N-carboxymethylchitosan: Algistatic and algicidal properties

Summary A water soluble agent made from waste crustacean shells that controls the growth of algal cells was identified. Growth of an Anabaena sp. was inhibited in the presence of varied concentrations of a chitosan-derivative, N-carboxymethylchitosan (NCMC). Application of a dilute water solutions of NCMC prevented algae from multiplication and enhanced aggregation of cells and assured clearing of algal suspension by filtration.     

Preharvest aflatoxin contamination: effect of moisture and substrate variation in developing cottonseed and corn kernels.

Variations in moisture and substrate in preharvest corn kernels and cottonseed were linked with the ability of Aspergillus parasiticus to infect the seed and produce aflatoxin. Osmotic pressures and moisture content (MC) levels of developing starch-rich corn kernels and lipid-rich cottonseed were determined. For in vivo studies, corn kernels and cottonseed were inoculated with A. parasiticus conidia and retained on plants through maturation. For in vitro studies, samples of corn kernels and cottonseed were collected at various stages, sterilized, inoculated, incubated for 2 weeks, and assayed for toxin. Aflatoxin levels were highest in corn kernels inoculated at 28 days postflowering (52% MC) in both the in vivo and in vitro tests. Toxin concentrations in cottonseed were greatest with inoculation at 35 days postflowering (70% MC) in seed retained on the plant, but toxin accumulation continued to increase with the maturity of the seed inoculated in cottonseed used in the in vitro trials. Moisture and substrate conditions in the midrange of seed development provided optimum conditions for fungal development and toxin production in seed retained on the plant.     

Eimeria tenella and E. acervulina: lymphokines secreted by an avian T cell lymphoma or by sporozoite-stimulated immune T lymphocytes protect chickens against avian coccidiosis

The role of avian lymphokines as nonspecific immunomodulators of host immunity against the intracellular parasite Eimeria was investigated. Prophylactic treatment of normal chickens with crude cell-free supernatants obtained from JMV-1 culture, concanavalin A (Con A)-stimulated normal spleen cells, or sporozoite-stimulated immune T cells prior to inoculation with E. tenella or E. acervulina conferred significant protection. These crude cell-free culture supernatants also inhibited intracellular development of eimerian parasites in vitro. Avian macrophages pretreated with these supernatant preparations showed inhibitory activity against Eimeria. This inhibitory activity could not be ascribed to anti-Eimeria antibody, complement, or cell-free Marek's disease virus and was therefore considered to be due to immunomodulating lymphokines present in the culture supernatants. These results suggest that JMV-1-transformed T lymphoblastoid cells, immune T lymphocytes, and Con A-stimulated normal spleen cells secrete lymphokines that can enhance host immunity in a nonspecific manner and implicate cell-mediated immunity as a major mechanism of the protective host immune response against eimerian infections.     

Eimeria acervulina: DNA cloning and characterization of recombinant sporozoite and merozoite antigens

Genes encoding antigens of Eimeria acervulina were cloned from cDNA expression libraries prepared from the sporozoite and merozoite stages in order to examine humoral and cellular immune responses to this protozoan parasite. Two clones expressing surface antigens were characterized by DNA hybridization studies to identify homologous genomic DNA fragments. The proteins they encode were identified by 125I-labeling, immunoblotting, immunofluorescence, and T-cell activation experiments. One, designated cSZ-1, encodes a 130-kDa beta-galactosidase fusion protein which represents a portion of a p240/p160 immunodominant sporozoite surface antigen. Immunofluorescence studies using anti-cSZ-1 sera and live or 1% paraformaldehyde-fixed E. acervulina sporozoites have confirmed this surface locale. Purified cSZ-1 fusion protein, which is not recognized by sera from E. acervulina-infected chickens, induced the activation of immune T lymphocytes in vitro. Another cDNA clone, designated cMZ-8, gives rise to a 150-kDa fusion protein and encodes a portion of a p250 immunodominant merozoite surface antigen. This was established by immunoblotting of 125I-labeled merozoite proteins with anti-cMZ-8 sera and immunofluorescence staining of live and 1% paraformaldehyde-fixed E. acervulina merozoites. Purified cMZ-8 is recognized by sera from E. acervulina-infected chickens and induces a significant activation of immune T lymphocytes in vitro.     

