In mammals, the ultimobranchial body derived from the fourth pharyngeal pouch gives rise to thyroid C cells. The C cells of newborn mice are immunoreactive for calcitonin, calcitonin gene-related peptide (CGRP), protein gene product (PGP) 9.5 and NeuroD, and transiently exhibit the neuronal markers TuJ1 and somatostatin during fetal development. The basic helix-loop-helix (bHLH) transcription factor Mash1 plays a role in the differentiation of autonomic neurons. We show that in wild-type mouse embryos, Mash1 is expressed in the ultimobranchial body at embryonic day (E) 12.5, when the body is located close to the great arch arteries. It is also expressed in the ultimobanchial body fused with the thyroid lobe at E 13.5. Targeted disruption of Mash1 resulted in the absence of C cells in the mouse thyroid glands, since cells displaying the C-cell markers and expressing NeuroD were not detected during fetal development or at birth. The failure of C-cell formation in the null mutant thyroids was also confirmed by electron microscopy. While the formation and migration of the ultimobranchial body were not affected in the Mash1 null mutants, at E 12.5-E 13.5 both the ultimobranchial body located close to the arteries and the organ populating the thyroid lobe exhibited a marked increase in apoptotic cell numbers. Thus, in the mutant mice, the ultimobranchial body fails to complete its differentiation program and finally dies. These results indicate that Mash1 enhances survival of the C-cell progenitors by inhibiting apoptosis.
The pars tuberalis mainly consists of the secretory cells specific to this portion of the pituitary. We examined the localization and development of luteinizing hormone (LH) and chromogranin A in the chicken pars tuberalis by immunohistochemistry. The vast majority of the chicken pars tuberalis was occupied by cells immunoreactive for both LH and chromogranin A. Furthermore, immunoblot analysis of chicken pars tuberalis extracts with LH antiserum demonstrated that two bands, the large alpha-subunit and small beta-subunit of the LH molecule, were expressed in this tissue as well as in the pars distalis. A band for chromogranin A was also detected in pars tuberalis extracts with chromogranin A antiserum. In contrast to the cells of mammalian species that contain only a few small secretory granules, the specific cells of the chicken pars tuberalis were characterized by the presence of many secretory granules ranging from 90 to 400 nm in diameter. Postembedding immunogold labeling showed that gold particles representing immunoreactivity for LH were densely located on all secretory granules of the secretory-specific cells. Many secretory granules, especially the large ones, of the cells were also loaded with immunogold particles for chromogranin A. Double immunogold labeling confirmed that LH and chromogranin A were colocalized on the same secretory granules. During embryonic development, the primordium of the pars tuberalis was first detected at 8 days of incubation as a small group of cells containing LH- and chromogranin-immunoreactive cells. In the pars distalis, the onset of LH and chromogranin expression occurred earlier, at 6 days of incubation. At 10 days of incubation, the pars tuberalis primordium became large cell masses consisting of LH- and chromogranin-immunoreactive cells, which were located close to the median eminence. Subsequently, the primordium extended along the median eminence progressively with age. At 14 days of incubation, it reached to the rostral end and surrounded the median eminence as slender cell cords. These results indicate that specific cells of the chicken pars tuberalis synthesize a glycoprotein hormone related to the LH molecule, which is stored in the secretory granules together with chromogranin A. The pars tuberalis may be involved in the regulation of gonadal function in a different way from that of the pars distalis.
The effect of different photoperiods on the specific secretory cells of the pars tuberalis was examined in male chicks. Animals were placed in one of three different photoperiod regimens: (1) normal control (light:dark = 12 h:12 h), (2) continuous light (L:D = 24 h:0), and (3) extended darkness (L:D = 1 h:23 h). The levels of common alpha-subunit mRNA in the pars tuberalis were examined by Northern blot analysis and compared with those in the pars distalis. In chicks exposed to continuous light for 1 week, alpha-subunit mRNA level in the pars tuberalis was decreased, although the level in the pars distalis was increased. Exposure to continuous light for 30 days also induced a decrease in alpha-subunit mRNA level in the pars tuberalis. On the other hand, in chicks exposed to extended darkness for 1 week, the alpha-subunit mRNA level of the pars tuberalis was markedly increased. In situ hybridization with digoxigenin-labeled common alpha-subunit cRNA probe also showed that the hybridization signals for alpha-subunit mRNA in the pars tuberalis cells become weak under continuous light for 30 days but they are very intense under extended darkness. Thus, the synthesis of alpha-subunits in the chick pars tuberalis was inhibited by continuous light but stimulated by extended darkness. These results were confirmed by semiquantitative electron-microscopic analyses. After exposure to continuous light for 30 days, many pars tuberalis (PT)-specific cells were filled with enlarged secretory granules, showing the reduction of secretory activity. On the contrary, extended darkness for 30 days induced hypertrophy of the PT-specific cells; the areas of cytoplasm and nucleus were significantly increased. In addition, secretory granules became small in size and exocytotic features were more frequent. Mitochondria and lysosomes were also increased in number. Thus, the synthetic and secretory activities of the PT-specific cells were increased under extended darkness. The data indicate that the specific cells of the pars tuberalis are responsive to photoperiodic changes in the chick.
The expression of a common α-subunit mRNA of glycoprotein hormones was examined in the pituitary of chick embryos at various stages of development by in situ hybridization with a digoxigenin-labeled quail α-subunit cRNA probe. As a comparison with the expression of α-subunit mRNA, the onset of luteinizing hormone (LH) immunoreactivity was examined by immunohistochemical staining with a chicken LH antiserum. Both α-subunit mRNA and LH immunoreactivity began to appear in the basal-posterior region of the Rathke's pouch at embryonic day (E) 3.5. At E4.5 when the cephalic and caudal lobes of the pars distalis could be distinguished in the Rathke's pouch, intense signal for α-subunit mRNA was restricted to the cephalic lobe, consisting of a high columnar epithelium. At E6, gonadotrophs that were ovoid in shape, expressed intense signal for α-subunit mRNA, and revealed intense immunoreactivity for LH, were first detected in the cephalic lobe. At this stage, α-subunit mRNA expression became weak in the undifferentiated columnar cells of the cephalic lobe. At E8, the pars tuberalis primordium located close to the median eminence was formed at the lateralapical end of the cephalic lobe. The primordium expressed intense signal for α-subunit mRNA. Gonadotrophs showing immunoreactivity for LH were densely distributed throughout the cephalic and caudal lobes in 8-day-old embryos. The pars tuberalis primordium expressing α-subunit mRNA progressively extended along the median eminence with embryonal age and reached the rostoral end by E14. Thus, both primordia of the pars distalis and pars tuberalis expressed intense signal for the common α-subunit mRNA. This subunit may play a role in the cytodifferentiation of the adenohypophysis.
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