Transient expression of c-erbAbeta1 messenger ribonucleic acid and beta1 thyroid hormone receptor early in adipogenesis of Ob 17 cells.

In the murine Ob 17 preadipocyte cell line, the thyroid hormone T3 is an adipogenic factor necessary at an early stage for differentiation into adipocyte. We demonstrate here that this T3 dependence may involve a transient expression (at both the messenger RNA and the protein levels) of c-ErbA beta-type receptors (T3R), although a large body of T3R remained the product of the c-erbAalpha gene, as previously described. c-ErbAbeta1 (and not beta2) expression emerged significantly at growth arrest, peaked 2 days later, and almost disappeared in maturing adipocytes. This expression is related to the presence of T3, as total deprivation of culture medium from T3 prevented it, and the addition of 1.5 nM T3 to preconfluent cultures was able to restore it. When cells were cultured in the presence of T3 and thus were able to differentiate, the c-erbAbeta peak was accompanied by sequential rapid increases in CAAT/enhancer-binding protein-delta(C/EBPdelta), peroxisome proliferator-activated-gamma receptor (PPARgamma), and C/EBPalpha gene expressions. On the contrary, under thyroid hormone-deprived culture conditions that result in nondifferentiation of the preadipocytes, c-erbAbeta1, PPARgamma, and the large C/EBPalpha expressions were blunted, and a moderate early increase in c-erbAalpha1 transcripts was sustained for a longer period. Addition of T3 to T3-deprived preconfluent cells restored PPARgamma and C/EBPalpha expressions. Taken together, the results highlight the important role of T3 in the adipogenesis of Ob 17 cells through the involvement of both beta1 and alpha1 T3R subtypes.

A novel resistance to thyroid hormone associated with a new mutation (T329N) in the thyroid hormone receptor beta gene.

Resistance to thyroid hormone (RTH) is a syndrome of elevated serum thyroxine, inappropriately "normal" serum thyrotropin (TSH) and reduced thyroid hormone responsiveness associated with point mutations in the thyroid hormone receptor-beta (TRbeta) gene. We describe a novel point mutation resulting in a cytosine for adenine substitution at nucleotide 1271 (exon 9) that results in the substitution of threonine for asparagine (T329N). This mutation was identified in a 30-year-old woman who was investigated for recurrent spontaneous abortions and was found to have RTH. Dextrothyroxine (D-T4) therapy was instituted. At 8 mg per day 2 pregnancies followed with the delivery of a healthy boy and an RTH-affected girl another miscarriage occurred on D-T4 treatment at 6 mg per day. The T329N mutation, which was also identified in the daughter, markedly reduces the affinity of TRbeta for triiodothyronine (T3). Formation of T329N mutant TR homodimers and heterodimers with RXRalpha on thyroid hormone response element F2 (TRE F2) was not affected, but the ability of T3 to interrupt T329N mutant TRbeta homodimerization was markedly reduced. The T329N mutant TRbeta was transcriptionally inactive in transient expression assays. In cotransfection assays with wild-type TRbeta1, the mutant TRbeta1 functioned in a dominant negative manner. The results suggest that the T329N mutation in the T3-binding domain of TRbeta is responsible for RTH in the proposita's family.

Selection of media for tissue and cell culture.

This chapter deals with the selection of growth media for the induction of callus and initiation of liquid suspension cultures from plants. Although the first attempts at initiating cultures of plant cells were made by the German botanist G. Haberlandt at the turn of this century, it has only been during the last three decades that rapid developments in plant cell, tissue, and organ culture have occurred. Since extensive work with microbial cultures was by then already underway, the first medium formulations used for plant culture work were inevitably based on experience of microbes. These media contained several distinct classes of compounds:

Growth determination and medium analysis.

The importance of plant cell suspension cultures as a research tool in various aspects of plant biology is well established. A basic requirement of work with plant cell suspension cultures is the ability to monitor growth on the basis of various parameters. Reliable and reproducible measurement of growth is essential in order to assess the performance of the culture in general and pinpoint the occurrence of certain metabolic events at given growth stages.

[Identification of eight new mutations in the c-erbAB gene of patients with resistance to thyroid hormone]. / Identification de huit nouvelles mutations dans le gène c-erbAB chez des patients atteints de résistance aux hormones thyroïdiennes.

Resistance to thyroid hormone (RTH) is a rare genetic disorder, usually associated with different mutations in the c-erbAB gene that encodes the beta type receptor of thyroid hormone (TRB). It is characterized by elevated serum thyroid hormone and inappropriate TSH secretion. The numerous mutations so far detected are clustered in three hot spot areas in the ligand binding domain of TRB. In the context of a national survey we have detected 16 different mutations in the c-erbAB gene, in 22 families presenting with RTH. Eight of these mutations had not been described previously. Two are located in an area not known to harbor naturally occurring mutations. This observation could lead to define a fourth cluster of mutations in the c-erbAB gene.

