Acid Phosphatase in Carcinoma of the Prostate in Man

Parkin, Laureen; Bylsma, Glenn; Torre, Anthony V.; Drew, David A.; Madden, Robert J.

doi:10.1177/12.4.288

Cited by 25 publications

(8 citation statements)

References 6 publications

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“…Both studies showed a lower activity in cancer cells than in hyperplastic cells. This is in agreement with earlier results (Marberger, 1956;Woodard, 1956;Parkin et al, 1964;Kirchheim et al, 1964;Brandes and Bourne, 1956). The histochemically demonstrated absence of amino-peptidase activity in prostatic carcinomatous tissue was discussed by Kirchheim as a criterion of malignancy (Kirchheim et al, 1966).…”

Section: Resultssupporting

confidence: 94%

“…From the literature, there seems to be agreement in the localization of the enzymes, but the amount of activity is discussed and diverging results have been obtained (Parkin et al, 1964;Kirchheim et al, 1964;Mathes and Norman, 1956;Brandes and Bourne, 1956;Feustel et al, 1970;Aso et al, 1968). Additional studies were performed in our investigations.…”

Section: Methodsmentioning

confidence: 97%

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Some biochemical and histochemical aspects in hyperplasia and carcinoma of the human prostate

Nilsson

Müntzing

1973

Journal of Surgical Oncology

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A study of histochemical and biochemical enzyme activity determination in hyperplastic and untreated carcinomatous prostatic tissue is presented. The histochemical results are in agreement with earlier investigations and the biochemical findings corroborate grossly the histochemical findings. A comparison of conventional estrogen therapy to Estramustine phosphate, (EstracytR), therapy is discussed from both the histochemical and biochemical points of view. The enzyme activity quotient, acid phosphatase lo 0-glucuronidase, is pointed out as a possible indicator in following the therapeutic response, and in determination of the origin of metastases. Lipofuscin pigment is demonstrated to a much higher frequency after Estracyt treatment than after conventional estrogen treatment. This indicates that this substance might have an intracellular effect which is different and more pronounced that than of estrogen.

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Section: Resultssupporting

confidence: 94%

Section: Methodsmentioning

confidence: 97%

Some biochemical and histochemical aspects in hyperplasia and carcinoma of the human prostate

Nilsson

Müntzing

1973

Journal of Surgical Oncology

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“…Weak staining by APG1 was observed in the normal and hyperplastic glands of most sections, but no staining was observed in the carci noma. The frequency of the positive staining for anti-PSAP and anti-PSA was reduced with increasing grade as indicated by a number of reports [11,12], Frozen Sections. The positive staining rate of APG1 was 100% in simple glands, 33% in cribriform and fused glands and 17% in solid and trabecular types, showing a declining frequency of the positive staining with tumor grade ( fig.…”

Section: Immunostainingmentioning

confidence: 92%

Glycolipid Expression in Prostatic Tissue and Analysis of the Antigen Recognized by Antiprostatic Monoclonal Antibody APG1

et al. 1992

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The expression patterns of glycolipid from prostatic hyperplasia, prostatic cancer and normal prostate tissue were observed. A further analysis of antigen recognized by mouse monoclonal antibody APG1, which was gained by immunizing glycolipids extracted from human prostate cancer, was also performed. In cancer tissue, both of the lactosyl and globoside series glycolipids were found to be generally reduced, although in the ganglioside series, GM3 and GD3 were not reduced and only the glycolipids with longer chains than GD2 were found to be reduced. These results indicated that the inhibition of sugar chain elongation, but not sialylation, was the main synthetic change occurring with carcinogenesis of the human prostate. APG1 reacted with only two bands near GM2 and GD2 of the ganglioside fraction on a thin-layer chromatography plate, but it did not react with any of the known gangliosides of the ganglioside series including GM2 and GD2. Histochemically, APG1 showed intense reaction only in frozen tissue sections of human prostate, and the reactivity decreased with the increasing grade of cancer. Therefore, this antigen was considered to be a prostate-specific and differentiated antigen reacting with nonganglioseries gangliosides.

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“…By contrast, in the same tumours activity of succinic and alpha-glycerophosphate dehydrogenase was reduced. In studies of human prostate cancer, some workers have shown by quantitative histochemical techniques that the level of acid phosphatase activity is reduced as tumour differentiation decreases (Parkin, Bylsma, Torre, Drew, and Madden, 1964). Other histochqmical studies of human cancers have revealed somewhat conflicting results which may be attributed in part to the methodology employed (Dawson, 1967).…”

Section: Discussionmentioning

confidence: 99%