Purification and characterization of a toxin inhibiting protein synthesis from Croton mongue, a Madagascar Euphorbiaceae

Monguine, a thermostable toxic protein was extracted from the seeds of Croton mongue (Euphorbiaceae) and purified by ion-exchange chromatography on DEAE-cellulose and gel filtration on Sephadex G-25 and G-15. Polyacrylamide gel electrophoresis of purified monguine in the presence of sodium dodecyl sulfate and after treatment with 2-mercaptoethanol showed one band corresponding to a molecular weight of 9000. The same molecular weight was determined by analytical centrifugation. Amino acid analysis revealed a high content in both aspartic and glutamic acids (or the corresponding amides). The LD50 (24 h) is 12 mg/kg of mouse body weight. Monguine inhibits protein synthesis in hepatoma tissue culture cells and globin synthesis in a rabbit reticulocyte lysate.     

Prevention of inhibitory effects of alpha-difluoromethylornithine on rat urinary bladder carcinogenesis by exogenous putrescine

We previously demonstrated that repeated instillation of alpha-difluoromethylornithine (DFMO), an irreversible inhibitor of ornithine decarboxylase (ODC), inhibits (or retards) urinary bladder carcinogenesis in rats. Since ODC catalyzes the first step in polyamine synthesis, the inhibition of polyamine formation may be responsible for tumor inhibition by DFMO. The present experiment was conducted using male Fischer rats with a heterotopically transplanted urinary bladder (HTB) to determine whether the effects of DFMO are prevented by exogeneous Pu. HTBs were treated with 0.25 mg of N-methyl-N-nitrosourea (MNU) once a week for 3 weeks and the animals were then arbitrarily divided into 6 groups. Beginning one week following the last MNU treatment, all rats received twice a week instillation (0.5 ml each) as follows: Group 1 rats, normal rat urine; Group 2, 2% DFMO in urine; Group 3, 250 microM Pu and 2% DFMO in urine; Group 4, 250 microM Pu in urine; Group 5, urine for 10 weeks followed by 2% DFMO in urine; and Group 6, urine for 10 weeks followed by 250 microM Pu and 2% DFMO in urine. At 10 weeks following the last MNU instillation 5 rats from each of Groups 1 through 4 were killed for determination of urothelial polyamine levels. An additional 4 rats of Group 1 were killed at 10 weeks for histological examination. All remaining rats were killed 20 weeks after the last MNU instillation. Polyamine levels showed no significant difference among the 4 groups. The incidence of carcinoma was significantly lower in the group treated with DFMO (p less than 0.001, Group 1 vs Group 2), confirming our previous observation.(ABSTRACT TRUNCATED AT 250 WORDS)     

The Comportment of the Vegetative Nucleus and Generative Cell in the Pollen and Pollen Tubes of Helleborus foetidus L

It has been reported that in species of Plumbaginaceae, Chenopodiaceae,Cruciferae and Amaryllidaceae a ‘male germ unit’is formed in which the two male gametes remain inter-connected,with one of the pair linked intimately to the vegetative nucleus.In two species the unit has been shown to remain intact in thepollen tube, and some accounts imply that it is polarized inits movement, the vegetative nucleus leading in the tube. Evidence given in this paper indicates that such a unit is unlikelyto be present in Helleborus foetidus L. (Ranunculaceae). Applicationof an optical sectioning technique has shown that at no timeis there a persistent linkage between the generative cell andthe vegetative nucleus in unhydrated, hydrated and germinatingpollen, nor is one present in the early pollen tube. Furthermore,no inter-connections between the two entities were seen in protoplastsfrom living, hydrated and incipiently germinating grains isolatedmechanically in an osmotically balancing medium. Following germination,the vegetative nucleus leaves the grain in advance of the generativecell in most instances, but in the samples examined the generativecell led in about 30 per cent of the tubes. Assembling a polarisedmale germ unit in these circumstances would require (a) theformation of an inter-connection between the vegetative nucleusand the generative cell or one of the gametes derived from itduring passage through the tube, and (b) where the generativecell initially leads in the tube, an exchange in relative positions.It is considered improbable that these conditions could consistentlybe met. Mature, incipiently germinating pollen of H. foetidus releasesa fibrillar component when extruded into suitable media. Websor clusters of fibrils are commonly seen to be associated withboth the vegetative nucleus and the generative cell. The possibilitythat the fibrils are composed of aggregates of microfilamentsis considered. Helleborus foetidus L., pollen germination, generative cell, vegetative nucleus, male germ unit     

