Kerth Klaus
I. Zoologisches Institut der UniversitÄt Würzburg, Bundesrepublik Deutschland.
Wilhelm Roux Arch Entwickl Mech Org. 1973 Dec;172(4):317-348. doi: 10.1007/BF00577884.
Investigations have been carried out on the long-term effect of a single whole body X-irradiation on radula, radula replacement rate, and radular gland ofLimax flavus L. 1. Damage in the radula. In the course of 8 weeks after irradiation with 50 000 R two separate damaged areas develop in the radula. Immediately after exposure 1-2 transverse rows of defect teeth arise. Posterior to an area with normal transverse rows an extensive zone of malformed teeth develops from the 2nd week on. Normal transverse rows are produced again after the 8th week. 2. Replacement rate. Adult snails replace 3-3,5 transverse rows/day during 5 weeks after a dose of 40250 R. The replacement rate decreases to 1,1 rows/day in the 6th week (Fig. 3, broken-lined graph). 3. Damage in the radular gland epithelia. After irradiation with 50 000 R the proliferation zones of thesuperior andinferior epithelium differ with respect to the extent of damage. In the first mentioned area numerous cells die; the cell proliferation is strongly reduced for weeks and reaches a normal level again at the beginning of the 10th week after exposure. The superior epithelium and its proliferation zone are temporary atrophied (Fig. 5a, b and 7a, b). They have recovered in the 10th week. The mitotic activity in theinferior epithelium is less reduced than in the proliferation zone of the superior epithelium. It has almost normalized in the 5th week after exposure. Only a few inferior epithelium cells die; atrophy of the inferior epithelium does not occur. From the 3rd week on after exposure the odontoblasts in numerous radular glands are deformed (Fig. 8). They assume their normal shape again in the beginning of the 10th week. No odontoblasts die after the irradiation. 4.
Head-shielded snails were irradiation with 50 000 R for controls. No effects of the body irradiation were found in the radula or in the radular gland epithelia. 5. Division of labour in the radular gland. The temporary elimination of the superior epithelium and the epithelial region above the odontoblasts-groups does not affect the tooth-formation and the radula transport into the oral cavity. Hence it follows: a) The odontoblasts-group is exclusively responsible for the definitive shape of the tooth (Fig. 8 and 9). b) The radula is transported into the oral cavity by the inferior epithelium (cf. Chap. E, II, b). On account of these results it is possible for the first time to described comprehensively the division of labour in the radular gland (cf. Chap. E, V). 6. Development of abnormal radular gland epithelia. After irradiation with 50 000 R an abnormal epithelial system develops from the 2nd week on in the tip of the radular gland (Fig. 10a, b;aEep). It encloses sphaeric or tube-like cavities. In many cases they communicate with the lumen of the radular gland. The light-microscopic appearence of the cells of this abnormal epithelium resembles those at the tip of a non-irradiated radular gland (Fig. 11 a, b).
已对黄蛞蝓单次全身X射线照射对齿舌、齿舌替换率和齿舌腺的长期影响进行了研究。1. 齿舌损伤。用50000伦琴照射后8周内,齿舌出现两个不同的损伤区域。照射后立即出现1 - 2排横向缺损齿。在有正常横向排的区域后方,从第2周开始出现一个广泛的畸形齿区域。第8周后再次产生正常的横向排。2. 替换率。成年蜗牛在接受40250伦琴剂量照射后的5周内,每天替换3 - 3.5排横向齿。第6周时替换率降至每天1.1排(图3,虚线图)。3. 齿舌腺上皮损伤。用50000伦琴照射后,上、下上皮的增殖区损伤程度不同。在上述第一个区域,大量细胞死亡;细胞增殖在数周内强烈减少,并在照射后第10周初再次达到正常水平。上上皮及其增殖区暂时萎缩(图5a、b和7a、b)。它们在第10周恢复。下上皮中的有丝分裂活性比上上皮增殖区减少得少。照射后第5周几乎恢复正常。只有少数下上皮细胞死亡;下上皮未发生萎缩。照射后第3周起,许多齿舌腺中的成牙本质细胞变形(图8)。它们在第10周初再次恢复正常形状。照射后没有成牙本质细胞死亡。4.
为进行对照,对头部屏蔽的蜗牛用50000伦琴进行照射。在齿舌或齿舌腺上皮中未发现身体照射的影响。5. 齿舌腺中的分工。上上皮和牙本质细胞群上方的上皮区域的暂时消除不影响牙齿形成和齿舌向口腔的运输。因此得出:a)牙本质细胞群专门负责牙齿的最终形状(图8和9)。b)齿舌由下上皮运输到口腔(参见第E章,II,b)。基于这些结果,首次有可能全面描述齿舌腺中的分工(参见第E章,V)。6. 异常齿舌腺上皮的发育。用50000伦琴照射后,从第2周起在齿舌腺尖端形成一个异常上皮系统(图10a、b;aEep)。它包围球形或管状腔。在许多情况下,它们与齿舌腺腔相通。这种异常上皮细胞的光学显微镜外观类似于未照射的齿舌腺尖端的细胞(图11a、b)。
