1. Innate immunity and the normal microflora
H G Boman Immunol Rev. 2000 Feb;173:5-16. doi: 10.1034/j.1600-065x.2000.917301.x.
This paper discusses the following ten subtitles with the contents indicated. 1. To meet a microbe: discusses the four alternatives in host-microbe interactions. 2. Receptors and signal transduction giving gene activation: discusses the lipopolysaccharide receptor and the limitations of cell cultures versus use of live animals. 3. Effector molecules--antimicrobial peptides with and without cysteines. A data base exists with over 500 sequences. This paper gives a general overview of five classes of gene-encoded effector molecules, based on the absence or presence of cysteines. These molecules are peptide antibiotics with wide spectra against different microbes. They are synthesized as propeptides and post-translational modifications are common. 4. Effectors of innate immunity--lethal action without host damage: evaluates current opinions about the mode of action of peptide antibiotics and the fact that these effectors do not create host damage. 5. Genes, introns and movable elements. Two cecropin genes containing movable elements and the human cathelicidin gene for proFALL-39/hCAP18 are discussed. 6. The natural microflora. Hippos or frogs as model systems. This section includes the isolation of bacteria from the normal flora of frogs; Aeromonas hydrophila, the bacterium found on all five frog species studied; arguments and selected examples of frog-microbe interactions in vivo and in vitro; and the use of glucocorticoids as control for nuclear factor-kappa B/I kappa B alpha regulation of effector genes. 7. The use of germ-free mice--hard facts from hard work: summarizes new findings which indicate that germ-free mice are born with a set of antibacterial peptides in their small intestine. The intestine of germ-free mice monoinfected with A. hydrophila have peptide patterns that differ depending on a pretreatment with cortisone. 8. Looking back--an evolutionary perspective on innate immunity: arguments for an early evolutionary need for gene-encoded antibacterial factors. Caenorhabditis elegans should provide some answers. The finding of cecropin-like peptides in Helicobacter pylori and the indications that cecropins are derived from ribosomal protein L1. 9. What about viruses? Arguments for the lack of innate immunity against viruses. 10. Five questions floating in the pond of immunology. The normal microflora, its size and control are too often left out from immunological thinking. Animal model systems may sometimes invite misinterpretation. Which animal species are more equal than others?
2. Cooperative Modes of Action of Antimicrobial Peptides Characterized with Atomistic Simulations: A Study on Cecropin B
Ya-Wen Hsiao, Magnus Hedström, Valeria Losasso, Sebastian Metz, Jason Crain, Martyn Winn J Phys Chem B. 2018 Jun 7;122(22):5908-5921. doi: 10.1021/acs.jpcb.8b01957. Epub 2018 May 21.
Antimicrobial peptides (AMPs) are widely occurring host defense agents of interest as one route for addressing the growing problem of multidrug-resistant pathogens. Understanding the mechanisms behind their antipathogen activity is instrumental in designing new AMPs. Herein, we present an all-atom molecular dynamics and free energy study on cecropin B (CB) and its constituent domains. We find a cooperative mechanism in which CB inserts into an anionic model membrane with its amphipathic N-terminal segment, supported by the hydrophobic C-terminal segment of a second peptide. The two peptides interact via a Glu···Lys salt bridge and together sustain a pore in the membrane. Using a modified membrane composition, we demonstrate that when the lower leaflet is overall neutral, insertion of the cationic segment is retarded and thus this mode of action is membrane specific. The observed mode of action utilizes a flexible hinge, a common structural motif among AMPs, which allows CB to insert into the membrane using either or both termini. Data from both unbiased trajectories and enhanced sampling simulations indicate that a requirement for CB to be an effective AMP is the interaction of its hydrophobic C-terminal segment with the membrane. Simulations of these segments in isolation reveal their aggregation in the membrane and a different mechanism of supporting pore formation. Together, our results show the complex interaction of different structural motifs of AMPs and, in particular, a potential role for electronegative side chains in an overall cationic AMP.
3. Bombyx mori cell line as a model of immune-system organs
K Taniai, J H Lee, I H Lee Insect Mol Biol. 2006 Jun;15(3):269-79. doi: 10.1111/j.1365-2583.2006.00639.x.
We tested 11 Bombyx mori cell lines for induction of cecropin B gene (CecB) expression. After the immune challenge, CecB expression was induced in seven cell lines. A mixture of the cell-free supernatant from the immune-responsive cell lines and lipopolysaccharide activated a promoter of CecB in the non-immune-responsive cell line, indicating that secreted factor(s) is involved in CecB activation. The expressed sequence tags of one of the immune-responsive cell lines, NISES-BoMo-Cam1, contained genes encoding proteins similar to Relish, Cactus, clip-domain serine protease, serpin, lectin, peptidoglycan recognition protein, 6tox and gloverin, in addition to seven known B. mori immune-inducible genes. These results show that NISES-BoMo-Cam1 cells can be used as an in vitro model of the immune system organs of B. mori.
