大鼠精子鞭毛沿附睾长度运动的变化:人工和计算机辅助图像分析。

C Jeulin, L M Lewin, C Chevrier, D Schoevaert-Brossault
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引用次数: 26

摘要

用高速电镜观察了大鼠精子在附睾转运过程中的不同运动模式。精子图像是通过人工追踪和计算机成像系统进行分析的。本研究首次报道了该物种的精子头部游动路径和鞭毛特征。大鼠精子的钩状头部使我们能够展示二维(2D)游泳运动,而三维(3D)精子运动主要与头部旋转有关。不动的精子进入睾丸的起始节,显示出坚硬的鞭毛。精子运动的潜力在头近端区域突然发生,并观察到不同的鞭笞模式:振动,原地运动,运动与中间部分的静态曲率导致旋转运动或圆形路径,以及向前的渐进运动与头部的有规律的旋转。精子运动的模式在远尾变得均匀,在那里整个精子群游在一条直线上。当精子到达近头区时,中间部分出现静态曲率。在大鼠鞭毛两侧观察到静态弯曲的形成,通过头部的头状突起和主波的轴突侧很容易表示。一旦精子移动,它们就会先后启动主(P)波和反向(R)波,但这些波只在静态曲率的远端可见。随着附睾成熟,中段硬度逐渐降低;同时,静态曲率呈现出更大的半径,然后消失。因此,最初在未成熟细胞鞭毛远端出现的波的起始,逐渐发生在成熟精子头部交界处附近。这些先前在公羊和现在在大鼠身上发现的精子运动的变化可能是哺乳动物的普遍现象。这种高分辨率的计算机成像系统应用于精子运动,显示了一个很好的特征“鞭毛的一侧”,可以灵敏地检测鞭毛跳动的生化效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Changes in flagellar movement of rat spermatozoa along the length of the epididymis: manual and computer-aided image analysis.

The different patterns of motility of rat spermatozoa during epididymal transit were studied in vitro using high-speed videomicroscopy. The sperm images were analysed after manual tracing as well as with a computer imaging system. The present work is the first which reports both the swimming path of the sperm head and the characteristics of flagellation in this species. The hook-shaped head of the rat spermatozoa allowed us to demonstrate the two-dimensional (2D) swimming movement compared to the three-dimensional (3D) sperm motion which was mainly related to rotation of the head. Immotile spermatozoa entered the initial segment of the testis and showed rigid flagella. The potential for sperm motility occurred abruptly in the proximal caput region, and different patterns of flagellation were observed: vibrating, motile in place, motile with a static curvature of the midpiece resulting in a spinning motion or a circular path, and forward progressive movement with regular rotation of the head. The pattern of sperm movement became homogeneous in the distal cauda where the whole sperm population swam in a straight line. A static curvature appeared in the midpiece portion when the spermatozoa reached the proximal caput region. The formation of the static curvature was observed on both sides of the rat flagellum which were easily indicated by the head-shaped projection of the head and the axonemal side of the principal wave. As soon as they moved, the spermatozoa successively initiated principal (P) and reverse (R) waves, but the waves were visible only distal to the static curvature. The midpiece stiffness progressively decreased during the epididymal maturation; simultaneously the static curvature showed a larger radius and then disappeared. Consequently, the initiation of waves which was first seen in the distal part of the flagellum of immature cells occurred progressively near the junction with the head of maturing spermatozoa. These changes in sperm motion previously shown in rams and now in rats might be a general phenomenon in mammals. The high resolution of this computer imaging system applied tosperm motion showing a well-characterized "side of the flagellum" should allow sensitive detection of biochemical effects on flagellar beating.

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