Three distinct H-2Ks molecules differing at the carboxy terminus are expressed on a tumor from SJL/J mice

A dimethylbenzanthracene-induced leukemia of H-2s origin expressed at least two class I molecules on the cell surface that were precipitated by anti-H-2.19, an alloantiserum prepared against the private H-2Ks specificity. Mapping studies in recombinant inbred strains along with comparisons of tryptic peptide maps and N-terminal sequences indicated that the proteins were virtually identical and probably encoded by the same class I gene. When cells were labeled in the presence of tunicamycin, the proteins precipitated by anti-H-2.19 were further resolved into three distinct peptides. Experiments were performed to determine which of these various proteins were phosphorylated and which were recognized by an anti-synthetic peptide serum directed against the ultimate C-terminus of H-2K class I molecules. The results indicate that a single class I gene from the H-2Ks region may encode three class I molecules that differ only at the C-terminus due to alternative splicing of pre-mRNA.     

Aflatoxin B1 Uptake by Flavobacterium aurantiacum and Resulting Toxic Effects

Removal of aflatoxin B(1) from liquid cultures by resting and growing cells of Flavobacterium aurantiacum NRRL B-184 was studied. Spectrophotometic and thin-layer techniques served as aflatoxin assays. Cells grown in the presence of 5 ppm or higher levels of aflatoxin developed aberrant morphological forms. These toxin concentrations partially inhibited growth, and the nature of the inhibition suggested that aflatoxin interfered with cell wall synthesis. Incubation of 1.0 x 10(11) resting cells per milliliter with 7.0 mug/ml of aflatoxin B(1) during a 4-hr period facilitated complete toxin removal from a buffered aqueous medium. Autoclaved cells and cell wall preparations could remove a fraction of the aflatoxin of a test system. However, the toxin removed by autoclaved cells and cell walls could be extracted by washing with water but the aflatoxin B(1) removed by intact cells could not be extracted into the liquid phase. The uptake of aflatoxin B(1) by resting cells was sensitive to temperature and pH. Ruptured preparations of F. aurantiacum were not able to remove or modify the aflatoxin in an aqueous solution.     

CD8+ T cell-coccidia interactions

Host responses to coccidian parasites involve many facets of the immune system, including antigen-specific as well as antigen-nonspecific components. Hyun Lillehoj and James Trout here review the evidence that cell-mediated responses are probably the main line of defense against coccidial infection.     

Evolutionary basis and ecological role of toxic microbial secondary metabolites

This presentation develops a theory of the evolutionary origin and ecological implications of toxic microbial secondary metabolites. The theory is based on a model system that outlines cause—effect associations between pertinent biotypes in the aflatoxin contamination of developing maize kernels. The model suggests that the aflatoxin-producing fungi are natural digestive tract inhabitants of a number of insect species that feed on developing kernels. During feeding, the insect larvae introduce fungal propagules and provide infection sites on damaged kernels. The fungal association with insects exhibits extraordinary variability, ranging from symbiotic to pathogenic. Elaboration of aflatoxin by the fungus facilitates the pathogenic process in host insects. The theory contends that genetic information for secondary microbial metabolites evolved during ecosystem disequilibria. During periods of ecological stability, mechanisms evolved for repression of toxic secondary metabolite biosynthesis. The theory broadly suggests that contemporary agricultural activities presents the requisite milieu for production or toxic microbial secondary metabolites.     

Genetic factors controlling the susceptibility to experimental autoimmune thyroiditis in inbred rat strains

CDF (high responder) rats were crossed with SHR (low responder) rats to study genetic factors influencing susceptibility to experimental autoimmune thyroiditis (EAT). F1 hybrid rats showed intermediate susceptibility to thyroiditis. Gene segregation patterns of F2 and backcross rats demonstrated that the immune response to rat thyroglobulin (RaTg) is under polygenic control. A main factor controlling immune response to RaTg is associated with the X chromosome. Females of CDF and SHR rats produced higher levels of antibody, suggesting that antibody production to RaTg is a sex-influenced trait. Different genetic control mechanisms are evident in autoantibody production and thyroid lesions. No evidence of linkage of an immune response gene to RaTg to the major histocompatibility complex of the rat (RT1) was observed.