Ntann12 annexin expression is induced by auxin in tobacco roots

Ntann12, encoding a polypeptide homologous to annexins, was found previously to be induced upon infection of tobacco with the bacterium Rhodococcus fascians. In this study, Ntann12 is shown to bind negatively charged phospholipids in a Ca(2+)-dependent manner. In plants growing in light conditions, Ntann12 is principally expressed in roots and the corresponding protein was mainly immunolocalized in the nucleus. Ntann12 expression was inhibited following plant transfer to darkness and in plants lacking the aerial part. However, an auxin (indole-3-acetic acid) treatment restored the expression of Ntann12 in the root system in dark conditions. Conversely, polar auxin transport inhibitors such as 1-naphthylphthalamic acid (NPA) or 2,3,5-triiodobenzoic acid (TIBA) inhibited Ntann12 expression in light condition. These results indicate that the expression of Ntann12 in the root is linked to the perception of a signal in the aerial part of the plant that is transmitted to the root via polar auxin transport.     

Visualization of CD44 and CD133 in Normal Pancreas and Pancreatic Ductal Adenocarcinomas: Non-overlapping Membrane Expression in Cell Populations Positive for Both Markers

Tumor-initiating cells of pancreatic ductal adenocarcinoma (PDAC) have been isolated based on expression of either CD133 or CD44. The authors aimed to visualize pancreatic cells simultaneously expressing both these cell surface markers by employing the same antibodies commonly used in cell-sorting studies. Normal and diseased pancreatic tissue, including 51 PDAC cases, were analyzed. CD44 and CD133 expression was determined by immunohistochemical double staining on formalin-fixed material and subcellular protein distribution evaluated by immunofluorescence/confocal microscopy. In the normal pancreas, CD44 and CD133 were coexpressed in the centroacinar regions but in non-overlapping subcellular compartments. As expected, CD44 was found mainly basolaterally, whereas CD133 was present on the apical/endoluminal membrane. This was also the case in chronically inflamed/atrophic pancreatic tissue and in PDAC. In some malignant ducts, CD44 was found at the apical cell membrane adjacent to but never overlapping with CD133 expression. CD44 level was significantly associated with the patient’s lymph node status. In conclusion, a CD44+/CD133+ cell population does exist in the normal and neoplastic pancreas. The preferentially centroacinar localization of the doubly positive cells in the normal parenchyma suggests that this population could be of particular interest in attempts to identify tumor-initiating cells in PDAC. This article contains online supplemental material at http://www.jhc.org. Please visit this article online to view these materials.     

Neurorestorative Targets of Dietary Long-Chain Omega-3 Fatty Acids in Neurological Injury

Long-chain omega-3 polyunsaturated fatty acids (LC-O3PUFAs) exhibit therapeutic potential for the treatment and prevention of the neurological deficits associated with spinal cord injury (SCI). However, the mechanisms implicated in these protective responses remain unclear. The objective of the present functional metabolomics study was to identify and define the dominant metabolic pathways targeted by dietary LC-O3PUFAs. Sprague-Dawley rats were fed rodent purified chows containing menhaden fish oil-derived LC-O3PUFAs for 8 weeks before being subjected to sham or spinal cord contusion surgeries. We show, through untargeted metabolomics, that dietary LC-O3PUFAs regulate important biochemical signatures associated with amino acid metabolism and free radical scavenging in both the injured and sham-operated spinal cord. Of particular significance, the spinal cord metabolome of animals fed with LC-O3PUFAs exhibited reduced glucose levels (?48 %) and polar uncharged/hydrophobic amino acids (less than ?20 %) while showing significant increases in the levels of antioxidant/anti-inflammatory amino acids and peptides metabolites, including β-alanine (+24 %), carnosine (+33 %), homocarnosine (+27 %), kynurenine (+88 %), when compared to animals receiving control diets (p?N-acetylglutamate (+43 %) and acetyl CoA levels (+27 %), respectively. Interestingly, this dietary intervention resulted in a global correction of the pro-oxidant metabolic profile that characterized the SCI-mediated sensorimotor dysfunction. In summary, the significant benefits of metabolic homeostasis and increased antioxidant defenses unlock important neurorestorative pathways of dietary LC-O3PUFAs against SCI.     

