{"title":"Research on the Squamous Cell Carcinoma of the Cervix uteri by Cytophotometric and Planimetric Evaluations","authors":"R.E. Herzog","doi":"10.1016/S0005-8165(77)80110-8","DOIUrl":null,"url":null,"abstract":"<div><p><em>Introduction:</em> Using cytophotometry it was possible to determine some components of the single cell. During carcinogenesis of the human cervix uteri there were found atypical values of DNA. The additional determination of RNA and histones resulted in relationship. Histones are accepted to be the stabilizers of DNA molecules. A lysine rich histone fraction was more found in heterochromatin whereas a arginine rich histone fraction seemed to be more linked to the euchromatin. It was the question of this investigation to prove these relationships during cancerization of the human cervix uteri.</p><p><em>Material and methods:</em> Smears of 19 carcinomata in situ and 24 invasive cancers were compared with 20 control patients. The following parameters were determined by cytophotometry or planimetry:</p><ul><li><span><p><em>DNA:</em> Staining with acriflavine (<span>Graumann, 1953</span>; <span>Sandritter et al., 1963</span>).</p></span></li><li><span><p><em>RNA:</em> Staining with gallocyanine-chromalum after treatment with DN-ase (<span>Novakova et al., 1969</span>).</p></span></li><li><span><p><em>Histione:</em> Staining with fastgreen pH 8.2 (Alfert et al., 1953; <span>Jobst and Sandritter, 1964</span>).</p></span></li><li><span><p><em>Arginine:</em> Staining with ninhydrine (<span>Rosselet, 1967</span>) after cytolysis (<span>Herzog, 1974</span>).</p></span></li><li><span><p><em>Lysine:</em> Staining with dansylchloride (<span>Rosselet and Ruch, 1968</span>) after cytolysis.</p></span></li><li><span><p><em>Heterochromatin, condensed histone, condensed arginine, and condensed lysine:</em> Planimetrical evaluation of the corresponding microphotographs.</p></span></li></ul><p><em>Results:</em> In the three groups of patients we found similar relationships. The mean values corresponded as well in the photometric determined values of DNA, RNA, histone, arginine, and lysine as in the planimetrical results (heterochromatin; condensed histone, arginine, and lysine). The deviation of all values of each group was in line too.</p><p><em>Discussion:</em> According to these results we believe, that the relationship between the synthesis of DNA and the one of RNA and histone is not disturbed during carcinogenesis. Simultaneously the synthesis of arginine rich and lysine rich histone fractions — compared with them of DNA and histones seems to have not been changed.</p></div>","PeriodicalId":75583,"journal":{"name":"Beitrage zur Pathologie","volume":"161 1","pages":"Pages 62-71"},"PeriodicalIF":0.0000,"publicationDate":"1977-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1016/S0005-8165(77)80110-8","citationCount":"3","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Beitrage zur Pathologie","FirstCategoryId":"1085","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0005816577801108","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 3
Abstract
Introduction: Using cytophotometry it was possible to determine some components of the single cell. During carcinogenesis of the human cervix uteri there were found atypical values of DNA. The additional determination of RNA and histones resulted in relationship. Histones are accepted to be the stabilizers of DNA molecules. A lysine rich histone fraction was more found in heterochromatin whereas a arginine rich histone fraction seemed to be more linked to the euchromatin. It was the question of this investigation to prove these relationships during cancerization of the human cervix uteri.
Material and methods: Smears of 19 carcinomata in situ and 24 invasive cancers were compared with 20 control patients. The following parameters were determined by cytophotometry or planimetry:
DNA: Staining with acriflavine (Graumann, 1953; Sandritter et al., 1963).
RNA: Staining with gallocyanine-chromalum after treatment with DN-ase (Novakova et al., 1969).
Histione: Staining with fastgreen pH 8.2 (Alfert et al., 1953; Jobst and Sandritter, 1964).
Arginine: Staining with ninhydrine (Rosselet, 1967) after cytolysis (Herzog, 1974).
Lysine: Staining with dansylchloride (Rosselet and Ruch, 1968) after cytolysis.
Heterochromatin, condensed histone, condensed arginine, and condensed lysine: Planimetrical evaluation of the corresponding microphotographs.
Results: In the three groups of patients we found similar relationships. The mean values corresponded as well in the photometric determined values of DNA, RNA, histone, arginine, and lysine as in the planimetrical results (heterochromatin; condensed histone, arginine, and lysine). The deviation of all values of each group was in line too.
Discussion: According to these results we believe, that the relationship between the synthesis of DNA and the one of RNA and histone is not disturbed during carcinogenesis. Simultaneously the synthesis of arginine rich and lysine rich histone fractions — compared with them of DNA and histones seems to have not been changed.
使用细胞光度法可以测定单个细胞的某些成分。在人子宫颈癌变过程中,发现DNA值不典型。RNA和组蛋白的额外测定导致了两者之间的关系。组蛋白被认为是DNA分子的稳定剂。富含赖氨酸的组蛋白片段更多地出现在异染色质中,而富含精氨酸的组蛋白片段似乎与常染色质联系更紧密。这项研究的问题是在人类子宫颈癌变过程中证明这些关系。材料与方法:将19例原位癌和24例浸润性癌的涂片与20例对照进行比较。用细胞光度法或平面法测定以下参数:DNA:用吖啶黄碱染色(Graumann, 1953;Sandritter et al., 1963)。RNA:用dn酶处理后用半胱氨酸染色(Novakova et al., 1969)。组氨酸:pH 8.2染色法(Alfert et al., 1953;Jobst and Sandritter, 1964)。精氨酸:细胞溶解后用ninhydrine染色(Rosselet, 1967) (Herzog, 1974)。赖氨酸:细胞溶解后用氯化丹西尔染色(Rosselet和Ruch, 1968)。异染色质,浓缩组蛋白,浓缩精氨酸和浓缩赖氨酸:相应显微照片的平面测量评价。结果:在三组患者中,我们发现了相似的关系。DNA、RNA、组蛋白、精氨酸和赖氨酸的光度测定值的平均值与平面测量结果(异染色质;浓缩组蛋白、精氨酸和赖氨酸)。各组各值的偏差也一致。讨论:根据这些结果,我们认为,在癌变过程中,DNA的合成与RNA和组蛋白的合成之间的关系没有受到干扰。同时,与DNA和组蛋白的合成相比,富含精氨酸和赖氨酸的组蛋白的合成似乎没有改变。
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