A neural cocktail-party processor

Sensory segmentation is an outstanding unsolved problem of theoretical, practical and technical importance. The basic idea of a solution is described in the form of a model. The response of neurons within the sensory field is temporally unstable. Segmentation is expressed by synchronization within segments and desynchronization between segments. Correlations are generated by an autonomous pattern formation process. Neuronal coupling is the result both of peripheral evidence (similarity of local quality) and of central evidence (common membership in a stored pattern). The model is consistent with known anatomy and physiology. However, a new physiological function, synaptic modulation, has to be postulated. The present paper restricts explicit treatment to the peripheral evidence represented by amplitude modulations globally present in all components of a sound spectrum. Generalization to arbitrary sensory qualities will be the subject of a later paper. The model is an application and illustration of the Correlation Theory of brain function.This work has been supported by Grant I/37-821 of the Stiftung Volkswagenwerk.     

Laryngeal papillomas: local cellular immune response,keratinization and viral antigen

Virchows Archiv B Cell Pathology - Various parameters of the local cellular response have been studied in 16 laryngeal papillomas from ten patients with recurrent papillomas as well as normal...     

Effects of colcemid and taxol on microtubules and intermediate filaments in chick embryo fibroblasts

Reports on how changes in microtubule (MT) distribution or polymerization affect the distribution of intermediate filaments (IFs) differ. Therefore, we have used cytoimmunofluorescence techniques and electron microscopy to systematically examine and compare the arrangements of MTs and IFs in cultures of chick embryo fibroblasts under the following conditions: at different times during the cell cycle, in the presence of Colcemid or of taxol, in the presence of both drugs in succession or simultaneously in varying ratios, and during recovery from treatment with Colcemid or taxol. We have found that depolymerization of MTs by 1 microM Colcemid resulted in the rapid formation of massive IF-cables, structures distinct from "collapsed IFs" or "juxtanuclear coils." Neither the rapid formation of IF-cables nor their dispersion during recovery required protein synthesis. Cells treated with 10 microM taxol rapidly formed MT-bundles, as well as aggregates of intertwining IFs, termed "IF-skeins." MT-bundles and IF-skeins displayed strikingly complementary distributions. This reciprocal distribution of packed MTs and IFs was also obvious in untreated anaphase and telophase cells. When 10 microM taxol and 1 microM Colcemid were applied simultaneously, the complementary distributions of MT-bundles and IF-skeins mimicked those in taxol alone. This ability of taxol to block Colcemid's effects was concentration dependent. Decreasing the taxol: Colcemid ratio allowed the depolymerization of MTs, which correlated with the formation of IF-cables.     

Immunohistochemical localization of neuropeptide Y in the guinea pig medulla oblongata

Summary The immunohistochemical localization of neuropeptide Y (NPY) was correlated with those of dopamine--hydroxylase (DBH) and vasoactive intestinal polypeptide (VIP) by mapping serial 7 m paraffin sections at three levels of the guina pig lower brainstem: a) area postrema, b) dorsal motor nucleus of the vagus, and c) nucleus prepositus of the hypoglossal nerve. Based on differences in transmitter expression, three populations of NPY-immunoreactive (IR) neurons were distinguished: NPY-IR catecholaminergic cells (NPY/CA), NPY-IR VIP-ergic cells (NPY/VIP), and NPY-IR cells which were not reactive to either DBH or VIP. Within these populations, size differences among neurons in characteristic locations allowed differentiation among the following subpopulations: NPY/CA neurons in the lateral reticular nucleus — magnocellular part (mean neuronal size 538 m²) and parvocellular part (318 m²)-, in the vagus-solitarius complex (433 m²), and in the dorsal strip (348 m²); NPY/VIP neurons in the vagus-solitarius complex (368 m²) and in the nucleus ovalis (236 m²). Apart from scattered NPY-IR cell bodies in the regions listed above, NPY-IR cell bodies in the lateral portion of the nucleus solitarius and in the caudal part of the spinal nucleus of the trigeminal nerve did not exhibit IR to either DBH or VIP. NPY-IR neurons in the area postrema occurred too infrequently for co-localization studies. The differential distribution of heterogeneous NPY-IR cell subpopulations may reflect the involvement of NPY in a variety of neuronal functions.Supported by the Deutsche Forschungsgemeinschaft, grant He 919/6-1