The kinetics of T cell antigen receptor expression by subgroups of CD4+8+ thymocytes: delineation of CD4+8+3(2+) thymocytes as post-selection intermediates leading to mature T cells.

Cortical thymocytes from adult mice, separated on the basis of coexpression of CD4 and CD8 or of binding of high levels of peanut agglutinin (PNA), were subdivided according to the level of expression of the T cell receptor (TCR)-CD3 complex. The incidence of dividing cells in the resultant subpopulations was determined by DNA staining. Precursor-product relationships and the timing of TCR-CD3 acquisition were studied using continuous in vivo [3H]TdR labeling and radioautography. The extent of intrathymic selection for TCR specificity in the subpopulations was determined from the incidence of cells bearing V beta 6 or V beta 17a in different mouse strains. The majority of dividing CD4+8+ blast cells expressed extremely low levels of TCR-CD3, indicating that TCR expression and specificity selection generally occurred after division ceased. The [3H]TdR-labeling studies indicated that postdivision TCR expression was rapid, and that those nondividing cortical thymocytes which had not expressed significant levels of TCR by day 1, remained extremely low or negative for their entire 3.6-d lifespan. Small cortical thymocytes which expressed moderate levels of TCR-CD3, were predominantly an unselected population with a lifespan of 3.8 d. A small subgroup of CD4+8+ PNA+ cortical thymocytes expressing high levels of TCR-CD3 was identified as a nondividing intermediate between the small cortical thymocytes expressing moderate levels of TCR and mature medullary thymocytes. These intermediates showed a 1-d lag in [3H]TdR labeling, then a 3.4-d transit time. The cell flux through this intermediate subpopulation was approximately 10(6) cells/d, similar to the rate of turnover of mature thymocytes; thus, although only 3-4% of thymocytes progressed to this intermediate state, once reaching it most then progressed to full maturity. In accordance with this, the incidence of the V beta selection markers within the intermediate subpopulation indicated that both positive and negative selection had already occurred. Selection for TCR specificity in the systems studied appeared to take place among CD4+8+ thymocytes expressing intermediate levels of TCR.

Yeast Gaa1p is required for attachment of a completed GPI anchor onto proteins.

Anchoring of proteins to membranes by glycosylphosphatidylinositols (GPIs) is ubiquitous among all eukaryotes and heavily used by parasitic protozoa. GPI is synthesized and transferred en bloc to form GPI-anchored proteins. The key enzyme in this process is a putative GPI:protein transamidase that would cleave a peptide bond near the COOH terminus of the protein and attach the GPI by an amide linkage. We have identified a gene, GAA1, encoding an essential ER protein required for GPI anchoring. gaal mutant cells synthesize the complete GPI anchor precursor at nonpermissive temperatures, but do not attach it to proteins. Overexpression of GAA1 improves the ability of cells to attach anchors to a GPI-anchored protein with a mutant anchor attachment site. Therefore, Gaa1p is required for a terminal step of GPI anchor attachment and could be part of the putative GPI:protein transamidase.

Ges, A human GTPase of the Rad/Gem/Kir family, promotes endothelial cell sprouting and cytoskeleton reorganization.

Rad, Gem/Kir, and mRem (RGK) represent a unique GTPase family with largely unknown functions (Reynet, C., and C.R. Kahn. 1993. Science. 262:1441-1444; Cohen, L., R. Mohr, Y. Chen, M. Huang, R. Kato, D. Dorin, F. Tamanoi, A. Goga, D. Afar, N. Rosenberg, and O. Witte. Proc. Natl. Acad. Sci. USA. 1994. 91:12448-12452; Maguire, J., T. Santoro, P. Jensen, U. Siebenlist, J. Yewdell, and K. Kelly. 1994. Science. 265:241-244; Finlin, B.S., and D.A. Andres. 1997. J. Biol. Chem. 272:21982-21988). We report that Ges (GTPase regulating endothelial cell sprouting), a human RGK protein expressed in the endothelium, functions as a potent morphogenic switch in endothelial cells (ECs). Ges function is sufficient to substitute for angiogenic growth factor/extracellular matrix (ECM) signals in promoting EC sprouting, since overexpression of Ges in ECs cultured on glass leads to the development of long cytoplasmic extensions and reorganization of the actin cytoskeleton. Ges function is also necessary for Matrigel-induced EC sprouting, since this event is blocked by its dominant negative mutant, Ges(T94N), predicted to prevent the activation of endogenous Ges through sequestration of its guanine nucleotide exchange factor. Thus, Ges appears to be a key transducer linking extracellular signals to cytoskeleton/morphology changes in ECs.

