Adenosine 3',5'-monophosphate modulates thyrotropin receptor clustering and thyrotropin activity in culture.

A biologically active rhodamine conjugate of thyrotropin binds at 4 degrees C to diffusely distributed membrane thyrotropin receptors which patch and become endocytosed into thyroid cells in a temperature-sensitive process. When the cells are first incubated with 8-bromo-cyclic adenosine monophosphate at 37 degrees C, the conjugate also binds to clustered receptors at 4 degrees C. Furthermore, 8-bromo-cyclic adenosine monophosphate reduces the amount of adenosine 3',5'-monophosphate (cyclic AMP) induced by thyrotropin. Hence, increased intracellular cyclic AMP induces receptor patching and reduces the concentration of cyclic AMP normally induced by thyrotropin. This suggests that cyclic AMP acts both as the second messenger of thyrotropin and also as the regulator of the level of thyrotropin receptors.

P53 in blind subterranean mole rats--loss-of-function versus gain-of-function activities on newly cloned Spalax target genes.

A tumor suppressor gene, p53, controls cellular responses to a variety of stress conditions, including DNA damage and hypoxia, leading to growth arrest and/or apoptosis. Recently, we demonstrated that in blind subterranean mole rats, Spalax, a model organism for hypoxia tolerance, the p53 DNA-binding domain contains a specific Arg174Lys amino acid substitution. This substitution reduces the p53 effect on the transcription of apoptosis genes (apaf1, puma, pten and noxa) and enhances it on human cell cycle arrest and p53 stabilization/homeostasis genes (mdm2, pten, p21 and cycG). In the current study, we cloned Spalax apaf1 promoter and mdm2 intronic regions containing consensus p53-responsive elements. We compared the Spalax-responsive elements to those of human, mouse and rat and investigated the transcriptional activity of Spalax and human Arg174Lys-mutated p53 on target genes of both species. Spalax and human-mutated p53 lost induction of apaf1 transcription, and increased induction of mdm2 transcription. We conclude that Spalax evolved hypoxia-adaptive mechanisms, analogous to the alterations acquired by cancer cells during tumor development, with a bias against apoptosis while favoring cell arrest and DNA repair.

Promoter region of the murine fibroblast growth factor receptor 2 (bek/KGFR) gene.

Fibroblast growth factors (FGFs) and their receptors play an important role in cell growth, angiogenesis and embryonal development. Four distinct genes encoding fibroblast growth factor receptors (FGFRs) were identified: flg, encoding FGFR1, bek encoding FGFR2, and the genes for FGFR3 and FGFR4. Both FGFR2 and keratinocyte growth factor receptor (KGFR) are encoded by the same gene, bek. To study the regulation of expression of the FGF receptors we analysed the DNA sequence flanking the 5' region of the cDNA of murine FGFR2 to seek elements that control its transcription. A 5-kbp fragment containing the 5' end of the cDNA was isolated from mouse genomic library and used to map the promoter region. We found that the sequence encoding the 5' non-translated region of the FGFR2/KGFR cDNA contains an intron located 210 bp upstream from the translation start site. Using RNAase protection and primer extension, we identified the mRNA start 37 bp upstream from the beginning of the bek cDNA. The promoter activity was found to reside in a 1.3-kbp fragment upstream from the cDNA, and deletion mapping further localized the promoter to a 0.7-kbp fragment. The sequence of this region shows high G+C content (62%), which is particularly emphasized in the 200 bp upstream from the mRNA start (80% G+C). This region contains the CCGCCC, GGGCGG AND GGAGG motifs also found in promoters of other growth factor receptors. Neither TATA nor CAAT boxes were found near the RNA start site. The characterization of this promoter will allow studies of the regulation of expression of the FGFR2 during development and in pathophysiological states. The differences between the promoter sequence of the gene for FGFR2 (bek) and FGFR1 (flg) may explain their differential expression during development.

Comparison of EGF receptor sequences as a guide to study the ligand binding site.

While murine and human EGF-receptor (EGF-R) bind mammalian EGF with high affinity their chicken counterpart has approximately 300 fold reduced binding affinity towards mammalian EGF. We now cloned and sequenced the extracellular ligand binding domain of murine EGF-R in order to define the amino-acids which comprise the binding site for EGF. Comparison of human, murine and chicken EGF-R allows the identification of amino acid substitutions which are conservative and would not affect EGF binding, substitutions which are responsible for the low affinity binding of EGF to chicken EGF-R and those responsible for the high affinity binding of EGF to mammalian EGF-R. This analysis will enable future design of point mutations in the EGF-R which will restore the high affinity binding for EFG typical of human or murine EGF-R.

