THE EARLY POST-NATAL DEVELOPMENT OF THE NEURONAL LYSOSOME 1

The hydrolysis of p -nitrophenyl-2-acetamido-2-deoxy-Β-d-gluco-(I) and Β-d-galacto-pyranoside (II) and of p -nitrophenyl-Α-d-mannopyranoside (III) by neuronal cell bodies and glial cells isolated from the cerebral cortex of 18-day-old or adult rats was found to be equally efficient, with relative ratios of hydrolysis for I, II and III of approximately 10:1:0.5 in both cell types and at both ages. Homogenates of the neuronal cell bodies obtained from cerebral cortices of 3-, 8-, 12-, 18- and 32-day-old rats were subjected to differential centrifugation and the subcellular localization of N -acetyl-Β-d-glucosaminidase (EC 3.2.1.30) hydrolysing (I)] was compared to that of the mitochondrial marker, succinate-INT- oxidoreductase (EC 1.3.99.1). A fraction in which N -acetyl-Β-d-glucosaminidase exhibited maximal specific activity could be isolated at all ages, an observation indicating that the potential for active hydrolytic performance is incorporated into the neuronal lysosome very early post-natally. The specific activities of N -acetyl-Β-d-glucosaminidase and succinate- INT-oxidoreductase reached their respective maxima at widely different times postnatally: at 10–12 days for the mitochondrial enzyme and at about 18 days for the glycosidase, a difference suggesting that in the cortical neuron lysosomes and mitochondria develop out of step. The mitochondrial, lysosomal and microsomal fractions obtained by differential centrifugation were subjected to equilibrium density centrifugation and the presence of two populations of N -acetyl-Β-d-glucosaminidase-bearing particles was demonstrated. Although their presence was readily apparent in the neurons from 8- and 12-day old brains, it was difficult to discern their presence in the neurons from the 3- and the 18-day-old brains. In 8-day-old brains gradient fractions obtained from neurons containing N -acetyl-Β-d-glucosaminidase of a specific activity up to 8-fold higher than that of the enzyme in the original neuronal homogenate were examined by electron microscopy and the concentration of numerous lysosomes and derivative bodies in these fractions was verified. Our present study demonstrates the capability of the immature and developing neuron to tightly couple the pace of its degradative processes to that of its highly efficient and highly selective synthetic activities.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/66318/1/j.1471-4159.1972.tb01312.x.pd

A STUDY OF THE NASCENT POLYPEPTIDES SYNTHESIZED ON THE FREE POLYRIBOSOMES OF RAT BRAIN IN VIVO 1

The free polyribosomes of the cerebral cortex of the immature rat (12-14 days old) were exposed to very low concentrations of trypsin at 0°C and for very brief periods of time and the conditions under which their breakdown to smaller aggregates occurs were determined. Trypsin also caused the release of nascent, radioactive polypeptides from polyribosomes prelabelled with [ 14 C]amino acids in vivo. An examination of the kinetics of release of the nascent chains by trypsin revealed that it was dependent on the concentration of trypsin as well as on the duration of incubation in the presence of trypsin. The influence of the nature of the [ 14 C]amino acid used as precursor of the nascent polypeptides and of the duration of the radioactive pulse in vivo was also determined. The radioactivity associated with polyribosomes as a result of the brief radioactive pulses administered (2 to 10 minutes) was incompletely removed even after the ribosomes were dissociated into subunits by EDTA. These findings suggest that the assembly of the cerebral ribosome in vivo must be a very rapid process, particularly in the immature animal. The nature of the nascent, radioactive polypeptides was studied by disc gel and high voltage electrophoresis and by thin-layer and column chromatography. Evidence was obtained that a rather limited number of qualitatively different molecules resides on the polyribosomes at any given moment.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/65454/1/j.1471-4159.1971.tb00223.x.pd