Appearance of a Cell Surface Antigen Associated with the Activation of Peritoneal Macrophages in Mice

A relatively large population of murine peritoneal exudate macrophages induced with viable BCG or heat-killed Corynebacterium parvum was stained by the antiserum prepared against purified gangliotetraosyl ceramide (asialo GM1), while only a small population of peritoneal resident macrophages or peritoneal exudate macrophages induced with proteose peptone was stained. The cytotoxicity assay of those macrophages with anti-asialo GM1 plus complement supported these results. Peritoneal macrophages induced with BCG or C. parvum showed strong cytotoxicity for EL4 cells in vitro, while resident or peptone-induced peritoneal macrophages showed no cytotoxicity. BCG- or C. parvum-induced peritoneal cells contained both NK cells and cytotoxic macrophages, and either in vivo or in vitro pretreatment of the cells with anti-asialo GM1 and complement abolished the activities of both types of cells. Peptone-induced peritoneal macrophages incubated with lymphokines (LK) or lipopolysaccharide (LPS) were cytotoxic for EL4 cells and contained an increased number of cells stained by anti-asialo GM1. The cytotoxicity of these in vitro activated macrophages was reduced by treatment with anti-asialo GM1 plus complement. When peptone-induced peritoneal macrophages were incubated with LK, the number of cells stained by anti-Ia antiserum increased, but the number did not increase when the macrophages were incubated with LPS. Pretreatment of peptone-induced macrophages with anti-asialo GM1 plus complement did not affect the ability of the macrophages to be activated by LK. These results taken together strongly suggest that the antigen (s) reactive with anti-asialo GM1 is expressed on the cell surface of cytotoxic peritoneal macrophages in mice.     

Effects of winter flooding on phosphorus dynamics in rice fields

Limnology - Controlling phosphorous (P) loads from rice fields is important for the conservation of aquatic ecosystems, in part because P is relatively concentrated at its sources. Recently, winter...     

In addition to the ARS core, the ARS box is necessary for autonomously replicating sequences

Summary Autonomously replicating sequences (ARSs) were cloned from nuclear and mitochondrial DNA of D. melanogaster using YIp5, which is composed of pBR322 and the yeast ura3 gene, as the cloning vector and YNN27, a Ura^- yeast strain as the recipient. The nucleotide sequences of six ARSs, two from nuclear bulk, two from the nuclear 1.688 satellite, and two from mitochondorial DNA, were determined. The relationship between the transformation frequency and the inclusion of the ARS core, 5 _T ^A TT-TAT _A ^G TTT _T ^A 3, of these fragments was analysed. All the ARSs contained an ARS core or a single base change of it. However, not all the fragments that contained a single base change of the ARS core were able to transform the recipient cells, suggesting that certain bases in the ARS core were not exchangeable. It is suggested by transformation experiments with subfragments that in addition to an ARS core, an ARS box which is located within 25 bp upstream of the ARS core and whose sequence is composed of 5TNT _G ^A AA 3, is necessary for autonomous replication.     

Suppression of Inhibitory Effects of Copper on Enzymatic Activities by Copper-Binding Substances from Athyrium yokoscense Assayed in vitro

A metal-tolerant fern, Athyrium yokoscense, is capable of growingin highly copper-contaminated soil, but cupric chloride inhibitedthe activities of some enzymes extracted from the fern. Thefunction in the detoxification of copper of two copper-bindingsubstances was investigated by examination of their effectson various enzymes assayed in vitro, i.e. acid phosphatase (orthophosphoric-monoesterphosphohydrolase [acid optimum], EC 3.1.3.2 [EC] ), glucose-6-phosphatedehydrogenase (D-glucose-6-phosphate: NADP⁺ 1-oxidoreductase,EC 1.1.1.49 [EC] ) and isocitrate dehydrogenase (threo-Ds-isocitrate:NADP⁺ oxidoreductase [decarboxylating], EC 1.1.1.42 [EC] ). The twocopper-binding substances, whose apparent molecular weightsare 9.5 kDa and 2 kDa, were previously obtained from the solublecytoplasmic fraction of the fern root. The 9.5-kDa substance,which is a cysteine-rich peptide induced as a result of exposureof the fern to copper, was found to suppress almost entirelythe inhibitory effects of the metal on the enzymes. The suppressoractivity of the peptide was nearly as effective as that of ethylenediaminetetraaceticacid. The 2-kDa substance, which is also found in fern thathas not been exposed to copper, had a more modest suppressoractivity. These results indicate that the 9.5-kDa substancemay contribute to the copper-tolerance of the fern growing incopper-contaminated soil. (Received August 26, 1988; Accepted March 17, 1989)     

Mutations in {beta}-Tubulin Block Transhyphal Migration of Nuclei in Dikaryosis in the Homobasidiomycete Coprinus cinereus