Flg-2, a new member of the family of fibroblast growth factor receptors.

Two genes, flg and bek, have been recently shown to encode receptors for fibroblast growth factors (FGF). Here we report the molecular cloning and sequence of a new member of the FGF receptor family, denoted flg-2, which was isolated from a human keratinocyte cDNA library. The cDNA sequence predicts an extracellular region possessing three immunoglobulin-like domains, a single transmembrane region and a cytoplasmic portion containing the tyrosine kinase domain split by a short inter-kinase segment. The amino acid sequence of flg-2 shows 68% and 64% identity with bek and flg, respectively. The most variable domain among the three genes is the amino-terminal immunoglobulin-like domain. Comparison with the chicken FGF receptor genes suggests that flg-2 is homologous to cek-2, whereas flg and bek are homologous to cek-1 and cek-3, respectively. Analysis of mRNA from various tissues shows that flg-2 is expressed predominantly in skin, brain and lung.

PCR-based identification of new receptors: molecular cloning of a receptor for fibroblast growth factors.

Transmembrane tyrosine kinases are involved in the control of cell growth and differentiation by extracellular signals. To enable identification of new receptor tyrosine kinases we developed a method that selectively amplifies segments of receptor genes. The method is based on a combination of polymerase chain reaction (PCR) and hybridization screening and it employs three oligonucleotide primers derived from conserved domains of receptor tyrosine kinases. It yields amplification of receptors' genes and appears to ignore cytoplasmic tyrosine kinases. When applied to RNA from 12.5 days post coitum mouse placenta, this methodology resulted in the detection of several putative or established receptors. Molecular cloning of one of these genes, which is identical to the partially characterized bek gene, identified a transmembrane tyrosine kinase with three immunoglobulin-like domains in the extracellular portion, and a cytoplasmic tyrosine kinase sequence. The isolated cDNA shows remarkable homology to the murine flg gene that encodes a receptor for fibroblast growth factors. Indeed, an antibody directed to the carboxy terminus of the deduced bek protein specifically recognized a receptor for acidic and basic fibroblast growth factors in murine hepatoma cells. We therefore expect that the methodology we developed will enable the study of new receptors in hardly accessible biological systems such as early mammalian embryos or stem cells.

The murine flg gene encodes a receptor for fibroblast growth factor.

The human flg gene has been previously shown to encode a tyrosine kinase whose transcription in endothelial cells is regulated by the fibroblast growth factor (FGF). We report the cloning and sequencing of the murine flg which revealed that the full length transcript encodes a transmembrane receptor-like protein. The extracellular portion is composed of three homologous immunoglobulin-like domains, resembling the organization of the receptor for interleukin-1, and the cytoplasmic domain displays unique organization of tyrosine kinase sequences. An anti-peptide antibody directed to the carboxy-terminus of the flg protein recognized three fibroblast-cell proteins (p150, p130 and p105), that undergo phosphorylation in the immune-complex. Moreover, the antibody specifically immunoprecipitated two proteins (p145 and p120) that were covalently crosslinked to basic FGF, but only one (p155) of the two molecular forms of the receptor for acidic FGF. In situ hybridization analysis of mouse embryos (12.5 days p.c.) indicated that flg is transcribed in the prospective brain, areas of the face and the vertebral column. The latter exhibited progressive cranio-caudal concentration into the intervertebral discs. Taken together, these results strongly suggest that the flg gene encodes a receptor for fibroblast growth factor(s).

The ontogeny of the thyrotropin-thyroid axis in early bovine embryos.

