Li Stanley Ka-Lok, Banerjee Juni, Jang Christopher, Sehgal Amita, Stone Richard A, Civan Mortimer M
Department of Physiology, University of Pennsylvania Perelman School of Medicine, Philadelphia, Pennsylvania, United States School of Optometry, The Hong Kong Polytechnic University, Hung Hom, Hong Kong.
Department of Physiology, University of Pennsylvania Perelman School of Medicine, Philadelphia, Pennsylvania, United States.
Invest Ophthalmol Vis Sci. 2015 Feb 5;56(2):1396-405. doi: 10.1167/iovs.14-15834.
Aqueous humor inflow falls 50% during sleeping hours without proportional fall in IOP, partly reflecting reduced outflow facility. The mechanisms underlying outflow facility cycling are unknown. One outflow facility regulator is matrix metalloproteinase (MMP) release from trabecular meshwork (TM) cells. Because anterior segment temperature must oscillate due to core temperature cycling and eyelid closure during sleep, we tested whether physiologically relevant temperature oscillations drive cycles in the activity of secreted MMP.
Temperature of transformed normal human TM cells (hTM5 line) was fixed or alternated 12 hours/12 hours between 33°C and 37°C. Activity of secreted MMP-2 and MMP-9 was measured by zymography, and gene expression by RT-PCR and quantitative PCR.
Raising temperature to 37°C increased, and lowering to 33°C reduced, activity of secreted MMP. Switching between 37°C and 33°C altered MMP-9 by 40% ± 3% and MMP-2 by 22% ± 2%. Peripheral circadian clocks did not mediate temperature-driven cycling of MMP secretion because MMP-release oscillations did not persist at constant temperature after 3 to 6 days of alternating temperatures, and temperature cycles did not entrain clock-gene expression in these cells. Furthermore, inhibiting heat shock transcription factor 1, which links temperature and peripheral clock-gene oscillations, inhibited MMP-9 but not MMP-2 temperature-driven MMP cycling. Inhibition of heat-sensitive TRPV1 channels altered total MMP secretion but not temperature-induced modulations. Inhibiting cold-sensitive TRPM-8 channels had no effect.
Physiologically relevant temperature oscillations drive fluctuations of secreted MMP-2 and MMP-9 activity in hTM5 cells independent of peripheral clock genes and temperature-sensitive TRP channels.
睡眠期间房水流入量下降50%,而眼压并未成比例下降,这部分反映了房水流出易度降低。房水流出易度周期性变化的潜在机制尚不清楚。一种流出易度调节因子是小梁网(TM)细胞释放的基质金属蛋白酶(MMP)。由于睡眠期间核心体温循环和眼睑闭合会导致眼前节温度发生振荡,我们测试了生理相关的温度振荡是否驱动分泌型MMP活性的周期性变化。
将转化的正常人TM细胞(hTM5系)的温度固定,或在33°C和37°C之间每12小时交替一次。通过酶谱法测量分泌型MMP-2和MMP-9的活性,通过逆转录聚合酶链反应(RT-PCR)和定量聚合酶链反应测量基因表达。
将温度升至37°C会增加分泌型MMP的活性,降至33°C则会降低其活性。在37°C和33°C之间切换使MMP-9改变了40%±3%,MMP-2改变了22%±2%。外周生物钟并未介导温度驱动的MMP分泌周期性变化,因为在温度交替3至6天后,MMP释放振荡在恒温下不会持续,并且温度循环并未诱导这些细胞中的生物钟基因表达。此外,抑制连接温度和外周生物钟基因振荡的热休克转录因子1可抑制MMP-9,但不抑制MMP-2的温度驱动的MMP周期性变化。抑制热敏感的瞬时受体电位香草酸亚型1(TRPV1)通道会改变总MMP分泌,但不会改变温度诱导的调节。抑制冷敏感的瞬时受体电位M8(TRPM-8)通道则没有效果。
生理相关的温度振荡驱动hTM5细胞中分泌型MMP-2和MMP-9活性的波动,且独立于外周生物钟基因和温度敏感的瞬时受体电位(TRP)通道。
