T cell development and selection require the fully mature and diverse epithelial microenvironment of the thymus. Acquisition of these characteristics is dependent on expression of the forkhead (also known as winged-helix) transcription factor FoxN1, as a lack of functional FoxN1 results in aberrant epithelial morphogenesis and an inability to attract lymphoid precursors to the thymus primordium. However, the transcriptional control of Foxn1 expression has not been elucidated. Here we report that secreted Wnt glycoproteins, expressed by thymic epithelial cells and thymocytes, regulate epithelial Foxn1 expression in both autocrine and paracrine fashions. Wnt molecules therefore provide regulatory signals critical for thymic function.
Pitt-Hopkins syndrome is a severe congenital encephalopathy recently ascribed to de novo heterozygous TCF4 gene mutations. We report a series of 13 novel PHS cases with a TCF4 mutation and show that EEG, brain magnetic resonance imagain (MRI), and immunological investigations provide valuable additional clues to the diagnosis. We confirm a mutational hot spot in the basic domain of the E-protein. Functional studies illustrate that heterodimerisation of mutant TCF4 proteins with a tissue-specific transcription factor is less effective than that homodimerisation in a luciferase reporter assay. We also show that the TCF4 expression pattern in human embryonic development is widespread but not ubiquitous. In summary, we further delineate an underdiagnosed mental retardation syndrome, highlighting TCF4 function during development and facilitating diagnosis within the first year of life.
Oxidative burst constitutes an early response in plant defense reactions toward pathogens, but active oxygen production may also be induced by other stimuli. The oxidative response of suspensioncultured tobacco (Nicotiana tabacum cv Xanthi) cells to hypoosmotic and mechanical stresses was characterized. The oxidase involved in the hypoosmotic stress response showed similarities by its NADPH dependence and its inhibition by iodonium diphenyl with the neutrophil NADPH oxidase. Activation of the oxidative response by hypoosmotic stress needed protein phosphorylation and anion effluxes, as well as opening of Ca 2؉ channels. Inhibition of the oxidative response impaired Cl ؊ efflux, K ؉ efflux, and extracellular alkalinization, suggesting that the oxidative burst may play a role in ionic flux regulation. Active oxygen species also induced the crosslinking of a cell wall protein, homologous to a soybean (Glycine max L.) extensin, that may act as part of cell volume and turgor regulation through modification of the physical properties of the cell wall.
Abstract. Elicitor-induced cytoplasmic pH changes of tobacco (Nicotiana tabacum L. cv. Xanthi) cells grown in suspension cultures were explored under a variety of conditions by using a flexible technique based on the distribution of [14C] benzoic acid between the intracellular and extracellular compartments. Comparison of data obtained by this technique and by 31p-nuclear magnetic resonance spectrometry qualifies the benzoic acid distribution method as a convenient and reliable way to probe cytoplasmic pH variations. Various elicitors shown to induce several defense-related responses in tobacco cells, namely oligogalacturonides of degree of polymerization 7-20, pectolyase from Aspergillusjaponicus, Phytophthora megasperma crude elicitors and purified cryptogein, triggered cytoplasmic acidifications differing in intensity and kinetics according to the signal molecule. In contrast, no changes in cytoplasmic protons and external pH were observed in cells treated with short galacturonide oligomers, or with soybean-specific hepta 13-glucoside from P. megasperma, which are devoid of elicitor activity in tobacco cells. The oligogalacturonide-induced cytoplasmic acidification was inhibited by two structurally unrelated protein kinase inhibitors, staurosporine and 6-dimethylaminopurine, which both reduced the external alkalinization response to the elicitor. The protein phosphatase inhibitor calyculin A alone behaved as an elicitormimicking molecule in triggering cytoplasmic acidification, again associated with extracellular alkalinization. These results indicate that the increase in the cytoplasmic concentration of protons may be considered as a common early intracellular response of tobacco cells to elicitors, associated with the extracellular alkalinization response and controlled by protein phosphorylation.Abbreviations: BA(H) = benzoic acid (protonated form); 6-DMAP = 6-dimethylaminopurine; DP = degree of polymerization; Mes = 2-(N-morpholino)ethanesulfonic acid; OG = oligogalacturonide; pHc = cytoplasmic pH; 31p-NMR = nuclear magnetic resonance spectroscopy of 31p atoms Correspondence to: Y. Mathieu; FAX: 33 (1) 69 82 37 68
A wide range of autonomic dysfunctions, i.e. Central Hypoventilation Syndromes, Hirschsprung disease and Tumours of the Sympathetic Nervous System have been ascribed to heterozygous PHOX2B mutations in man. The PHOX2B mutations reported include polyalanine expansions in a 20 alanines tract, missense, frameshift mutations and nonsense mutation. Some genotype/phenotype correlations have been drawn, but the molecular mechanism(s) underlying them remain(s) unclear. So far, loss-of-function, gain-of-function and dominant negative effects have been proposed as disease-causing mechanisms for polyalanine expansions. Indeed, mutant with an expanded polyalanine tract result in decreased transactivation of known target genes and protein misfolding leading to oligomerisation in vitro for all expansions and to cytoplasmic protein aggregation for longer expansions. We extended the molecular studies to other non-polyalanine expansion mutations and show that most PHOX2B protein mutants oligomerize even in the absence of the normal 20 alanines tract. Conversely, a premature stop codon mutation in a CHS patient leads to the production of an N-terminally truncated protein by re-initiation of translation that does not form oligomers. Therefore, PHOX2B misfolding is not the only mechanism leading to dysfunction of the ventilatory autonomic system.
The oxidative response induced by hypo-osmolarity is characterized in tobacco and Arabidopsis cells in order to identify the corresponding active oxygen-producing proteins. The pharmacological profiles of the oxidative responses were clearly different in the two plant materials, leading to the identification of distinct active oxygen producers in tobacco and Arabidopsis cells. In tobacco cells, a 100 kDa protein, localized in the plasma membrane, was demonstrated to produce active oxygen in the presence of NADPH. This production can be activated by fatty acids and is strongly depressed by diphenylene iodonium, as measured by an in vivo response. In Arabidopsis, 30 kDa and 34 kDa proteins localized in the cell wall were shown to be able to produce active oxygen in the presence of cofactors and the production is prevented by peroxidase inhibitors, as is the in vivo response. The two purified proteins were identified by mass spectrometry and both correspond to the peroxidase gene At5g64120.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.