T4 and T3 formation and their response to TSH, cAMP, and prostaglandin E2 (PGE2) stimulation were studied by RIA in cultured bovine fetal thyroids from 130 embryos of 1.2-25.0 cm crown-rump length (CRL). T4 and T3 were found in all of the freshly isolated glands studied, and their concentrations increased significantly (P less than 0.05) during a 24-h incubation of glands from fetuses with a CRL greater than 8.0 cm. The release of T4 (nanograms per mg tissue), but not of T3, increased consistently with CRL (r = 0.64; P less than 0.05). The addition of TSH (0.5 mU) to the culture medium induced a 2- to 3-fold increase in the secretion of T4, but not of T3, by glands of fetuses with a CRL of 3.0-25.0 cm (P less than 0.05). Dibutyryl cAMP (10(-4) M) and PGE2 (10(-4) M) had comparable effects. A combination of TSH and theophylline (1 mM) or of TSH and dibutyryl cAMP significantly enhanced the T4 released by cultured tissue into the medium (P less than 0.05) over that induced by either agonist, but the combined effect was not fully additive. The total PGE2 in the tissue and medium was not changed by the addition of 0.5 mU TSH, and indomethacin had no effect on TSH-induced T4 secretion. The data show that thyroids of fetuses that have reached a CRL of 3.0 cm have the enzymatic capacity to produce both T4 and T3, and T4 is the dominant product formed. While exogenous PGE2 at high concentrations stimulates fetal T4 secretion, it does not mediate the actions of TSH and cAMP on the fetal thyroid.

The interaction of cultured thyroid cells of early bovine embryos with thyrotropin and thyroglobulin.

We have prepared primary thyroid cell cultures of early bovine embryos from the first trimester of pregnancy in order to study the ontogeny of their interaction with TSH and thyroglobulin (Tg). The ability of these cells to synthesize and secrete Tg, as well as the trophic effect of TSH on the organization of the thyroid cells, were also investigated. To determine the maturation of these functions we prepared fluorescent conjugates of TSH, Tg, and anti-Tg antibodies, and visualized their interaction with the thyroid epithelial cells. Our study shows that the ability to bind TSH and Tg exists as early as the gestational age of 3 cm crown-rump length (CRL; 40 days) but does not develop linearly with embryonic age. Thus, there is a significant increase in the percentage of Tg-binding cells at 12 cm CRL, when colloid is first noticed in vivo, and a considerable elevation in TSH-binding cells around 15 cm CRL, when thyrotropic cells and TSH secretion from the fetal pituitary are first evident. Tg-containing cells and the ability to secrete Tg are observed at about 20 intrauterine days. The three thyroidal properties probably develop independently since only part of the Tg-containing cells bind Tg or TSH, and a significant proportion of the cells that exhibit Tg-binding do not bind TSH. The results support the notion that TSH is essential for the formation of follicle-like structures and effects the organization of thyroid cells into a functional structure in vitro from the late precolloidal stage.

The lens protein alpha-B-crystallin of the blind subterranean mole-rat: high homology with sighted mammals.

Blind subterranean mole rats, Spalax ehrenbergi, retain a subcutaneous, degenerated eye, which is visually non-functional but which does function in circadian entrainment. Crystallins, members of the small heat shock protein family, constitute approximately 90% of the water-soluble proteins of the transparent eye lens and are crucial for its optical properties, but they are also expressed in other tissues. In our attempt to understand the role of the eye in the blind mole-rat, we now describe the cloning, sequencing, and expression of the cDNA of alpha-B-Crystallin from two species of Spalax (S. galili and S. Judaei, with diploid chromosome numbers 2n=52 and 60, respectively). Spalax alpha- B-Crystallin is highly conserved. It is expressed in many tissues of Spalax, among them Spalax eye. The sequence of the cDNA of alpha-B-Crystallin in the eye and in the heart of Spalax is identical. Further studies are essential to clarify the role of this gene in the lens of an atrophied eye of a visually blind mammal.

A novel form of FGF receptor-3 using an alternative exon in the immunoglobulin domain III.

Four distinct FGF receptors were cloned and characterized and it was demonstrated that the ligand binding site of FGF receptors is confined to the extracellular immunoglobulin-like (Ig)-domain 2 and 3. The Ig-domain 3 is encoded by two separate exons: exon IIIa encodes the N-terminal half, and the C-terminal half is encoded by either exon IIIb or IIIc in FGFR1 and FGFR2, whereas FGFR4 is devoid of exon IIIb. Alternative usage of exons IIIb and IIIc determine the ligand binding specificity of the receptor. To analyze the arrangement of these exons in FGFR3 we cloned the genomic sequence between exon IIIa and IIIc of FGFR3 and identified an alternative exon, corresponding to exon IIIb of the FGFR1 and FGFR2. The sequence of this exon shows Ig-domain hallmarks, 44% identity with exon IIIb of other FGF receptors and 36% identity with exon IIIc of FGFR3. Using this exon as a probe for mouse RNA as well as PCR analysis, demonstrated that exon IIIb encodes an authentic form of FGFR3 that is expressed in mouse embryo, mouse skin and mouse epidermal keratinocytes. The results demonstrate that the presence of alternative exons for Ig-domain 3 is a general phenomena in FGFR1, 2 and 3, and represents a novel genetic mechanism for the generation of receptor diversity.

