Sugiyama T
Hinyokika Kiyo. 1985 Jan;31(1):49-69.
Seventy five prostatic specimens from cancer, BPH and normal controls were studied by light microscopic histochemical methods for the demonstration of complex carbohydrates and some proteins: 1) alcian blue (AB) (pH 1.0), 2) alcian blue (AB) (pH 2.5), 3) Periodic Acid-Schiff (PAS), 4) peroxidase labelled-Ricinus communis agglutinin-diaminobenzidine (PO-RCA-DAB), 5) Concanavalin A-peroxidase-diaminobenzidine (ConA-PO-DAB), 6) ConA-PO-DAB-periodic acid-m-aminophenol Fast black salt K (ConA-PO-DAB-PA-AP-FBK). For identifying individual acidic and neutral carbohydrates, following procedures of enzyme digestion were performed upon some tissue sections prior to the above histochemical staining: a) sialidase (prior to staining with AB at pH 2.5), b) streptomyces hyaluronidase (prior to staining with AB at pH 2.5), c) testicular hyaluronidase (prior to staining with AB at pH 1.0 or pH 2.5), d) chondroitinase ABC (prior to staining with AB at pH 1.0 or pH 2.5), e) chondroitinase AC (prior to staining with AB at pH 1.0 or pH 2.5), f) alpha-amylase (prior to staining with PAS). In addition, the tissue specimens from prostatic cancer were stained immunohistochemically for demonstration of prostatic acid phosphatase (PAP) and the serum PAP levels were also measured by radioimmunoassay. The histochemical differences in the prostatic tissue among normal control, BPH and cancer as follows. In the tissue of prostatic cancer, chondroitin sulfate A, C and hyaluronic acid were present in the interstitium. Chondroitin sulfate, hyaluronic acid and sialic acid were present in the cytoplasm of cancer cells. In the tissue of BPH chondroitin sulfate B and hyaluronic acid was present in the interstitium and hyaluronic acid was present in the cytoplasm of epitherial cells. In the epithelial basement membrane of the tissue from BPH, chondroitin B and hyaluronic acid were present. 1,2-Glycol groups of neutral complex carbohydrates in the interstitium of prostatic cancer were shown to exist in smaller amounts than in that of BPH. In the cytoplasm of cancer cells the intensity of both PO-RCA-DAB and ConA-PO-DAB staining could be divided into three groups: strong, moderate and weak. In the prostatic cancer there was a good correlation between the intensity of PO-RCA-DAB staining and tumor grade, and intensity of ConA-PO-DAB staining was correlated well with serum PAP level. The cytoplasm of cancer cells showed a positive reaction to PAP immunostaining and no appreciable difference was observed according to tumor grade.(ABSTRACT TRUNCATED AT 400 WORDS)
采用光学显微镜组织化学方法,对75份来自前列腺癌、良性前列腺增生(BPH)和正常对照的标本进行研究,以显示复合碳水化合物和一些蛋白质:1)阿尔辛蓝(AB)(pH 1.0);2)阿尔辛蓝(AB)(pH 2.5);3)过碘酸希夫(PAS);4)过氧化物酶标记蓖麻凝集素 - 二氨基联苯胺(PO - RCA - DAB);5)刀豆球蛋白A - 过氧化物酶 - 二氨基联苯胺(ConA - PO - DAB);6)ConA - PO - DAB - 过碘酸 - 间氨基酚固蓝盐K(ConA - PO - DAB - PA - AP - FBK)。为鉴定单个酸性和中性碳水化合物,在上述组织化学染色前,对部分组织切片进行如下酶消化程序:a)唾液酸酶(在pH 2.5的AB染色前);b)链霉菌透明质酸酶(在pH 2.5的AB染色前);c)睾丸透明质酸酶(在pH 1.0或pH 2.5的AB染色前);d)软骨素酶ABC(在pH 1.0或pH 2.5的AB染色前);e)软骨素酶AC(在pH 1.0或pH 2.5的AB染色前);f)α - 淀粉酶(在PAS染色前)。此外,对前列腺癌组织标本进行免疫组织化学染色以显示前列腺酸性磷酸酶(PAP),并通过放射免疫测定法测量血清PAP水平。正常对照、BPH和癌症前列腺组织的组织化学差异如下。在前列腺癌组织中,间质中存在硫酸软骨素A、C和透明质酸。癌细胞的细胞质中存在硫酸软骨素、透明质酸和唾液酸。在BPH组织中,间质中存在硫酸软骨素B和透明质酸,上皮细胞的细胞质中存在透明质酸。在BPH组织的上皮基底膜中,存在硫酸软骨素B和透明质酸。前列腺癌间质中中性复合碳水化合物的1,2 - 二醇基团含量比BPH中的少。在癌细胞的细胞质中,PO - RCA - DAB和ConA - PO - DAB染色强度可分为三组:强、中、弱。在前列腺癌中,PO - RCA - DAB染色强度与肿瘤分级之间存在良好相关性,ConA - PO - DAB染色强度与血清PAP水平相关性良好。癌细胞的细胞质对PAP免疫染色呈阳性反应,根据肿瘤分级未观察到明显差异。(摘要截短至400字)
