[Tianma Gouteng Decoction regulates MFN2 expression to delay vascular aging in spontaneously hypertensive rats].

We studied the effect of Tianma Gouteng Decoction on vascular aging in spontaneously hypertensive rats(SHRs) to explore the molecular mechanism of the decoction in improving arterial vascular aging by regulating the expression of mitofusin 2(MFN2).Twenty 64-weeks-old SHRs were randomly assigned into the aging group and the treatment group(Tianma Gouteng Decoction 5.48 mg·kg~(-1)).Wistar-Kyoto(WKY) rats of 64 weeks old were taken as the normal group and SHR rats of 14 weeks old as the young group.The intervention with Tianma Gouteng Decoction lasted for 12 weeks.We then employed HE staining and Masson staining to observe the morphology of thoracic aorta under an electron microscope and measured the malondialdehyde(MDA) content, superoxide dismutase(SOD) activity, respiratory chain complex Ⅲ level, and thioredoxin peroxidase(TPX) activity.The vascular aging was detected via the biomarker senescence-associated beta-galactosidase(SA-ß-Gal).The expression levels of MFN2 and aging marker proteins silent information regulator 1(SIRT1), Klotho, p21, and p53 in thoracic aorta were detected by immunohistochemistry/fluorescence, qRT-PCR, and Western blot.Compared with the young group and the normal group, the aging group had risen blood pressure, lumen stenosis caused by thickened intima of blood vessels, decreased SOD and TPX activities, increased MDA and mitochondrial respiratory chain complex Ⅲ levels, down-regulated expression of MFN2, SIRT1, and Klotho, and up-regulated expression of p21 and p53(P<0.01 or P<0.05).The treatment with Tianma Gouteng Decoction significantly lowered blood pressure, mitigated vascular intimal thickening, increased SOD and TPX activities, and decreased MDA and mitochondrial respiratory chain complex Ⅲ levels, thus alleviating vascular aging.At the same time, the decoction up-regulated the expression of MFN2, SIRT1, and Klotho, while down-regulated that of p21 and p53(P<0.01 or P<0.05).In summary, Tianma Gouteng Decoction can significantly delay the vascular aging in hypertension.Specifically, it may up-regulate the expression of MFN2 and regulate the expression of aging-related proteins to alleviate oxidative stress.

Hypoxia promotes pulmonary vascular remodeling via HIF-1α to regulate mitochondrial dynamics.

BACKGROUND: Increasing research suggests that mitochondrial defect plays a major role in pulmonary hypertension (PH) pathogenesis. Mitochondrial dynamics and quality control have a central role in the maintenance of the cell proliferation and apoptosis balance. However, the molecular mechanism underlying of this balance is still unknown. METHODS: To clarify the biological effects of hypoxic air exposure and hypoxia-inducible factor-1α (HIF-1α) on pulmonary arterial smooth muscle cell (PASMC) and pulmonary arterial hypertension rats, the cells were cultured in a hypoxic chamber under oxygen concentrations. Cell viability, reactive oxygen species level, cell death, mitochondrial morphology, mitochondrial membrane potential, mitochondrial function and mitochondrial biosynthesis, as well as fission-and fusion-related proteins, were measured under hypoxic conditions. In addition, rats were maintained under hypoxic conditions, and the right ventricular systolic pressure, right ventricular hypertrophy index and right ventricular weight/body weight ratio were examined and recorded. Further, we assessed the role of HIF-1α in the development and progression of PH using HIF-1α gene knockdown using small interfering RNA transfection. Mdivi-1 treatment was performed before hypoxia to inhibit dynamin-related protein 1 (Drp1). RESULTS: We found that HIF-1α expression was increased during hypoxia, which was crucial for hypoxia-induced mitochondrial dysfunction and hypoxia-stimulated PASMCs proliferation and apoptosis. We also found that targeting mitochondrial fission Drp1 by mitochondrial division inhibitor Mdivi-1 was effective in PH model rats. The results showed that mitochondrial dynamics were involved in the pulmonary vascular remodeling under hypoxia in vivo and in vitro. Furthermore, HIF-1α also modulated mitochondrial dynamics in pulmonary vascular remodeling under hypoxia through directly regulating the expression of Drp1. CONCLUSIONS: In conclusion, our data suggests that abnormal mitochondrial dynamics could be a marker for the early diagnosis of PH and monitoring disease progression. Further research is needed to study the signaling pathways that govern mitochondrial fission/fusion in PH.

[Spectral analysis of electromyography of low back muscle fatigue induced by simulated driving].

OBJECTIVE: To evaluate the effects of different vibration frequency on the back muscle fatigue during simulated driving. METHODS: Thirty-six subjects performed three simulated driving experiments under three vertical vibration frequencies which were 1.8, 4.0, 6.0 Hz respectively and the driving time was 90 minutes. At the same time the electromyography of low back was recorded. RESULTS: The median frequencies calculated from the power spectrum were decreased exponentially under three vertical vibration frequencies, especially under 4.0 Hz vibration frequency. CONCLUSION: The 4.0 Hz vibration frequency has the most important effect on the back muscle fatigue under simulated driving condition.