Frechette Danielle M, Krishnamoorthy Divya, Adler Benjamin J, Chan M Ete, Rubin Clinton T
Department of Biomedical Engineering, Stony Brook University, Stony Brook, NY.
Department of Biomedical Engineering, Stony Brook University, Stony Brook, NY
J Appl Physiol (1985). 2015 Jul 1;119(1):27-36. doi: 10.1152/japplphysiol.01020.2014. Epub 2015 Apr 30.
Age-related degeneration of the musculoskeletal system, accelerated by menopause, is further complicated by increased systemic and muscular adiposity. The purpose of this study was to identify at the molecular, cellular, and tissue levels the impact of ovariectomy on adiposity and satellite cell populations in mice and whether mechanical signals could influence any outcomes. Eight-week-old C57BL/6 mice were ovariectomized, with one half subjected to low-intensity vibration (LIV; 0.3 g/90 Hz, 15 min/day, 5 day/wk; n = 10) for 6 wk and the others sham vibrated (OVX; n = 10). Data are compared with age-matched, intact controls (AC; n = 10). In vivo μCT analysis showed that OVX mice gained 43% total (P < 0.001) and 125% visceral adiposity (P < 0.001) compared with their baseline after 6 wk, whereas LIV gained only 21% total (P = 0.01) and 70% visceral adiposity (P < 0.01). Relative to AC, expression of adipogenic genes (PPARγ, FABP4, PPARδ, and FoxO1) was upregulated in OVX muscle (P < 0.05), whereas LIV reduced these levels (P < 0.05). Adipogenic gene expression was inversely related to the percentage of total and reserve satellite cell populations in the muscle, with both declining in OVX compared with AC (-21 and -28%, respectively, P < 0.01). LIV mitigated these declines (-11 and -17%, respectively). These results provide further evidence of the negative consequences of estrogen depletion and demonstrate that mechanical signals have the potential to interrupt subsequent adipogenic gene expression and satellite cell suppression, emphasizing the importance of physical signals in protecting musculoskeletal integrity and slowing the fat phenotype.
与年龄相关的肌肉骨骼系统退化在更年期的加速作用下,因全身和肌肉脂肪增多而进一步复杂化。本研究的目的是在分子、细胞和组织水平上确定卵巢切除术对小鼠肥胖和卫星细胞群的影响,以及机械信号是否会影响任何结果。将8周龄的C57BL/6小鼠进行卵巢切除术,其中一半接受低强度振动(LIV;0.3 g/90 Hz,每天15分钟,每周5天;n = 10),持续6周,另一半进行假振动(OVX;n = 10)。将数据与年龄匹配的完整对照(AC;n = 10)进行比较。体内μCT分析显示,与基线相比,OVX小鼠在6周后总脂肪增加了43%(P < 0.001),内脏脂肪增加了125%(P < 0.001),而LIV组总脂肪仅增加了21%(P = 0.01),内脏脂肪增加了70%(P < 0.01)。相对于AC,成脂基因(PPARγ、FABP4、PPARδ和FoxO1)在OVX肌肉中的表达上调(P < 0.05),而LIV降低了这些水平(P < 0.05)。成脂基因表达与肌肉中总卫星细胞群和储备卫星细胞群的百分比呈负相关,与AC相比,OVX组两者均下降(分别下降21%和28%,P < 0.01)。LIV减轻了这些下降(分别为-11%和-17%)。这些结果进一步证明了雌激素缺乏的负面后果,并表明机械信号有可能中断随后的成脂基因表达和卫星细胞抑制,强调了物理信号在保护肌肉骨骼完整性和减缓脂肪表型方面的重要性。