Adaptive hypoxic tolerance in the subterranean mole rat Spalax ehrenbergi: the role of vascular endothelial growth factor.

Spalax ehrenbergi has evolved adaptations that allow it to survive and carry out normal activities in a highly hypoxic environment. A key component of this adaptation is a higher capillary density in some Spalax tissues resulting in a shorter diffusion distance for oxygen. Vascular endothelial growth factor (VEGF) is an angiogenic factor that is critical for angiogenesis during development and in response to tissue ischemia. We demonstrate here that VEGF expression is markedly increased in those Spalax tissues with a higher capillary density relative to the normal laboratory rat Rattus norvegicus. Upregulation of VEGF thus appears to be an additional mechanism by which Spalax has adapted to its hypoxic environment.

Rapid changes in the expression of a gene encoding a calcium-binding protein in Schistosoma mansoni.

Genes expressed in a stage-specific manner may help us understand the molecular events controlling the complex life cycle of schistosomes. cDNA and genomic clones encoding a calcium-binding protein (CaBP) were obtained from cercariae and their sequence determined. The encoded protein (69 amino acids long) shows clear resemblance to the domain structure and organization of CaBP molecules. It contains two typical calcium-binding loops, the distance between which is identical to the length conserved in other CaBP molecules. In addition, the schistosome CaBP shows Ca2+-dependent electrophoretic mobility (increased with Ca2+-ions and decreased with EGTA). Northern blots revealed expression of the CaBP gene in cercariae but not in sporocyst or worm (developmental stages preceding and following cercaria). The preferential expression of this CaBP in the cercaria raises questions as to what cercaria-specific function(s) it performs. The structure of the gene is similar to that in other eukaryotes, and one intron interrupts the coding sequence. The region of the cap site was determined, and there was no evidence of the spliced leader sequence found in the mRNAs of other parasites. The CaBP reveals a rapid change in gene expression, since the mRNA is missing in the parasite residing in infected snails, but is readily detected in cercariae 1 h after shedding. We identified other genes which are turned on (like the CaBP) or shut off within the short period of transition from cercariae in the snail to free-swimming cercariae.

Very high mutation rate in offspring of Chernobyl accident liquidators.

Exposure to ionizing radiation has long been suspected to increase mutation load in humans. Nevertheless, such events as atomic bombing seem not to have yielded significant genetic defects. The Chernobyl accident created a different, long-term exposure to radiation. Clean-up teams (or 'liquidators') of the Chernobyl reactor are among those who received the highest doses, presumably in some combination of acute and chronic forms. In this study, children born to liquidator families (currently either in the Ukraine or Israel) conceived after (CA) parental exposure to radiation were screened for the appearance of new fragments using multi-site DNA fingerprinting. Their sibs conceived before (CB) exposure served as critical internal controls, in addition to external controls (non-exposed families). An unexpectedly high (sevenfold) increase in the number of new bands in CA individuals compared with the level seen in controls was recorded. A strong tendency for the number of new bands to decrease with elapsed time between exposure and offspring conception was established for the Ukrainian families. These results indicate that low doses of radiation can induce multiple changes in human germline DNA.

Direct visualization of membrane clustering and endocytosis of thyrotropin into cultured thyroid cells.

We prepared a highly fluorescent conjugate of thyrotropin (TSH) which retains approximately 25% of the binding affinity of native TSH towards TSH receptor and approximately 25% of the potency of the native hormone in stimulating the accumulation of cAMP in thyroid cells. Using an image-intensified microscopy system, we observed that our fluorescent TSH bound specifically to diffusely distributed membrane receptors on live rat or bovine embryo thyroid cells grown in culture. At 37 degrees C the fluorescent hormone formed visible patches which were internalized and subsequently degraded. Hence, TSH, like other polypeptide hormones, is internalized by a process of receptor-mediated endocytosis. The addition of bivalent antibodies against the fluorophore rhodamine, to thyroid cells that were previously exposed to sub-optimal concentrations of rhodamine TSH, elicited maximal stimulation of the thyroid adenyl cyclase. Monovalent Fab' fragments did not enhance the response of rhodamine TSH. Therefore we conclude that enhanced surface clustering of TSH molecules increases their capacity to stimulate the adenyl cyclase of thyroid cells.