Molecular cloning and expression, in both COS-1 cells and S. cerevisiae, of a human cytosolic type-IVA, cyclic AMP specific phosphodiesterase (hPDE-IVA-h6.1).

Screening a human T lymphocyte cDNA library with a phosphodiesterase (PDE) specific probe resulted in the isolation of two overlapping cDNA clones, h2.2 and h6.1, that encode a type IV, rolipram inhibited cAMP-specific PDE. Clones h2.2 and h6.1 were 1015 bp and 2288 bp in length, respectively, and overlapped for 984 bp with only one nucleotide difference. The h6.1 cDNA was extended at the 5'-end by 1304 bp, with respect to h2.2, and encoded an incomplete ORF (lacking an initiation codon) of 668 amino acids. The merged nucleotide sequence of h6.1/h2.2 exhibited 99.5% homology in the ORF (ten nucleotide changes resulting in six amino acid changes), and 95% homology in the 3'-untranslated region, with the previously reported human PDE-IVA cDNA [Livi G. P., Kmetz P., Mchale M. M., Cieslinski L. B., Sathe G. M., Taylor D. P., Davis R. L., Torphy T. J. and Balcarek J. M. (1990) Mol. Cell Biol. 10, 2678-2686]. The sequence reported for h6.1/h2.2 matched that found for IVA clones isolated from three other human cDNA libraries, a human genomic cosmid clone and pcr amplified products of the exon covering these differences in two individuals. The h6.1 cDNA was engineered to generate a complete ORF by building in the 56 bp, including the initiation codon, present in hPDE-IVA-Livi and missing from the 5'-end of h6.1, producing a cognate ORF encoding a protein of 687 amino acids but differing in five amino acids which lay in or adjacent to the putative catalytic domain. The complete h6.1 ORF was engineered for expression in both Saccharomyces cerevisiae and in COS-1 cells. Integration of a single copy of the engineered ORF of h6.1, under the transcriptional control of a constitutive yeast promoter, at the pep4 locus of a S. cerevisiae strain lacking both yeast PDE genes resulted in functional complementation of the yeast pde-phenotype. Yeast strains with functional PDE were a light creamy white colour, while strains devoid of PDE activity were a dull brown colour. Expression of h6.1 in COS-1 cells led to the production of a typical type IV PDE activity in that cAMP, but not cGMP, served as substrate and its activity was insensitive to either Ca2+/CaM or cGMP but was inhibited by low concentrations of rolipram.(ABSTRACT TRUNCATED AT 400 WORDS)

Identification of multiple human calcitonin receptor isoforms: heterologous expression and pharmacological characterization.

The human breast carcinoma cell line T47D is known to express high-affinity calcitonin receptors (CTRs). PCR amplification of the CTR cDNA from T47D mRNA resulted in the identification of two different cDNAs that encode distinct receptor isoforms, h alpha CTR and h beta CTR. The two cDNAs are identical except that the h alpha CTR cDNA contains a 48 bp insert sequence that encodes a 16 amino acid domain in the first cytosolic loop of the receptor. Stable transfection of each receptor cDNA into murine erythroleukaemia (MEL) cells resulted in the expression of receptors with high affinity for radiolabelled salmon calcitonin (h alpha CTR Kd 0.09 nM, h beta CTR Kd 0.12 nM). Ligand competition binding studies did not reveal any significant pharmacological difference between the receptor isoforms. In transfected MEL cells and COS-1 cells the h beta CTR isoform was expressed at tenfold higher levels than the h alpha CTR. A reporter gene assay that monitored the coupling of CTR to adenylate cyclase by increases in beta-galactosidase activity indicated that both receptors were able to stimulate cyclic AMP production in response to ligand binding.

Cell generation within human thymic subsets defined by selective expression of CD45 (T200) isoforms.

