Acid phosphatases of the rat ventral prostate were fractionated by gel filtration (GF) on Sepharose 6B, isoelectric focusing (IEF), and chromatofocusing (CF). In GF three activity peaks (GF-1, GF-2, GF-3) were disclosed. They showed some differences in substrate preference when six substrates (p-nitrophenyl phosphate; p-NPP; phenolphthalein phosphate, Phe-P; thymolphthalein phosphate, Tym-P; alpha-naphthyl phosphate, alpha-NP; beta-naphthyl phosphate, beta-NP; naphthol ASBI phosphate, N-ASBI-P) were tested. Differences were also encountered in their sensitivity to tartrate and fluoride. IEF gave seven bands at different pI values (8.3, 8.1, 7.9, 7.1, 6.4, 5.5, and 5.0) with alpha-NP and beta-NP but only four with N-ASBI-P. Four of the bands (8.3, 8.1, 7.9, 5.5) were sensitive to tartrate. In CF eight activity peaks (CF-1 to CF-8) were resolved with the six substrates. They differed from each other in pI values, pH optima, substrate preference, and modifier characteristics. Peaks CF-1 (pI 8.3, pH 5.5), CF-2 (pI 8.1, pH 4.2) and CF-3 (pI 7.9, pH 4.2) had a large substrate spectrum and high sensitivity to tartrate and fluoride. CF-4 (pI 7.1, pH 6.0) and CF-7 (pI 5.5, pH 4.2) were low in activity, preferred alpha-NP as substrate, and were moderately sensitive to tartrate. CF-5 (pI 6.4, pH 5.5) and CF-8 (pI 5.0, pH 5.0) were able to hydrolyse all substrates tested with moderate inhibition by tartrate. CF-6 (pI 6.0, pH 5.0) showed a relative preference for p-NPP and Phe-P with no hydrolysis of N-ASBI-P and Tym-P. Of these activities CF-6 and CF-7 were also clearly activated by Co2+. Peaks CF-6 and CF-7 appeared the most sensitive to p-chloromercuribenzoate. It is concluded that activities CF-1, CF-2, and CF-3 are lysosomal isoenzymes with minor structural differences. The others are possibly all nonlysosomal with greater biochemical differences. Some of them apparently represent the secretory form(s) of acid phosphatase in the rat ventral prostate.
Acid phosphatase activity of different parts (ventral, lateral and posterior lobes and coagulating gland) of the rat prostatic complex and seminal vesicles were analyzed in homogenate and after fractionation with gel filtration and chromatofocusing. Significant differences between the various tissue homogenates were recorded in the hydrolysis of p-nitrophenyl phosphate, alpha-naphthyl phosphate and naphthol ASBI phosphate and the percentage of the tartrate-resistant activity varied from about 30 (in seminal vesicles) to 56 (in coagulating gland). Gel filtration resulted in the appearance of 2 (Sephadex G-200) to 3 (Sepharose 6B) activity peaks (GF-1 to GF-3). Studies with 6 substrates (p-nitrophenyl phosphate, alpha-naphthyl phosphate, beta-naphthyl phosphate, naphthol ASBI phosphate, phenolphthalein phosphate and thymolphthalein phosphate) showed some relative differences in the hydrolysis rates as well as indications for possible overlapping of multiple enzymes in these peaks. Chromatofocusing of the ventral prostate homogenate resulted in the appearance of 8 activities (CF-1 to CF-8) with different pI-values (8.2, 8.1, 7.9, 7.1, 6.4, 6.0, 5.5, and 5.0), substrate preferences, pH-optima (5.5, 4.2, 4.2, 6.0, 5.5, 5.0, 4.2, and 5.0), molecular weights and modifier characteristics. The other tissues contained a lower number of these activities: 4 (CF-1 to CF-3 and CF-6) in lateral and posterior lobes and coagulating gland and 5 (CF-1 to CF-4 and CF-6) in seminal vesicles. The correspondence of the enzyme peaks after gel filtration and chromatofocusing was analyzed by refractionation. This indicated that some of the enzymes (GF-1, CF-5, CF-8) may appear in polymeric/aggregate forms. The differences in the acid phosphatase pattern suggest characteristic functional features in the various parts of the rat prostatic complex.
Acid phosphatase activities were measured with five different substrates after fractionation with Sepharose 6B and DE-52 cellulose chromatography of homogenate from normal adult dog testis and a testicular tumor. The tumor showed a positive 3 beta-hydroxysteroid dehydrogenase reaction and was diagnosed as a Leydig cell adenoma. The fractionations gave three separate enzyme activities in the normal testis and two enzymes in the tumor. All were sensitive to sodium fluoride, but differed from each other in pH-optima and the response to Co2+ and Zn2+. Enzymes I and II were identical in both tissues. The latter with a smaller molecular weight was activated by Zn2+ but not by Co2+ and had slightly higher pH-optimum (4.5) than enzyme I (optimum at pH 3.5). The third enzyme was activated by Co2+ and Zn2+ and had the highest pH-optimum (pH 5.5). It was called enzyme IV due to its resemblance to a similar activity in other mammalian species.
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