Abstract
Modulations in the total and free activities of acid phosphatase, acid protease, aryl sulfatase, and β-glucuronidase reveal that maximum lysosomal activity accompanies histogenetic cell death within the lateral motor column (LMC) of Rana pipiens larvae. LMC neurogenesis is separable into three distinct periods. In the first, hydrolytic activity remains low through the initial half of the period only to exhibit an exponential rise in the latter half. This increase in acid hydrolase activity continues well into the period of histogenetic cell death (Period 2). At this juncture, lysosomal activity (total and free) reaches a maximum. Subsequently, hydrolytic activity declines with the cessation of neuronal death (Period 3). Activation experiments indicate that lysosomal granules isolated during the cell death period are extremely sensitive to a variety of procedures which disrupt membranes, whereas preparations from younger or older larvae are more stable. Alterations in lysosomal properties are discussed in terms of our present knowledge on lysosomal packaging, activation, and heterogeneity during the course of neural maturation.
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