Although the thymus is the source of all mature peripheral T lymphocytes, the majority of thymocytes die intrathymically. Until recently, there has been no phenotypic marker to allow definition of the generative thymocyte lineage, thereby distinguishing those thymocytes committed to death from those which will eventually give rise to thymic emigrants. We believe that expression of the high-molecular-mass isoforms (p190, p205, and/or p220) of the leukocyte common antigen (CD45) distinguishes the thymic generative lineage from the vast majority of thymocytes expressing the low-molecular-mass isoform (p180) of CD45 and committed to die within the thymus. The thymocytes defined by their lack of CD45 p180, the low-molecular-mass isoform, comprise all thymocytes with clonogenic potential and include all major subsets defined by CD4 and CD8. We have proposed that a CD45 p180- lineage exists in the human thymus and that this lineage results in the production of mature thymocytes and thymic emigrants. The objective of the present study was to determine by DNA analysis whether the degree of cell cycling in subsets of human thymus, defined by selective expression of high-molecular-mass isoforms of CD45, was sufficient to account for the generation of thymic emigrants. Multicolor immunofluorescence analysis of surface markers and 7-amino actinomycin D as well as propidium iodide staining was used to measure the DNA content of thymic subsets. Negative depletion methods were used to isolate and characterize human thymocyte subsets defined by CD45 isoform, CD3, CD4, and CD8, and subsequently to determine the cell cycle status of the isolated subsets by flow-cytometric analysis of cellular DNA content. CD3-/lo thymocytes had a high number and CD1-/lo thymocytes a low number of cycling cells, consistent with murine data. CD45 p180- cells, as well as the CD4-(8-) and CD3-(4-)(8-) subsets, which express high molecular-weight CD45 isoforms, exhibited a significant number of cycling cells. Since CD45 p180- thymocytes exhibited a significant number of cycling cells, based on numerical arguments we conclude that this cycling thymocyte fraction is capable of generating the daily requirement of mature thymocytes and thymic emigrants.

Expression databases--resources for pharmacogenomic R&D.

This review aims to outline the primary biological databases that are being generated to understand fundamental biology, identify new drug targets, and to look at compound profiling in a new light. We will give a brief overview of four of the main areas being studied in molecular biology: genomics, pharmacogenomics, pharmacogenetics and proteomics. Looking initially at each data set and some of its potential applications, we will go on to describe some of the potentially enormous advantages gained by fully integrating these data sets.

Tryptophan loading induces oxidative stress.

In previous studies tryptophan loads have been administered to human subjects in order to raise central levels of 5-hydroxytryptamine (5HT) and assess the effects of 5HT on behaviour and mood. However, tryptophan is metabolised primarily along the oxidative kynurenine pathway. In this study a 6 g oral tryptophan load was administered to 15 healthy volunteers and the levels of kynurenines and lipid peroxidation products (indicative of oxidative stress) were measured. The results demonstrate that tryptophan loading produces a highly significant increase in lipid peroxidation products in parallel with increased kynurenines. The oxidative stress may result from the generation of quinolinic acid, 3-hydroxykynurenine, and 3-hydroxyanthranilic acid, all of which are known to have the ability to generate free radicals. The results may have implications for the use of tryptophan loading in psychiatric practice, and for the chronic use of diets high in tryptophan.

Diabetes, glaucoma, sex, and cataract: analysis of combined data from two case control studies.

Data from two case control studies in Oxfordshire were combined and analysed. The combined study covered 1940 subjects, 723 cases, and 1217 controls, between the ages of 50 and 79 with a response rate of 97% for cases and 94% for controls. Diabetes was shown to be a powerful and highly significant risk factor for cataract with a relative risk of 5.04. More than 11% of cataracts in Oxfordshire are attributable to diabetes. The relative risk did not increase significantly with age within the range 50 to 79 years but was higher in females than in males. For females with diabetes the relative risk was 7.85 with 95% confidence interval from 4.30 to 14.3 compared with 3.42 with confidence interval from 2.05 to 5.71 for males with diabetes. Diabetes remained a powerful risk factor when other identified risk factors had been controlled for. No known mechanism for the development of diabetic complications provides an explanation for the excess risk in females. Combination of the two studies led to better estimates of the relative risk of glaucoma as a risk factor for cataract (3.96 with 95% confidence interval from 2.35 to 6.68). The relative risk appeared to be greater in women than in men but this difference was not statistically significant. There was no significant change in risk with age. Glaucoma is a powerful and independent risk factor for cataract in both sexes and may be responsible for 5% of all cataracts in our area.

