HYPOTHALAMIC NEUROSECRETION AND METAMORPHOSIS IN XENOPUS LAEVIS .4. EFFECT OF EXTIRPATION OF PRESUMED TRF CELLS AND OF A SUBSEQUENT PTU TREATMENT

The frontal brain was removed from premetamorphic larvae of Xenopus laevis. Part of the animals was kept in a 0.01% propylthiouracil (PTU) solution for 21, 30 or 90 days, together with unoperated controls. Others were reared in tap water for the same length of time. The hypothalamus, the pituitary and the thyroids were studied in sagittal sections stained with aldehyde fuchsin or pseudoisocyanine (PIC). Operated tadpoles lacking the telencephalon only, could not be distinguished from unoperated controls. Extirpation of the preoptic region of the hypothalamus lowered the activity of the thyrotropic (TSH) cells and of the thyroids, and blocked metamorphosis. In animals with intact PIC-positive cells in the dorsal preoptic region, PTU induced a degranulation of these cells, stimulated the TSH cells and caused a strong hypertrophy of the thyroids. It is concluded that these neurosecretory cells in the dorsal preoptic region produce a thyrotropin-releasing factor (TRF), indispensable for the endocrine regulation of metamorphosis, and that the thyroid hormones have a negative feed-back influence upon the TRF cells. In part of the animals lacking the rostral hypothalamus, new PIC-positive cells were observed to develop immediately behind the preoptic region. In these animals PTU was somewhat less effective than in the animals with an intact dorsal preoptic region. This means either that the newly differentiated PIC-positive cells have a TRF function or that the thyroids can exert a direct negative feed-back upon the TSH cells. The latter possibility is supported by the fact that even in the absence of any neurosecretory cell PTU stimulated the thyroids. Blocking of thyroid hormone production by PTU inhibited the differentiation of the hypothalamus, of the median eminence and of the portal vessels. It may be deducted that during metamorphosis the general morphogenetic effect of the thyroid hormones stimulates the differentiation of the structures necessary for the augmentation of the TSH activity. © 1969 Springer-Verlag.