Interval between the synthesis and assembly of cytoskeletal proteins in cultured neurons

Abstract

We have used pulse-chase experiments to study the time interval between the synthesis and assembly of tubulin and neurofilament proteins (NFP) in sympathetic neurons grown in tissue culture. After varying pulse- chase times, cultures were extracted with Triton X-100 such that polymerized tubulin and NFP were insoluble, while unassembled tubulin and NFP were quantitatively solubilized. The partitioning of labeled tubulin and NFP between Triton X-100-soluble and insoluble, or cytoskeletal, fractions was determined with an isoelectric focusing X SDS gel electrophoresis assay. Labeled tubulin and NFP in cultures pulse-labeled for 5–10 min partitions primarily with the soluble fraction. When pulse-labeled cultures were chased for increasing periods of time, relatively more of the total labeled tubulin and NFP partitioned with the cytoskeleton, attaining maximal values after chase times of 60–120 and 15–30 min, respectively. The maximal values for the relative levels of labeled tubulin and NFP in polymer were 70–75 and greater than 90%, respectively. The levels of labeled tubulin and NFP synthesized during a short pulse-label remained constant for at least 2 hr, indicating that selective turnover of soluble tubulin and NFP does not detectably contribute to the changes in solubility properties of these proteins observed in the pulse-chase experiments. These results indicate that newly synthesized tubulin and NFP are rapidly assembled from soluble precursors. The lag between the synthesis and assembly of the 145,000-molecular-weight NFP is not related to its phosphorylation because its initial incorporation into the cytoskeleton occurs prior to its phosphorylation.(ABSTRACT TRUNCATED AT 250 WORDS)