Non-centrosomal MTs play a crucial role in organization of MT array in interphase fibroblasts

Yekaterina Zvorykina, A. Tvorogova, A. Gladkikh, I. Vorobjev
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Abstract

Abstract Microtubules in interphase fibroblast-like cells are thought to be organized in a radial array growing from a centrosome-based microtubule-organizing center (MTOC) to the cell edges. However, many morphogenetic processes require the asymmetry of the microtubules (MT) array. One of the possible mechanisms of this asymmetry could be the presence of non-centrosomal microtubules in different intracellular areas. To evaluate the role of centrosome-born and non-centrosomal microtubules in the organization of microtubule array in motile 3T3 fibroblasts, we have performed the high-throughput analysis of microtubule growth in different functional zones of the cell and distinguished three subpopulations of growing microtubules (centrosome-born, marginal and inner cytoplasmic). Centrosome as an active microtubule-organizing center was absent in half of the cell population. However, these cells do not show any difference in microtubule growth pattern. In cells with active centrosome, it was constantly forming short (ephemeral) MTs, and ∼15–20 MT per minute grow outwards for a distance >1 µm. Almost no persistent growth of microtubules was observed in these cells with the average growth length of 5–6 µm and duration of growth periods within 30 s. However, the number of growing ends increased towards cell margin, especially towards the active edges. We found the peripheral cytoplasmic foci of microtubule growth there. During recovery from nocodazole treatment microtubules started to grow around the centrosome in a normal way and independently in all the cell areas. Within 5 minutes microtubules continued to grow mainly near the cell edge. Thus, our data confirm the negligible role of centrosome as MTOC in 3T3 fibroblasts and propose a model of non-centrosomal microtubules as major players that create the cell asymmetry in the cells with a mesenchymal type of motility. We suggest that increased density of dynamic microtubules near the active lamellum could be supported by microtubule-based microtubule nucleation.
非中心体MT在间期成纤维细胞MT阵列的组织中起着至关重要的作用
间期成纤维细胞样细胞中的微管被认为是由中心体为基础的微管组织中心(MTOC)向细胞边缘呈放射状排列。然而,许多形态发生过程需要微管阵列的不对称性。这种不对称的可能机制之一可能是在不同的细胞内区域存在非中心体微管。为了评估着丝体微管和非着丝体微管在运动3T3成纤维细胞微管阵列组织中的作用,我们对细胞不同功能区的微管生长进行了高通量分析,并区分了生长微管的三个亚群(着丝体、细胞质边缘和细胞质内)。作为活跃的微管组织中心的中心体在一半的细胞群中缺失。然而,这些细胞在微管生长模式上没有表现出任何差异。在中心体活跃的细胞中,它不断形成短的(短暂的)MT,每分钟约15-20 MT向外生长,距离为10µm。这些细胞几乎未观察到微管的持续生长,平均生长长度为5-6µm,生长周期在30 s以内。生长端向细胞边缘方向增加,尤其是向活动边缘方向增加。我们在那里发现了微管生长的外周细胞质灶。在诺可达唑治疗恢复期间,微管开始在中心体周围正常生长,并在所有细胞区域独立生长。在5分钟内,微管主要在细胞边缘继续生长。因此,我们的数据证实了中心体在3T3成纤维细胞中作为MTOC的作用可以忽略不计,并提出了一个非中心体微管模型,该模型在具有间充质类型运动的细胞中产生细胞不对称。我们认为,活性薄片附近动态微管密度的增加可能是由基于微管的微管成核所支持的。
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AIMS Genetics
AIMS Genetics GENETICS & HEREDITY-
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