The DNA glycosylase T:G mismatch-specific thymine DNA glycosylase represses thyroid transcription factor-1-activated transcription.

The transcription factor thyroid transcription factor-1 (TTF-1) is a homeodomain-containing protein that belongs to the NK2 family of genes involved in organogenesis. TTF-1 is required for normal development of the forebrain, lung, and thyroid. In a search for factors that regulate TTF-1 transcriptional activity, we isolated three genes (T:G mismatch-specific thymine DNA glycosylase (TDG), homeodomain-interacting protein kinase 2 (HIPK2), and Ajuba), whose products can interact with TTF-1 in yeast and in mammalian cells. TDG is an enzyme involved in base excision repair. In the present paper, we show that TDG acts as a strong repressor of TTF-1 transcriptional activity in a dose-dependent manner, while HIPK2 and Ajuba display no effect on TTF-1 activity, at least under the tested conditions. TDG-mediated inhibition occurs specifically on TTF-1-responsive promoters in thyroid and non thyroid cells. TDG associates with TTF-1 in mammalian cells through the TTF-1 carboxyl-terminal activation domain and is independent of the homeodomain. These findings reveal a previously unsuspected role for the repair enzyme TDG as a transcriptional repressor and open new routes toward the understanding of the regulation of TTF-1 transcriptional activity.

TTF-2, a new forkhead protein, shows a temporal expression in the developing thyroid which is consistent with a role in controlling the onset of differentiation.

Expression of thyroglobulin (Tg) and thyroperoxidase (TPO) genes in thyroid follicular cells occurs in the mouse at embryonic day (E)14.5. Two transcription factors, TTF-1 and Pax-8, have been implicated in transcriptional activation of Tg and TPO, even though the onset of their expression is at E9.5, suggesting that additional events are necessary for transcriptional activation of Tg and TPO genes. We report in this paper the cloning of TTF-2, a DNA binding protein that recognizes sites on both Tg and TPO promoters. TTF-2 is a new forkhead domain-containing protein whose expression is restricted to the endodermal lining of the foregut and to the ectoderm that will give rise to the anterior pituitary. TTF-2 shows transient expression in the developing thyroid and anterior pituitary. In the thyroid, TTF-2 expression is down-regulated just before the onset of Tg and TPO gene expression, suggesting that this transcription factor plays the role in development of a negative controller of thyroid-specific gene expression.

Cloning of ascidian homeobox genes provides evidence for a primordial chordate cluster.

In order to isolate genes important in controlling embryonic development in Tunicates, a genomic library from the ascidian Ciona intestinalis was screened with a degenerate oligodeoxyribonucleotide encoding the third helix of Antennapedia-type homeoboxes. Fourteen C. intestinalis homeobox genes, corresponding to several classes of homeodomains, have been identified. Five of the isolated homeoboxes show their highest homology to members of the Vertebrate HOX clusters. mRNAs for two of the isolated homeoboxes are present in unfertilized C. intestinalis eggs.

Biological role of D-amino acid oxidase and D-aspartate oxidase. Effects of D-amino acids.

D-Amino acids administered to animals are absorbed by the intestine and transported through the blood-stream to solid tissues where they are oxidized in vivo by D-amino acid oxidase and D-aspartate oxidase to produce the same compounds they do in vitro; i.e. NH3, H2O2, and the keto acid corresponding to the amino acid ingested. In the liver and kidneys of the animals, an inverse relationship exists between the occurrence of D-amino acids and these oxidative enzymes. For example, younger animals have lower amounts of these oxidases and consequently higher concentrations of free D-amino acids compared to adult animals. If the ingested D-amino acids are not metabolized by these enzymes, they will accumulate in the tissues and may provoke serious damage, e.g. suppression of the synthesis of other essential enzymes and inhibition of the growth rate of the animals. A specific enzyme induction for these D-amino acid oxidases exists in young rats following ingestion of free D-amino acids by the mother. Specifically, when a mother rat ingests D-Ala or D-Asp during pregnancy and suckling, an increase in D-amino acid oxidase or D-aspartate oxidase is observed in the liver and kidneys of the baby rats. These results suggest that the in vivo biological role of these oxidases in animals is to act as detoxifying agents to metabolize D-amino acids which may have accumulated during aging.

A mouse gene related to Distal-less shows a restricted expression in the developing forebrain.

Many genes known to be involved in embryogenesis and morphogenesis of the fruitfly Drosophila melanogaster encode proteins with a highly conserved region of 60 amino acids called the homeodomain. Mammalian counterparts for most of these genes have been identified, including those homologous to the Drosophila homeotic genes or to genes such as evenskipped, engrailed or caudal. We have isolated a murine homeobox gene that encodes a homeodomain similar to that encoded by the Drosophila Distalless (Dll) gene. Dll has a crucial role in Drosophila limb morphogenesis, partially specifying pattern along the proximo-distal axis of the limb. The murine counterpart is expressed in a restricted region of the developing brain, within the diencephalon and the adjacent telencephalic regions.

Total hydrolysis of proteins with strongly reduced racemization of amino acids.

A new method has been devised for the complete hydrolysis of proteins with an extremely low level of racemization of amino acids. Proteins are incubated in 10 M HCl at a low temperature to obtain partial hydrolysis. They are then incubated with pronase and finally with leucine aminopeptidase and peptidyl-D-amino-acid hydrolase from Loligo vulgaris. The proposed method ensures the total hydrolysis of either purified proteins or proteins contained in a crude homogenate of animal or vegetable tissue. In both cases, the racemization of amino acids (expressed as rate of D form/D + L form X 100) was lower than 0.015% for aspartic acid and lower than 0.01% for other amino acids. D-Amino acids released from peptides or proteins were estimated with enzymatic methods based on the use of octopus D-aspartate oxidase or hog kidney D-amino acid oxidase; with these enzymes, 0.05 nmol of a D-amino acid was determined in the presence of up to 20 mumols of a mixture of L-amino acids (ratio %D/D + L = 0.00025). The method allows the determination of D-amino acids either in tissues in which they are present in high concentrations (as human cataract lenses, tooth enamel, etc.) or in those with low enantiomer content (as brain, erythrocytes, etc.). Using the method described, we hydrolyzed several synthetic peptides consisting of D- and L-amino acids and determined the amount of D-amino acids. In addition, we totally hydrolyzed all the nuclear proteins of human cataractous lenses. The amount of D-aspartic acid was 0.026 mumols/mg in lenses of women aged between 71 and 76 years and 0.0256 mumols/mg in lenses of men aged between 55 and 72 years. The D-aspartic acid measured corresponds to about 12% with respect to total aspartic acid.

Effect of various substances on the colorimetric amino acid-ninhydrin reaction.

The effect of salts, acids, alkali, and buffer solutions on the color development of the Cd-ninhydrin-amino acid reaction has been investigated. Of the salt solutions examined only Cu2+ and Fe3+ interfered with the color yield. Very low concentrations of these ions were sufficient to drastically inhibit color development.