Optical tweezers were used to characterize the mechanical properties of the outer hair cell (OHC) plasma membrane by pulling tethers with 4.5-microm polystyrene beads. Tether formation force and tether force were measured in static and dynamic conditions. A greater force was required for tether formations from OHC lateral wall (499 +/- 152 pN) than from OHC basal end (142 +/- 49 pN). The difference in the force required to pull tethers is consistent with an extensive cytoskeletal framework associated with the lateral wall known as the cortical lattice. The apparent plasma membrane stiffness, estimated under the static conditions by measuring tether force at different tether length, was 3.71 pN/microm for OHC lateral wall and 4.57 pN/microm for OHC basal end. The effective membrane viscosity was measured by pulling tethers at different rates while continuously recording the tether force, and estimated in the range of 2.39 to 5.25 pN x s/microm. The viscous force most likely results from the viscous interactions between plasma membrane lipids and the OHC cortical lattice and/or integral membrane proteins. The information these studies provide on the mechanical properties of the OHC lateral wall is important for understanding the mechanism of OHC electromotility.
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机译:使用光学镊子通过拉动带有4.5微米聚苯乙烯珠的系绳来表征外毛细胞(OHC)质膜的机械性能。在静态和动态条件下测量系链形成力和系链力。与OHC底端(142 +/- 49 pN)相比,从OHC侧壁(499 +/- 152 pN)形成系绳所需的力更大。拉紧绳索所需的力的差异与与称为皮质格子的侧壁相关的广泛的细胞骨架框架相一致。通过测量不同系绳长度的系绳力,在静态条件下估计的表观质膜刚度对于OHC侧壁为3.71 pN /μm,对于OHC基端为4.57 pN /μm。在连续记录系绳力的同时,通过以不同速率拉动系绳来测量有效膜粘度,其估计范围为2.39至5.25 pN x s / microm。粘性力最可能是由于质膜脂质与OHC皮质晶格和/或完整膜蛋白之间的粘性相互作用而产生的。这些研究提供的有关OHC侧壁机械性能的信息对于理解OHC电动力的机制非常重要。
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