1.Effect of the Swimming Training and Tertram Ethylplyrazine on the Microcirculation in Cochlea of Guinea Pigs After Chronic Hypoxia
Yanli SHI ; Yuanxun HUANG ; Jingbo WEI
Journal of Audiology and Speech Pathology 1998;0(03):-
Objective To explore the effect of swimming training on the microcirculations of cochlea in guinea pigs with tertram ethylpyrazine(TMP) treatment after chronic hypoxia.Methods 28 guinea pigs were divided into normal control group outside of cabin (A) and chronic hypoxia model group (B). After four weeks the model group were divided into the model control group (B 1),TMP treatment group (B 2),swimming training group(B 3) and swimming training with TMP treatment group (B 4).Until the given time,LDF was used to investigate the blood flow of every guinea pig's cochlea.The spiral ligament spreaded-slice optical lens was used to observe guinea pig's vascular veins, capillary appearance and RBC counts.Results There was significant difference in cochlear blood flow(CBF) and RBC counts between B 2,B 4 groups and B 1 group.CBF and RBC counts of B 3 group was improved comparing with B 1 gorup,so did that of B 4 group comparing with B 2.But no significant difference was found.Conclusion Swimming training can relieve the swelling on the thin blood vessel and improve the effect of TMP on the microcirculation in cochlea of guinea pigs under chronic hypoxia environment.
2.Swimming training facilitate the improvement of microcirculations in cochlea after chronic hypoxia with ligustrazine in guinea pigs
Yanli SHI ; Yuanxun HUANG ; Jinbo WEI ; Xiaohong DUAN
Chinese Journal of Rehabilitation Theory and Practice 2005;11(5):347-348
ObjectiveTo explore the effect of the swimming training on the microcirculations in cochlea in guinea pigs after chronic hypoxia.Methods28 guinea pigs were divided into normal control group (group A) which were outside of cabin and chronic hypoxia model group (group B) randomly. 4 weeks after, the model group were divided into the model control group (group B1), medical treatment group (group B2) and swimming training with medical treatment group (group B3). The blood flow of the cochlea (CBF) were measured using laser Doppler flow. The spiral ligament spreaded-slice optical lens was used to observe the vascular veins, capillary appearance and red blood cells (RBC) counts.Resultsthe CBF of group A was(98.075±5.08)% ,while that of group B1 was(86.80±2.12)%(P<0.01 vs group A), that of group B2 was (89.14±4.12)%(P<0.05 vs group B1), that of group B3 was (91.18±5.02)%(P>0.05 vs group B2, but P<0.01 vs group B1).ConclusionSwimming training can facilitate the improvement of the swelling on the thin blood vessel and the microcirculation in cochlea under chronic hypoxia environment with ligustrazine in guinea pigs.
3.Study of zinc element and ZnT3 mRNA expression in mouse brain
Yuanxun ZHANG ; Jiangang LONG ; Yinsong WANG ; Delu LI ; Fudi WANG ; Hui SHEN ; Aiguo LI ; Guilin ZHANG ; Yuying HUANG ; Wei HE
Chinese Journal of Pathophysiology 1999;0(09):-
AIM:To explore the interaction and function between ZnT3 mRNA expression and zinc elemental distribution in brain slice of mouse.METHODS:Zinc distribution was determined by SRXRF and ZnT3 mRNA expression in tissue was examined by RT-PCR method.RESULTS:Zinc content in cerebral cortex and hippocampus was significantly higher than that in other positions.The highest expression of ZnT3 mRNA was observed in cerebrum,hippocampus and testis.However,the ZnT3 mRNA was not detected in heart,liver,lung,spleen,kidney,intestine,olfactory bulb and cerebellum.CONCLUSION:ZnT3 facilitates the accumulation of zinc in synaptic vesicles and may play important roles in structuring of vesicular zinc pool.
4.miR-205-5p/E2F1 signal axis is involved in the regulation of radiosensitivity of glioma cells through suppressing the classical Wnt/β-catenin signaling pathway
Youdong ZHOU ; Ran LUO ; Yanting LIU ; Yuanxun DONG ; Jinyang MA ; Huojun HU ; Xuguang WANG ; Jinman GUO ; Song HUANG ; Gao YUAN ; Changtao FU ; Lei WANG ; Yan GAO
Chinese Journal of Radiation Oncology 2021;30(11):1188-1194
Objective:To explore the mechanism of miR-205-5p/E2F1 signal axis in regulating the glioma U251, U87 radiotherapy resistance.Methods:X-ray gradual ascending and intermittent induction method was used to irradiate the glioma U251 cells to establish U251/TR, U87/TR radiation-resistant cell lines. Then, the morphology, migration, invasion and proliferation abilities of cells (U251/TR, U87/TR radiation-resistant cells and U251, U87 radiation-sensitive cells) were analyzed. Luciferase gene detection system and point mutation technique were employed to analyze the mechanism of miR-205-5p and E2F1 gene activity on U251 and U87 radiation-resistant cell lines.Results:Compared with the radiation-sensitive U251 cells, the radiation-resistant cells U251/TR, U87/TR showed increased proliferation activity, enhanced migration and invasion abilities and decreased apoptosis under X-ray irradiation. miR-205-5p mimics transfection could down-regulate the expression of E2F1 factor in U251/TR cells, inhibit cell proliferation, invasion and migration and increase the radiosensitivity of U251/TR cells. miR-205-5p mimics transfection combined with with E2F1 down-regulation exerted anti-tumor effect and decreased cell tolerance by suppressing the Wnt/β-catenin signaling pathway activity.Conclusions:The glioma radiation-resistant cell line U251/TR, U87/TR can be established by X-ray gradual ascending and intermittent induction method. The miR-205-5p/E2F1 signal axis exerts tumor-suppressing effect through the classical Wnt/β-catenin signaling pathway, which can be used as an therapeutic target to increase the radiosensitivity of glioma.