ß-Tubulins from fourteen benomyl-resistant strainsof the homobasidiomycete Coprinus cinereus, which carry thebenA, benB, benC or benD mutations, were analyzed by urea SDS-PAGEor isoelectric focusing and subsequent immunoblot analysis.Electrophoretic aberrations in a major ß-tubulin isotype,denoted ß1 were found in two strains, BEN154 and BEN215,both of which carry benomyl resistance mutations in benA ⁺ Theaberrations of ß1 in BEN154 and BEN215 cosegregatedwith benomyl resistance among the progeny of outcrosses of BEN154 and BEN215 to wild type, indicating that the ß1aberrations were caused by the benA mutations. Both the mutantand wild-type ß1 tubulins were present in the heterozygousdikaryons, BEN 154/wild-type and BEN215/wild-type, ruling outpost-translational modification as a possible cause for theaberrations in ß1. Thus, we conclude that benA isa structural gene for ß1. Transhyphal migration ofnuclei in dikaryosis was blocked in the mycelia of BEN 154 andin its progeny that carried benA (ß1 mutation), demonstratingthat microtubules are involved in the migration process. Nuclearmigration in dikaryosis seems to differ in terms of mechanism,at least in part, from the migration of tetrad nuclei from basidiainto prespores during formation of basidiospores and from themigration of nuclei from basidiospores into hyphae during germination,because a benA mutation blocked the former without affectingthe latter two processes. (Received May 19, 1989; Accepted August 30, 1989)     

Immunohistochemical colocalization of glucagon,serotonin, and aromatic L-amino acid decarboxylase in islet A cells of chicken pancreas

Summary The identity of monoamine-emitted, formaldehyde-induced fluorescence in some pancreatic islet cells was studied in pancreatic tissue of male chickens by fluorescence and immunohistochemistry either on the same tissue section or on serial tissue sections. Pancreatic islet cells emitting intense formaldehyde-induced fluorescence also react immunohistochemically with antisera directed against glucagon, serotonin and aromatic L-amino acid decarboxylase. These results show that chicken pancreatic islet A cells contain glucagon, serotonin, and aromatic L-amino acid decarboxylase, an enzyme involved in the synthesis of serotonin. The islet B cells identified with anti-insulin immunoreactivity, which displayed a very weak formaldehyde-induced fluorescence, did not react with anti-serotonin serum.     

Ferric cacodylate efficiently stimulates growth of rat renal glomerular epithelial cells in vitro

Rat renal glomerular epithelial cells (SGE1 cell line) can be maintained and grown continuously in serum-free medium supplemented with insulin, iron-saturated transferrin (Tr), selenium, bovine serum albumin (BSA), linoleic acid, and epidermal growth factor (EGF). Of the growth supplements used, Tr is essential for proliferation of the cells. In the present study, we describe the use of a unique iron-chelate complex, ferric cacodylate (Fe-Cac), positively charged molecules in neutral buffer, that could almost replace Tr in serum-free culture. It even stimulated the growth of SGE1 cells more efficiently than ferric chloride (FeCl₃) and other iron-chelate complexes, such as ferric nitrilotriacetate (Fe-NTA) and ferric citrate (Fe-Cit). The growth-stimulatory activity of Fe-Cac was exerted at iron concentrations of more than 0.01 g/ml, whereas a 10-fold excess of iron concentration was required with FeCl₃, Fe-NTA and Fe-Cit. We observed that SGE1 cells grew until confluent, then formed hemicysts (domes) in serum-free medium containing Fe-Cac, suggesting that Fe-Cac did not merely permit cell growth but also supported polarization and organization of the cells into a functional epithelial architecture. Moreover, since the stimulatory activity of Fe-Cac was completely abolished by desferrioxamine, a strong iron chelator, it is suggested that iron is crucial for growth of SGE1 cells. When the cells were treated with suramin, an inhibitor of cellular pinocytosis and endocytosis of a large spectrum of ligands including receptor-bound growth factors, growth-stimulatory activity of Tr was inhibited, whereas the activity of Fe-Cac was not affected. These results, taken together, strongly suggest that the growth-stimulatory activity of Fe-Cac is associated with iron delivery into the cells through the cell membrane by diffusion, which is different from Tr receptor-mediated endocytosis. The use of Fe-Cac for investigating iron-regulated cell proliferation is suggested.     

Isolation of a cAMP-requiring mutant in Escherichia coli K-12: evidence of growth regulation via N-acetylglucosamine metabolism controlled by cAMP

Abstract An adenylate cyclase gene ( cya ) mutant was mutagenized and an adenosine 3,5-cyclic monophosphate (cAMP)-requiring mutant (KM8161) was obtained on Davis minimal medium containing glucose in the presence or absence of cAMP. KM8161 also required N -acetylglucosamine for its growth instead of cAMP. Furthermore, the mutant could use neither glucosamine nor N -acetylglucosamine as the carbon source. These results indicate that the cAMP-requiring property is due to multiple mutations of a few genes involved in amino sugar metabolism in addition to cya . By genetic analysis of KM8161, one gene, which was tentatively termed cidA and located near 2 min on the chromosomal map, proved to be defective. Reversion of cidA mutation in KM8161 resulted in recovery of not only the cAMP-requiring phenotype but also non-utilization of amino sugars. When both cAMP and N -acetylglucosamine or glucosamine were added to the culture medium for KM8161, only N -acetylglucosamine could be utilized as the carbon source. These studies s strongly suggest that the cidA or cya mutation in KM8161 causes deficiency in different stages of amino sugar metabolism and the regulatory circuit of growth by cAMP is mediated via control of N -acetylglucosamine metabolism.