Passionate women and passionate men: sex differences in accounting for angry and weeping episodes.

This experiment tests a rule-role model of accounting for angry aggression. The hypothesis, derived from Averill's (1984) rule model of anger, is that people with stronger norms against aggression will account for their own angry aggression by interpreting it as passion, that is as externally caused and uncontrollable, more than people with weaker norms against aggression. It was also hypothesized that sex role would affect interpretations. Women are believed to have stronger norms against aggression. Would they therefore account for angry aggression by presenting it as externally caused and uncontrollable more than men. Subjects (n = 45, 23F and 22M), were asked to evaluate an angry incident as if they had taken part in it themselves. Women judged more normative conflict about the episode than men, but had low consensus in using passion schemas (identified by multiple regression). Men had high consensus in using passion schemas. A control condition in which the protagonist wept was carried out (n = 43, 21F and 22M). In this condition there was some consensus among women in using a passion scheme but none among men. It must be concluded that sex role constrains the appropriateness of the accounting strategy used.

Lessons to be learned: a case study approach. Unseasonal severe poisoning of two adults by deadly nightside (Atropa belladonna).

Unseasonal, mid-winter, severe poisoning by deadly nightshade is reported in two adults who simultaneously ate from a pie made of frozen deadly nightshade berries, mistaken at the time of picking for bilberries. Atropine levels are reported in the urine. Physostigmine treatment was ineffective.

Blood 5-hydroxytryptamine, 5-hydroxyindoleacetic acid and melatonin levels in patients with either Huntington's disease or chronic brain injury.

Following a study of oxidative tryptophan metabolism to kynurenines, we have now analysed the blood of patients with either Huntington's disease or traumatic brain injury for levels of 5-hydroxytryptamine (5-HT), 5-hydroxyindoleacetic acid (5-HIAA) and melatonin. There were no differences in the baseline levels of these compounds between patients and healthy controls. Tryptophan depletion did not reduce 5-HT levels in either the controls or in the patients with Huntington's disease, but it increased 5-HT levels in patients with brain injury and lowered 5-HIAA in the control and Huntington's disease groups. An oral tryptophan load did not modify 5-HT levels in the patients but increased 5-HT in control subjects. The tryptophan load restored 5-HIAA to baseline levels in controls and patients with brain injury, but not in those with Huntington's disease, in whom 5-HIAA remained significantly depressed. Melatonin levels increased on tryptophan loading in all subjects, with levels in patients with brain injury increasing significantly more than in controls. Baseline levels of neopterin and lipid peroxidation products were higher in patients than in controls. It is concluded that both groups of patients exhibit abnormalities in tryptophan metabolism, which may be related to increased inflammatory status and oxidative stress. Interactions between the kynurenine, 5-HT and melatonin pathways should be considered when interpreting changes of tryptophan metabolism.

Tryptophan metabolism and oxidative stress in patients with chronic brain injury.

The kynurenine pathway generates the excitotoxic N-methyl-d-aspartate receptor agonist, quinolinic acid and the glutamate antagonist, kynurenic acid, as well as free-radical generators. We investigated the status of the pathway following severe brain injury sustained at least 1 year previously in 15 patients compared with controls. At baseline, patients with brain injury showed increased levels of neopterin, erythrocyte sedimentation rate, C-reactive protein and peroxidation products in the blood compared with controls, indicating persistent inflammation and oxidative stress. At baseline and following tryptophan depletion, more tryptophan was converted to kynurenine in patients than controls, but less kynurenine was converted into the neuroprotectant, kynurenic acid. This suggests that neuroprotection by kynurenic acid may be inadequate in brain-damaged patients even many years after injury. On tryptophan loading, patients metabolized more kynurenine into kynurenic acid than controls, a process which may be neuroprotective. In addition, lower levels of 3-hydroxykynurenine and 3-hydroxyanthranilic acid in patients after tryptophan loading should be protective since these compounds generate free radicals. The results suggest that for brain-damaged patients, increased activation of the kynurenine pathway, oxidative stress and raised levels of inflammation continue many years after the original insult, possibly contributing to the continuing cerebral dysfunction in these patients.

