyte apoptosis and is not conducive to the myocardial protective effect. The expression of heat shock protein under moderate-intensity exercise remains controversial. Exercise-induced expression of heat shock protein may have protection effect against damage induced by exercise, moderate exercise activities play an important role in enhancing myocardial function and preventing myocardial injury.
2.Diagnosis and treatment of primary intraspinal paraganglioma
Shaorong HU ; Peng PENG ; Feng CHEN ; Xiangyang WANG ; Mengqi XU ; Jingwen LI
Chinese Journal of Postgraduates of Medicine 2023;46(9):844-849
Objective:To provide a basis for its diagnosis and treatment for clinicians by analyzing the clinical manifestations, imaging features and surgical efficacy of primary intraspinal paraganglioma.Methods:The clinical data of 6 patients with intraspinal paraganglioma from April 2014 to January 2021 in Xiangyang Central Hospital were retrospectively analyzed, and all patients were treated with microsurgery via a posterior median approach.Results:All 6 patients achieved total tumor resection, and the postoperative pathological diagnosis was paraganglioma. Among them, 1 patient′s tumor located inside and outside the cervical spinal canal without destruction of the vertebral body; 1 patient′s tumor located lumbosacral canal with destruction of the vertebral body; the others 4 patients′ tumor located within the lumbar spinal canal. The patients were followed up for 12 to 120 months after surgery, with a median follow-up time of 61.5 months. MRI examination was performed at the last follow-up, and no recurrence was observed. The patients underwent MRI examination at the last follow-up, and none of the patients recurred.Conclusions:The intraspinal paraganglioma is a rare tumor, and nonfunctional benign tumors are predominant. Its clinical and imaging manifestations lack specificity and are often difficult to diagnose before surgery. Surgical resection, especially complete resection, has a better prognosis, and the effectiveness of adjuvant therapy is uncertain.
3.Modeling human pregastrulation development by 3D culture of blastoids generated from primed-to-naïve transitioning intermediates.
Zhifen TU ; Yan BI ; Xuehao ZHU ; Wenqiang LIU ; Jindian HU ; Li WU ; Tengyan MAO ; Jianfeng ZHOU ; Hanwei WANG ; Hong WANG ; Shaorong GAO ; Yixuan WANG
Protein & Cell 2023;14(5):337-349
Human pluripotent stem cells provide an inexhaustible model to study human embryogenesis in vitro. Recent studies have provided diverse models to generate human blastoids by self-organization of different pluripotent stem cells or somatic reprogramming intermediates. However, whether blastoids can be generated from other cell types or whether they can recapitulate postimplantation development in vitro is unknown. Here, we develop a strategy to generate human blastoids from heterogeneous intermediates with epiblast, trophectoderm, and primitive endoderm signatures of the primed-to-naïve conversion process, which resemble natural blastocysts in morphological architecture, composition of cell lineages, transcriptome, and lineage differentiation potential. In addition, these blastoids reflect many features of human peri-implantation and pregastrulation development when further cultured in an in vitro 3D culture system. In summary, our study provides an alternative strategy to generate human blastoids and offers insights into human early embryogenesis by modeling peri- and postimplantation development in vitro.
Humans
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Pluripotent Stem Cells/metabolism*
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Embryo, Mammalian/metabolism*
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Cell Differentiation
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Blastocyst
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Cell Lineage
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Embryonic Development