Ethylene regulation of carotenoid accumulation and carotenogenic gene expression in colour-contrasted apricot varieties (Prunus armeniaca).

In order to elucidate the regulation mechanisms of carotenoid biosynthesis in apricot fruit (Prunus armeniaca), carotenoid content and carotenogenic gene expression were analysed as a function of ethylene production in two colour-contrasted apricot varieties. Fruits from Goldrich (GO) were orange, while Moniqui (MO) fruits were white. Biochemical analysis showed that GO accumulated precursors of the uncoloured carotenoids, phytoene and phytofluene, and the coloured carotenoid, beta-carotene, while Moniqui (MO) fruits only accumulated phytoene and phytofluene but no beta-carotene. Physiological analysis showed that ethylene production was clearly weaker in GO than in MO. Carotenogenic gene expression (Psy-1, Pds, and Zds) and carotenoid accumulation were measured with respect to ethylene production which is initiated in mature green fruits at the onset of the climacteric stage or following exo-ethylene or ethylene-receptor inhibitor (1-MCP) treatments. Results showed (i) systematically stronger expression of carotenogenic genes in white than in orange fruits, even for the Zds gene involved in beta-carotene synthesis that is undetectable in MO fruits, (ii) ethylene-induction of Psy-1 and Pds gene expression and the corresponding product accumulation, (iii) Zds gene expression and beta-carotene production independent of ethylene. The different results obtained at physiological, biochemical, and molecular levels revealed the complex regulation of carotenoid biosynthesis in apricots and led to suggestions regarding some possible ways to regulate it.

Interrelationship between nitrate assimilation and carbohydrate metabolism in plant roots.

The effect of nitrate incubation on the pattern of carbohydrate metabolism in different regions of the pea (Pisum sativum L. var. Kelvedon Wonder) root has been studied. Roots were incubated in a 10 mM potassium nitrate solution for 4, 8 and 12 h. Marked increases were noted in the activities of nitrate assimilation enzymes after 4 h. Increased activities were also recorded for hexokinase, pyruvate kinase, glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase and transketolase. No consistent changes were observed in the activities of phosphofructokinase and glyceraldehyde-3-phosphate dehydrogenase. Experiments with [1-(14)C] and [6-(14)C]glucose indicated a relative shift in the pattern of carbohydrate oxidation from glycolysis to the pentose phosphate pathway. The data are interpreted as indicating a close interrelationship between nitrate assimilation and carbohydrate metabolism, particularly in relation to the supply of NADPH by the pentose phosphate pathway for nitrite reductase.

Detection of a new de novo mutation at codon 251 of exon 8 of thyroid hormone receptor beta gene in an Italian kindred with resistance to thyroid hormone.

Resistance to thyroid hormone (RTH) is almost invariably associated with mutations of the thyroid hormone (TH) receptor beta (hTR beta) gene and is inherited as an autosomal dominant disease. Mutations of hTR beta identified in patients affected by RTH cluster generally at two spots of the ligand binding domain. We investigated whether an Italian kindred with RTH had a mutation in the thyroid hormone (TH) receptor beta gene. Blood samples were obtained from the available family members for biochemical and genetic analyses. Thyroid function tests in basal conditions, and in the case of the propositus also following incremental doses of T3, were performed. Exon 4 to 10 of hTR beta gene were amplified using the polymerase chain reaction (PCR) and the mutation was identified by direct sequence analysis. The affinity constant of this mutated receptor for T3 was measured by in vitro transcription-translation and was then compared with that of wild type. We identified a heterozygous G to A transition at nucleotide 1037 of exon 8 at codon 251, resulting in a glycine (G) to glutamic acid (E) substitution (G251E) in the patient affected by RTH and in his affected offspring, but not in the normal family members. This novel mutation represents a de novo mutation since both parents of the index case were unaffected and did not have this genomic mutation. When expressed in vitro, the mutant protein (G251E) showed a marked decrease of the affinity for T3, suggesting an impaired ligand-dependent transactivation activity of this mutant receptor. In vivo studies with incremental doses of L-T3 demonstrated a reduced sensitivity to TH in the index case, in particular at the pituitary level where the thyrotrophs' activity was not completely inhibited even by 200 micrograms/day of L-T3. G251E mutation represents the fourth mutation described up to now in exon 8 of hTR beta among the subjects affected by RTH. A third cluster of mutations of the c-erbA beta gene located proximally with respect to the other two so far described begins to emerge in RTH patients.