Tryptophan metabolism and oxidative stress in patients with Huntington's disease.

Abnormalities in the kynurenine pathway may play a role in Huntington's disease (HD). In this study, tryptophan depletion and loading were used to investigate changes in blood kynurenine pathway metabolites, as well as markers of inflammation and oxidative stress in HD patients and healthy controls. Results showed that the kynurenine : tryptophan ratio was greater in HD than controls in the baseline state and after tryptophan depletion, indicating increased indoleamine dioxygenase activity in HD. Evidence for persistent inflammation in HD was provided by elevated baseline levels of C-reactive protein, neopterin and lipid peroxidation products compared with controls. The kynurenate : kynurenine ratio suggested lower kynurenine aminotransferase activity in patients and the higher levels of kynurenine in patients at baseline, after depletion and loading, do not result in any differences in kynurenic acid levels, providing no supportive evidence for a compensatory neuroprotective role for kynurenic acid. Quinolinic acid showed wide variations in blood levels. The lipid peroxidation data indicate a high level of oxidative stress in HD patients many years after disease onset. Levels of the free radical generators 3-hydroxykynurenine and 3-hydroxyanthranilic acid were decreased in HD patients, and hence did not appear to contribute to the oxidative stress. It is concluded that patients with HD exhibit abnormal handling of tryptophan metabolism and increased oxidative stress, and that these factors could contribute to ongoing brain dysfunction.

Intrathymic selection of murine TCR alpha beta+CD4-CD8- thymocytes.

The CD4-CD8- thymocyte population contains the precursors of all other thymocytes. However, it also contains a significant proportion of cells which express surface TCR alpha beta, and have little or no precursor activity. Like peripheral T cells, but unlike most other thymocytes, these TCR alpha beta+CD4-CD8- thymocytes do not express heat stable antigen. Both the origin and developmental status of these cells are unclear, and are the subject of this report. We have measured the proportion of V beta 8.1+ cells amongst TCR+HSA-CD4-CD8- thymocytes in MIs-1a versus MIs-1b mice, in order to determine whether they have undergone negative selection. The proportions were similar in both strains, in contrast to mature T cells, indicating that neither they nor their precursors had undergone clonal deletion. We also measured the accumulation of these cells over the early life of the animal and found that it was extremely slow. Our data also show that although TCR-V beta 8.1+ cells are reactive to MIs-1a in association with MHC class II, most mature TCR-V beta 8.1+ cells in MIs-1b mice are CD8+, suggesting an additional reactivity with MHC class I. We raise the possibility that TCR-V beta 8.1+CD4-CD8- thymocytes are derived from TCR-V beta 8.1+CD4+CD8+ thymocytes, and that the reactivity of TCR-V beta 8.1 with both MHC classes I and II has resulted in the down-regulation of both CD4 and CD8.

Molecular characterization of the SEC1 gene of Saccharomyces cerevisiae: subcellular distribution of a protein required for yeast protein secretion.

Strains of Saccharomyces cerevisiae harbouring temperature-sensitive mutations in the SEC1 and SEC5 genes exhibit an accumulation of post-Golgi secretory vesicles at 37 degrees C. We have cloned a fragment of yeast DNA which carries two distinct genes, one of which complements a sec1 mutation, and the other a sec5 mutation. Genetic test confirm that the sec1-complementing gene is indeed SEC1, and is essential for cell growth. Nucleotide sequence analysis reveals that the cloned SEC1 gene is the same as a previously sequenced sec1-complementing gene. The SEC1 sequence encodes a protein of 724 amino acids with a predicted molecular mass of 83 kDa. Antibodies purified from a polyclonal antiserum raised against the protein product of the cloned gene recognize a yeast protein of apparent molecular mass 78 kDa which is found in a detergent-resistant association with a rapidly sedimenting yeast subcellular fraction, behaviour which is suggestive of an interaction with a component of the yeast cytoskeleton.

Spontaneous perforation of the cervical oesophagus.

A case of spontaneous perforation of the cervical oesophagus is presented. It appears to be the tenth such case in the world medical literature, and the first to be reported from the Southern Hemisphere. The need for awareness of this pathologic entity is stressed, and cold water polydipsia is suggested as a diagnostic marker.