Cathepsin D was purified by two-step affinity chromatography on concanavalin A- and pepstatin-Sepharose. The main purification was achieved by washing the enzyme bound to the pepstatin-Sepharose column with buffered 6 M-urea. This step separated cathepsin D from all low- and high-molecular-weight impurities. Although the 1700-fold purified acid proteinase was homogeneous on sodium dodecyl sulphate/polyacrylamide-gel electrophoresis, it still showed microheterogeneity.
A supernatant fraction was prepared from rat uterine myometrium by homogenization, sonication and centrifugation. In this supernatant the protein concentration and the activities of an acid proteinase, an acid phosphatase and a proteinase inhibitor were measured. From the fibrous sediment, after washing with 0.5% Triton X-100 and with water, an actomyosin-containing solution was obtained by extraction with 0.6M-NaCl, and in this extract the protein concentration and a neutral proteinase activity were measured. The myometrial wet weight and the activities of the acid proteinase, acid phosphatase and proteinase inhibitor increased by factors of 3-15 during pregnancy and decreased to the same or a greater extent during involution. The amount of protein extracted with 0.6M-NaCl increased by a factor of only 2.3 and the neutral proteinase activity remained essentially constant during pregnancy and involution. The pH optimum of the neutral proteinase, and its pattern of activity compared with those of the lysosomal enzymes, show that the neutral proteinase is not of lysosomal origin. Actomyosin is degraded by the neutral proteinase activity in vitro. Since actomyosin is rapidly broken down only after parturition, the action of the neutral proteinase activity on actomyosin, if this occurs in vivo, must be regulated in some way. The proteinase-inhibitor activity measured in the first supernatant varied in a manner which suggested that it could be involved in this control.
The excretion of N tau-methylhistidine and creatinine was determined in a totally paralysed patient wih neither macroscopic nor microscopic detectable skeletal-muscle tissue. In this subject, it was possible for the first time to measure the basal non-skeletal-muscle-dependent excretion of N tau-methylhistidine and creatinine per 24 h and per kg of non-muscular body weight, 1.15 mumol (N tau-methylhistidine) and 35 mumol (creatinine) respectively. For the calculation of myofibrillar protein breakdown and skeletal-muscle mass on the basis of N tau-methylhistidine and creatinine excretion, the values have to be corrected for non-muscular sources. Our data show that skeletal-muscle tissue is the major contributor of N tau-methylhistidine in urine, since it contributes as much as 75% to the urinary excretion.
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