Evolutionary regulation of the blind subterranean mole rat, Spalax, revealed by genome-wide gene expression.

We applied genome-wide gene expression analysis to the evolutionary processes of adaptive speciation of the Israeli blind subterranean mole rats of the Spalax ehrenbergi superspecies. The four Israeli allospecies climatically and adaptively radiated into the cooler, mesic northern domain (N) and warmer, xeric southern domain (S). The kidney and brain mRNAs of two N and two S animals were examined through cross-species hybridizations with two types of Affymetrix arrays (mouse and rat) and muscle mRNA of six N and six S animals with spotted cDNA mouse arrays. The initial microarray analysis was hypothesis-free, i.e., conducted without reference to the origin of animals. Principal component analysis revealed that 20-30% of the expression signal variability could be explained by the differentiation of N-S species. Similar N-S effects were obtained for all tissues and types of arrays: two Affymetrix microarrays using probe oligomer signals and the spotted array. Likewise, ANOVA and t test statistics demonstrated significant N-S ecogeographic divergence and region-tissue specificity in gene expression. Analysis of differential gene expression between species corroborates previous results deduced by allozymes and DNA molecular polymorphisms. Functional categories show significant N-S ecologic putative adaptive divergent up-regulation of genes highlighting a higher metabolism in N, and potential adaptive brain activity and kidney urine cycle pathways in S. The present results confirm ecologic-genomic separation of blind mole rats into N and S. Gene expression regulation appears to be central to the evolution of blind mole rats.

Iodine metabolism and the effect of TSH in thyroid glands of early bovine embryos.

The ontogeny of the thyrotrophin-thyroid axis during the first trimester was studied in 104 bovine embryonic thyroids taken from foetuses of crown-rump length 1.4 to 19.2 cm (25-120 days). The uptake of labelled iodine in vitro in the absence or presence of TSH was measured. The per cent incorporation of radioiodine into iodotyrosines and iodothyronines in the presence and absence of TSH was also studied. It was found that the foetal tissue displayed radioiodine uptake by 25 days of foetal life and the uptake increased with age. TSH caused a further increase in radioiodine uptake in foetuses of 40 days or older. Incorporation of radioiodine into MIT and DIT was apparent at 25 days and into T3 and T4 by 40 days of foetal life. Addition of TSH increased the proportion of total radioiodine found as DIT and thyroxine in foetuses of 40 days older. This TSH stimulation of radioiodine incorporation increased with age. However, the proportion of radioiodine found as MIT and T3 was not affected before 120 days of foetal life. This was in marked contrast to the adult thyroid where the proportion of radioiodine found as T3 was increased by the addition of TSH. It is concluded that the foetal thyroid can respond to TSH by at least 40 days of foetal life and that this response differs from that seen in the adult.

Isolation and characterization of a 94,000-dalton protein with thyrotropic activity from early bovine placenta.

A thyrotropic protein was extracted and purified from the placenta of early bovine gestations. After protein extraction, the 45-60% ammonium sulfate precipitate of maternal and fetal bovine cotyledons was found to compete with thyroid stimulating hormone (TSH) for binding to thyroid cell membranes and to mediate TSH specific biological effects including the stimulation of cyclic AMP production, iodide uptake, and thyroxine secretion. The placental thyrotropin was further purified by gel and anion exchange chromatography, followed by binding to thyroid cell membranes and elution by mild acid treatment. 400 micrograms of isolated protein with 4.5 units of TSH-like binding activity/mg of protein was recovered from the placenta of a 90-day-old bovine gestation, representing 2 X 10(-4%) of its original wet weight. The placental thyrotropin appeared to be a 94,000-dalton protein with pI 6.0 and composed of two noncovalently associated chains of 50,000 and 44,000 daltons. The placental 94,000-dalton thyrotropin bound to TSH membrane receptors and induced specific TSH-mediated biological effects, but was structurally and immunologically distinct from TSH and hypophysical or placental gonadotropins.