Determination of solution conformations of PrP106-126, a neurotoxic fragment of prion protein, by 1H NMR and restrained molecular dynamics.
(57/2132)
Experimental two-dimensional 1H NMR data have been obtained for PrP106-128 under the following solvent conditions: deionized water/2, 2,2-trifluoroethanol 50 : 50 (v/v) and dimethylsulfoxide. These data were analyzed by restrained molecular mechanics calculations to determine how changes in solvation affect the conformation of the peptide. In deionized water at pH 3.5, the peptide adopted a helical conformation in the hydrophobic region spanning residues Met112-Leu125, with the most populated helical region corresponding to the Ala115-Ala119 segment ( approximately 10%). In trifluoroethanol/H2O, the alpha-helix increased in population especially in the Gly119-Val122 tract ( approximately 25%). The conformation of this region was found to be remarkably sensitive to pH, as the Ala120-Gly124 tract shifted to an extended conformation at pH 7. In dimethylsulfoxide, the hydrophobic cluster adopted a prevalently extended conformation. For all tested solvents the region spanning residues Asn108-Met112 was present in a 'turn-like' conformation and included His111, situated just before the starting point of the alpha-helix. Rather than by conformational changes, the effect of His111 is exerted by changes in its hydrophobicity, triggering aggregation. The amphiphilic properties and the pH-dependent ionizable side-chain of His111 may thus be important for the modulation of the conformational mobility and heterogeneity of PrP106-126. (+info)
Role of N-cadherin in the sorting-out of mesenchymal cells and in the positional identity along the proximodistal axis of the chick limb bud.
(58/2132)
Mesenchymal cells from different stages of chick limb buds sort out in monolayer culture, suggesting the presence of different cell affinities dependent on their positions along the proximodistal axis. However, it is still not clear which molecules are responsible for the sorting-out. Here, we propose that N-cadherin, a cell-adhesion molecule, is involved in the sorting-out and is likely to be a component of the mechanism of proximodistal patterning in the developing limb. N-cadherin proteins accumulate in the distal region of the chick limb bud as limb development proceeds. In monolayer culture of distal mesenchymal cells, the stage-dependent levels of N-cadherin proteins are maintained during cell sorting. The results of this study have also demonstrated that an anti-N-cadherin monoclonal antibody, NCD-2, clearly inhibits the cell sorting. Moreover, removal of the apical ectodermal ridge or retinoic-acid treatment of distal cells, which results in a change in the pattern of sorting-out, inhibits the accumulation of N-cadherin proteins, suggesting that the distribution of these proteins is related to the positional identity that gives rise to the different shape and number of cartilage elements along the proximodistal axis. (+info)
Myelin structure transformed by dimethylsulfoxide.
(59/2132)
X-ray diffraction patterns from nerves bathed for about one-half hour in Ringer's solution containing dimethylsulfoxide at concentrations of 10% or more show reflections from a new, highly ordered structure with a repeat period about two-thirds that of native myelin. The proportion of myelin transformed is greater at higher concentrations, and above 40% the native pattern is no longer observed. Replacing the dimethylsulfoxide with Ringer's solution leads to the rapid reappearance of the native diffraction pattern. The effect of dimethylsulfoxide can be accounted for by the loss of water from the spaces between the membrane units without significant modification of the bilayer structure. (+info)
Effect of the nonpeptide neurotrophic compound SR 57746A on the phenotypic survival of purified mouse motoneurons.
(60/2132)
1. Neurotrophic factors have been used for the treatment of several neurodegenerative diseases. However, their use is limited by their inability to cross the blood-brain barrier, their short half life and their side effects. SR 57746A is a new orally active compound that exhibits in vivo and in vitro neurotrophic effects in several experimental models. 2. We show here that SR 57746A (1 microM) increases the phenotypic survival of embryonic purified mouse motoneurons in vitro to the same extent as brain-derived neurotrophic factor (100 ng ml-1), and increases the outgrowth and number of their neurites. It acts in a dose-dependent manner up to 1 microM which is the optimal concentration. Above this concentration, its neurotrophic effect decreases. 3. Genistein (10 microM), a protein tyrosine kinase inhibitor, also increases the phenotypic survival and differentiation of mouse motoneurons. It does not act in a synergistic or additive manner with SR 57746A. However, at concentrations equal or superior to 25 microM, it decreases the survival of motoneurons. This suggests that the neurotrophic effect of genistein is due to a favourable alteration of equilibrium between phosphorylated and dephosphorylated states of proteins involved in survival and differentiation of motoneurons. 4. Like genistein, SR 57746A should be used at a critical concentration (1 microM) to exert its optimal effects. Since SR 57746A does not act synergistically with genistein, it is likely that its mechanism of action involves a pathway similar to that affected by this tyrosine kinase inhibitor. 5. At the present time, SR 57746A is the only orally active compound and the only synthetic compound shown to be active on motoneurons in vitro. It should thus be considered as a good candidate for the treatment of motoneuron diseases. (+info)
Phosphorylation of murine p53, but not human p53, by MAP kinase in vitro and in cultured cells highlights species-dependent variation in post-translational modification.
