Changes in the polypeptide assembly of guinea pig thyroglobulin induced by thyrotropin-regulated thyroid activity.

We have previously reported that the relative proportion of three polypeptide chains in guinea pig thyroglobulin is closely related to the iodine content of the protein. The present work demonstrates that it is not the iodine content per se but, rather, TSH-regulated thyroid activity which modulates the substructure of thyroglobulin. In a first set of experiments, the impact of TSH stimulation on sodium dodecyl sulfate (SDS)-induced dissociation of 19S thyroglobulin into 12S subunits was compared to that of iodination. While in control animals the ratio of 12S to 19S thyroglobulin was 48:52, it changed to 35:65 in glands strongly stimulated with TSH and blocked with MMI. This rise in the relative proportion of 19S thyroglobulin occurred despite a simultaneous drop of iodine content from 0.6% to 0.24%. It was only after TSH suppression that the well known inverse correlation between the level of iodination and dissociability reappeared. In a second set of experiments, SDS-treated thyroglobulin was fully reduced by splitting disulfide bonds with mercaptoethanol. In addition to the previously described three polypeptide chains, A, B, and C, a hitherto neglected nonreducible fraction comigrated with 19S thyroglobulin on polyacrylamide gels. Native thyroglobulin with widely varying iodine contents was obtained from unstimulated glands and from glands strongly stimulated with TSH. Drastic changes in the polypeptide chain assembly, depending on the degree of TSH stimulation but entirely independent of iodination, were observed. There was a strong negative correlation between the nonreducible 19S thyroglobulin fraction and both the B and C polypeptide chains with all experimental manipulations. We conclude that thyroglobulin substructure is highly dependent on the degree of TSH stimulation of the thyroid. TSH, through stimulation of unknown metabolic pathways, is a more important determinant of thyroglobulin substructure than the degree of iodination of the protein.