摘要
Objective: To observe the effect of electroacupuncture (EA) on gene expr ession o f α subunit of Go-protein in the brain of rats with hypertensive cerebral hem or rage and study its underlying mechanisms of EA in ameliorating cerebral hemorrag e. Methods: A total of 130 SD rats were randomly divided into nor mal control gro up (n=10), sham operation group (n=40), model group (n=40) and EA group (n=40). The latter 3 groups were further divided into 6 h, 24 h, 48 h and 72 h (tim e course s) subgroups, with 10 rats being in each subgroup. The hypertensive cerebral hem orrage model was induced by injecting 1 μL of collagenase (0.5 U/μL collagena se Type Ⅶ) and heparin (7 U/μL) into the caudate nucleus in rats with renovascul ar hypertension (by clipping the bilateral renal arteries). The gene expression of α subunit of Go-protein in the hippocampus tissue of rats was detected with No rthern blotting hybridization analysis. EA (continuous waves, 120 pulses/min in frequency, 1 mA in intensity and duration of 30 min) was applied to "Shuigou" (水沟 GV 26), bilateral "Neiguan"(内关 PC 6) and bilateral "Housanli"(Zusanl i, 足三里 ST 36). Results: The gene expression of α subunit of Go-protein in th e hippocampus tis sue of the rats was obviously downregulated in hypertensive cerebral hemorrage m odel group and significantly upregulated after EA treatment wit h the extension of time. Conlusion: EA may relieve cerebral hemorr age by regulating the gene transcription of α subunit of Go-protein and incre asing the expression of Go-α protein. This may be one of the molecular mechani sm s of EA in improving hypertensive cerebral hemorrhage.
Objective: To observe the effect of electroacupuncture (EA) on gene expr ession o f α subunit of Go-protein in the brain of rats with hypertensive cerebral hem or rage and study its underlying mechanisms of EA in ameliorating cerebral hemorrag e. Methods: A total of 130 SD rats were randomly divided into nor mal control gro up (n=10), sham operation group (n=40), model group (n=40) and EA group (n=40). The latter 3 groups were further divided into 6 h, 24 h, 48 h and 72 h (tim e course s) subgroups, with 10 rats being in each subgroup. The hypertensive cerebral hem orrage model was induced by injecting 1 μL of collagenase (0.5 U/μL collagena se Type Ⅶ) and heparin (7 U/μL) into the caudate nucleus in rats with renovascul ar hypertension (by clipping the bilateral renal arteries). The gene expression of α subunit of Go-protein in the hippocampus tissue of rats was detected with No rthern blotting hybridization analysis. EA (continuous waves, 120 pulses/min in frequency, 1 mA in intensity and duration of 30 min) was applied to 'Shuigou' (水沟 GV 26), bilateral 'Neiguan'(内关 PC 6) and bilateral 'Housanli'(Zusanl i, 足三里 ST 36). Results: The gene expression of α subunit of Go-protein in th e hippocampus tis sue of the rats was obviously downregulated in hypertensive cerebral hemorrage m odel group and significantly upregulated after EA treatment wit h the extension of time. Conlusion: EA may relieve cerebral hemorr age by regulating the gene transcription of α subunit of Go-protein and incre asing the expression of Go-α protein. This may be one of the molecular mechani sm s of EA in improving hypertensive cerebral hemorrhage.
