Paolo Emidio Macchia

A mouse model for hereditary thyroid dysgenesis and cleft palate.

Alteration of thyroid gland morphogenesis (thyroid dysgenesis) is a frequent human malformation. Among the one in three to four thousand newborns in which congenital hypothyroidism is detected, 80% have either an ectopic, small and sublingual thyroid, or have no thyroid tissue. Most of these cases appear sporadically, although a few cases of recurring familial thyroid dysgenesis have been described. The lack of evidence for hereditary thyroid dysgenesis may be due to the severity of the hypothyroid phenotype. Neonatal screening and early thyroid hormone therapy have eliminated most of the clinical consequences of hypothyroidism such that the heritability of this condition may become apparent in the near future. We have recently cloned cDNA encoding a forkhead domain-containing transcription factor, TTF-2, and have located the position of the gene, designated Titf2, to mouse chromosome 4 (ref. 3). Titf2 is expressed in the developing thyroid, in most of the foregut endoderm and in craniopharyngeal ectoderm, including Rathkes pouch. Expression of Titf2 in thyroid cell precursors is down-regulated as they cease migration, suggesting that this factor is involved in the process of thyroid gland morphogenesis. Here we show that Titf2-null mutant mice exhibit cleft palate and either a sublingual or completely absent thyroid gland. Thus, mutation of Titf2 –/– results in neonatal hypothyroidism that shows similarity to thyroid dysgenesis in humans.

Molecular genetics of congenital hypothyroidism

Congenital thyroid gland defects - resulting in reduced production of the hormones triiodothyronine (T3) and thyroxine (T4) - can be a consequence of either reduced or absent thyroid tissue (thyroid dysgenesis) or, less frequently, of impairment in the biochemical mechanisms responsible for hormone biosynthesis (thyroid dyshormonogenesis). Recent studies have revealed how mutations in the genes encoding either transcription factors or the thyroid stimulating hormone receptor cause, in humans or in mouse models, thyroid dysgenesis. This demonstrates, for the first time, the heritability of this condition. New genes responsible for thyroid dyshormonogenesis have also been discovered.

Epidermal growth factor receptor in human brain tumors

The expression of epidermal growth factor receptor (EGF-R) was examined in 27 primary human brain tumors (7 glioblastomas, 10 astrocytomas, 5 oligodendrogliomas, 1 schwannoma, 1 ganglioneuroma, 1 medulloblastoma, 1 ependimoma, 1 histiocitic lymphoma), in 6 brain metastases from lung carcinomas and in 20 meningiomas. Peritumoral tissues histologically normal excised surgically along with a large tumor were used as control. All plasma membranes from brain tissues tested showed specific EGF binding. The EGF receptor is expressed at low levels in the control human brain and at very high levels in 60% of the total intracranial tumors studied. When the various histological types of tumors were analyzed, the higher percentage of positive tumors was found with the meningiomas (85%) and the glioblastomas (71%), while the lower percentage of positivity was found with the oligodendrogliomas (40%) and the astrocytomas (30%). A good correlation between binding and total amount of EGF-R protein detected by Western Blot was also observed.

Gangliosides and phospholipids in human thyroids responsive and unresponsive to thyrotropin

The patterns of gangliosides and phospholipids and their relation to TSH response were examined in twenty-six malignant thyroid tumors (4 follicular, 6 papillary, 5 medullary, 11 anaplastic carcinomas) and thirty-six hyperplastic goiters. Thirteen thyroid tissues adjacent to benign tumors with no evidence of macroscopic or microscopic abnormalities were used as normal tissue. In normal thyroids the major ganglioside was GD3 (44%) and GM3 was the second ganglioside (20%). In minor amounts GD1a (8.6%), GD1b (6.2%), GT1b (5.7%) and GM1 (5.6%) were present. In hyperplastic goiters and in follicular carcinomas the patterns of gangliosides were similar to that of normal tissue except for GM3 which, in the last tissue, was higher (34%). In papillary carcinomas low levels of GM3 (11%) and GT1b (0.8%) with a high level of GD1b (12.6%) were found. In anaplastic carcinomas GM3 was very high (47%) whereas GD3 was low (18%). In these tumors also a high percentage (14.0%) of GD1a was found. In medullary carcinomas the lowest levels of GM3 (4%) with the highest level of GD3 (64%) were found. Although large differences of the gangliosides distribution were clearly encountered in the various pathological human thyroid, no correlation between lack of TSH response and some individual ganglioside could be made. No differences in the individual phospholipid in the various tissues studied were found.

Epidermal growth factor receptor and lipid membrane components in human lung cancers

The binding of 125I-epidermal growth factor (EGF) to the plasma membranes of 54 samples of human lung tumors was determined. These included 34 squamous cell carcinomas and 20 adenocarcinomas. Twenty samples of histologically normal lung excised surgically along with the tumors were used as controls. Most of the plasma membranes showed an EGF receptor level higher than that of normal tissue. A moderate increase in the amount of 125I-EGF bound (2–5 fold) was observed in the majority of the tumors. Only a few cases (5–10% of the total) showed a large increase (> than 10 fold). The binding of 125I-EGF was compared with clinical stages and grades of differentiation. No correlation between the stage of the tumor and 125I-EGF binding was observed. However, the highest levels of EGF receptor (EGF-R) were found in poorly differentiated squamous cell carcinomas. The total amount and the distribution pattern of ganglio-sides and phospholipids were analyzed in individual tumors. A decrease in GD1b, GD1a and sphingomyelin and an increase in GM1 and GM3 was observed. No correlation was detected when tumors with the highest or lowest levels of gangliosides or phospholipids were compared with tumors exhibiting the highest binding of 125I-EGF.

Il gozzo nodulare

RiassuntoIl gozzo nodulare è una patologia frequente che riconosce multipli meccanismi patogenetici, tra i quali uno dei principali è rappresentato dalla carenza iodica. Nelle pagine a seguire sono brevemente illustrati gli aspetti patogenetici clinici del gozzo. Vengono anche descritti gli esami necessari al corretto inquadramento di questa patologia e soprattutto i possibili approcci terapeutici in considerazione di età dei paziente, dimensioni e stato funzionale dei gozzo e dell’eventuale presenza di fenomeni compressivi sugli organi viciniori.

Basi molecolari dell’ipotiroidismo congenito

RiassuntoNell’ipotiroidismo congenito primitivo (IC) la ridotta produzione di ormoni tiroidei può essere causata da alterazioni sia nella morfogenesi della tiroide (disgenesia, 80–85%) che nella biosintesi degli ormoni tiroidei (15%). Nelle prossime pagine saranno riviste le principali basi molecolari dell’IC.