Development of High Affinity Selective VIP1 Receptor Agonists

Gourlet, P., A. Vandermeers, P. Vertongen, J. Rathe, P. De Neef, J. Cnudde, M. Waelbroeck and P. Robberecht. Development of high affinity selective VIP₁ receptor agonists. Peptides 18(10) 1539–1545, 1997.—The biological effects of VIP are mediated by at least two VIP receptors: the VIP₁ and the VIP₂ receptors that were cloned in rat, human and mice. As the mRNA coding for each receptor are located in different tissues, it is likely that each receptor modulates different functions. It is therefore of interest to obtain selective agonists for each receptor subtype. In the present work, we achieved the synthesis of two VIP₁ receptor selective agonists derived from secretin and GRF. [R¹⁶]chicken secretin had IC₅₀ values of binding of 1, 10,000, 20, and 3000 nM for the rat VIP₁-, VIP₂-, secretin- and PACAP receptors, respectively. This peptide, however, had a weaker affinity for the human VIP₁ receptor (IC₅₀ of 60 nM). The chimeric, substituted peptide [K¹⁵,R¹⁶,L²⁷]VIP(1-7)/GRF(8-27) had IC₅₀ values of binding of 1, 10,000, 10,000 and 30,000 nM for the rat VIP₁-, VIP₂-, secretin- and PACAP receptors, respectively. Furthermore, its also showed an IC₅₀ of 0.8 nM for the human VIP₁ receptor and a low affinity for the human VIP₂ receptor. It is unlikely that this GRF analogue interacted with a high affinity to the pituitary GRF receptors as it did not stimulate rat pituitary adenylate cyclase activity. The two described analogues stimulated maximally the adenylate cyclase activity on membranes expressing each receptor subtype.     

Indomethacin inhibits cholera toxin-induced cyclic AMP accumulation in Chinese hamster ovary cells

Abstract Indomethacin was examined for its capacity to inhibit increases in adenosine-3',5'-monophosphate (cAMP) concentrations in Chinese hamster ovary (CHO) cells treated with cholera toxin. When added to the culture medium 1 h prior to cholera toxin (100 ng/ml), indomethacin (500 μg/ml) exhibited maximum protection against the typical increase in cAMP. Application of indomethacin at the same time as cholera toxin or up to 3 h after the toxin progressively decreased the drug's capacity to block further increases in cAMP. The drug appeared to block adenylate cyclase activity because addition of forskolin to drug-treated cells did not elicit a cAMP response. Binding of ¹²⁵I-labeled cholera toxin to indomethacin-treated cells was also reduced by at least 50%. These data indicate that indomethacin's inhibitory effect on cAMP formation in cholera toxin-treated cells could be explained by its capacity to alter adenylate cyclase activity and cholera toxin binding.     

STUDIES OF HAWAIIAN FRESHWATER AND SOIL ALGAE II. ALGAL COLONIZATION AND SUCCESSION ON A DATED VOLCANIC SUBSTRATE1,2

Spatial studies of colonization and succession of soil algae and chemical analyses of the various soils on the cinde cone of Kilauea Iki in Hawaii Volcanoes National Park, Hawaii are outlined. There is a positive correlation between the diversity and quantity of soil algae with nutrient levels and organic matter accumulation in each locale. Three distinct edaphic-biotic zones existing in this area are differentially revealed by the soil chemical composition, quantity and diversity of soil algae, and as evident variations in higher plant growth and colonization. Varying colonization and successional phases of higher plant growth around standing and fallen tree snags killed by volcanic activity also reflect variations in the soil algal flora. These variations appear largely as a function of differential water interception, absorption, and retention as well as differential accumulation of organic matter, and the initiation of various biogeochemical cycles.