(61/2132)
The p53 tumour suppressor protein is tightly regulated by protein-protein association, protein turnover and a variety of post-translational modifications. Multisite phosphorylation plays a major role in activating and in finely tuning p53 function. The proline rich domain of murine p53 is a substrate for phosphorylation, in vitro and in cultured cells, by the p42ERK2 and p44ERK1 mitogen-activated protein (MAP) kinases. However, to date there have been no reports of attempts to determine whether p53 from any other species is a substrate for MAP kinase. In this paper we confirm that murine p53 is targeted by recombinant MAP kinase and by MAP kinases in extracts of both murine and human cells. In contrast, human p53 is not a substrate for recombinant MAP kinase nor are there any detectable levels of protein kinase activity in stimulated human cell extracts which phosphorylate the proline rich domain of human p53 in vitro. Finally, although stimulation of murine fibroblasts with o-tetradecanolylphorbol 13-acetate (TPA), an indirect activator of the MAP kinase pathway, leads to site-specific phosphorylation of murine p53, similar treatment of human fibroblasts and epithelial cells showed no significant changes in the phosphorylation pattern. These data are consistent with accumulating evidence that significant species-dependent differences exist in the post-translational modification of p53. (+info)
Developmental expression of insulin receptor substrate-2 during dimethylsulfoxide-induced differentiation of human HL-60 cells.
(62/2132)
Insulin receptor substrate-2 (IRS-2) is phosphorylated on tyrosine by a number of cytokine receptors and is implicated in the activation of phosphatidylinositol 3'-kinase (PI3-kinase). Here, we demonstrate that induction of granulocytic differentiation of human promyeloid HL-60 cells leads to an increase in the amount of IRS-2 that is phosphorylated in response to insulin-like growth factor (IGF)-I. Although PI3-kinase is often activated following interaction with IRS-1, we could not detect IRS-1 protein, IRS-1 mRNA, or IRS-1-precipitable PI3-kinase enzymatic activity. However, PI3-kinase activity that was coimmunoprecipitated with either anti-phosphotyrosine or anti-IRS-2 following IGF-I stimulation was increased 100-fold. Heightened tyrosine phosphorylation of IRS-2 during granulocytic differentiation was not caused by an increase in expression of the tyrosine kinase IGF-I receptor, as measured by the amount of both the alpha- and beta-subunits. Instead, immunoblotting experiments with an Ab to IRS-2 revealed that induction of granulocytic differentiation caused a large increase in IRS-2, and this occurred in the absence of detectable IRS-1 protein. These IRS-2-positive cells could not differentiate into more mature myeloid cells in serum-free medium unless IGF-I was added. These data are consistent with a model of granulocytic differentiation that requires at least two signals, the first of which leads to an increase in the cytoplasmic pool of IRS-2 protein and a second molecule that acts to tyrosine phosphorylate IRS-2 and enhance granulocytic differentiation. (+info)
The relationship between energy-dependent phagocytosis and the rate of oxygen consumption in Tetrahymena.
(63/2132)
The induction of high rates of food vacuole formation in Tetrahymena pyriformis increased the rate of respiration in exponentially growing cells by 17% and in starving cells by 47.5%. The increased rate of oxygen uptake was caused by phagocytosis itself, as shown by comparing the rates of respiration of a Tetrahymena mutant exposed to particles at the permissive or restrictive temperatures for food vacuole formation. During cell division, heat-synchronized cells in rich, particle-supplemented medium showed a significant decrease in the rate of respiration. Furthermore, dimethyl sulphoxide, in concentrations sufficient to block food vacuole formation, suppressed the rate of respiration to a level similar to that of starved cells. Cytochalasin B, fowever, did not reduce the rate of oxygen uptake despite the inability of the cells to complete the formation of food vacuoles during treatment; a possible explanation for this finding is discussed. There was a strong correlation between formation of food vacuoles and a high metabolic rate in Tetrahymena. (+info)
Mitosis of resident macrophages in the adult rat testis.
(64/2132)
Resident macrophages are maintained at a comparatively high, yet stable, tissue concentration in the adult rat testis. After destruction of Leydig cells by ethane dimethane sulphonate treatment, the number of resident macrophages increases briefly and then decreases to below normal values, but returns to normal after the reappearance of Leydig cells. The mechanisms by which the adult testicular macrophage population is maintained, either by monocyte recruitment or by mitosis of the resident macrophages, have not been examined. An immunohistochemical dual labelling approach using a specific monoclonal antibody for resident macrophages, ED2, and markers of mitotic activity (bromodeoxyuridine incorporation and expression of the proliferating cell nuclear antigen) was used to investigate resident macrophage proliferation in Bouin's-fixed paraffin wax-embedded adult rat testes. Detection of the normally fixation sensitive antigen recognized by ED2 was achieved by using a decreased fixation time and antigen retrieval. Peaks of resident macrophage mitotic activity were observed during the phases of macrophage proliferation immediately after ethane dimethane sulphonate treatment and during the recovery phase associated with Leydig cell restoration. These data demonstrate that resident macrophages have the capacity to proliferate within the adult rat testis and, thus, this population of resident macrophages is maintained, at least in part, by mitotic division in situ. (+info)