Frederick M. Enright

In vitro cytocidal effect of novel lytic peptides on Plasmodium falciparum and Trypanosoma cruzi.

Plasmodium falciparum and Trypanosoma cruzi were killed by two novel lytic peptides (SB‐37 and Shiva‐1) in vitro. Human erythrocytes infected with P. falciparum, and Vero cells infected with T. cruzi, were exposed to these peptides. The result, in both cases, was a significant decrease in the level of parasite infection. Furthermore, the peptides had a marked cytocidal effect on trypomastigote stages of T cruzi in media, whereas host eukaryotic cells were unaffected by the treatments. In view of the worldwide prevalence of these protozoan diseases and the lack of completely suitable treatments, lytic peptides may provide new and unique chemother‐apeutic agents for the treatment of these infections.—Jaynes, J. M.; Burton, C. A.; Barr, S. B.; Jeffers, G. W.; Julian, G. R.; White, K. L.; Enright, F. M.; Klei, T. R.; Laine, R. A. In vitro cytocidal effect of novel lytic peptides on Plasmodium falciparum and Trypanosoma cruzi. FASEB J. 2: 2878‐2883; 1988.

Membrane disrupting lytic peptide conjugates destroy hormone dependent and independent breast cancer cells in vitro and in vivo.

We have prepared conjugates of a membrane disrupting lytic peptide (hecate) and a 15-amino acid segment of the β-chain of CG and hecate and the decapeptide, luteinizing hormone releasing hormone (LHRH). We have tested the concept that these conjugates will target breast cancer cells expressing LH/CG or LHRH receptors. In previous studies, we were able to destroy prostate cancers in vitro and in vivo with lytic peptide conjugates [1]. Hecate, hecate–βCG and LHRH–hecate were added to cultures of the human breast cancer cell lines MCF-7 and MDA-MB-435S. Hecate and its conjugates showed concentration dependent toxicity to both cell lines. The lytic peptide alone showed similar EC50 values for both cell lines; however, there was a significant difference between the EC50 values when the conjugates were tested. The hormone dependent MCF-7 cell line was less sensitive to the βCG conjugate than to the LHRH conjugate; the reverse was found for the hormone independent MDA-MB-435S cells. Removal of steroids decreased the sensitivity of MCF-7 cells to both lytic peptide conjugates and this sensitivity could be restored by adding estradiol. Activation of protein kinase C further increased the sensitivity to the drug. MDA-MB-435S xenografts were established in intact female athymic nude mice, which were treated once a week for 3 weeks with hecate–βCG via the lateral tail vein. The ability of hecate–βCG to destroy xenografts of human breast cancer cells (MDA-MB-435S) in nude mice was demonstrated for the first time. We conclude that hecate–βCG and LHRH–hecate conjugates could serve as useful drugs for the treatment of breast cancer.

Targeted destruction of androgen-sensitive and -insensitive prostate cancer cells and xenografts through luteinizing hormone receptors

We have prepared a conjugate of a lytic peptide (hecate) and a 15‐amino acid segment of the β‐chain of LH to test the concept that this conjugate will target cancer cells expressing LH receptors.

Spiroplasma found in the eyes of scrapie affected sheep

OBJECTIVE Scrapie, a transmissible spongiform encephalopathy (TSE) occurring naturally in sheep, characteristically shows a severe retinopathy that is well developed in the terminal phases of the disease. In this study, we set out to demonstrate similar retinal changes in our ruminant spiroplasmosis TSE model. PROCEDURE The eyes from deer, sheep, and goats that were inoculated intracranially with the laboratory strain of spiroplasma (suckling mouse cataract [SMCA] strain of Spiroplasma mirum) or with Spiroplasma sp. isolated from the brains affected with scrapie or with chronic wasting disease were examined by light microscopy for pathologic changes and by immunocytochemistry for distribution of spiroplasma antigen. The eyes were also obtained from a research flock of sheep with terminal scrapie, from which the intraocular tissues were submitted aseptically for culture assay in M1D broth or as explants on bovine corneal endothelia (BCE). RESULTS The eyes from the spiroplasmosis ruminant models showed retinopathy remarkably similar to eye lesions seen in sheep with scrapie. The spiroplasma antigen accrued in the ruminant model eye tissues, particularly in the retina, the vitreous humor, and the corneal endothelia. A Spiroplasma sp. grew out of the scrapie-affected eyes both in the M1D broth and in the BCE cultures but did not expand. These new spiroplasma isolates differed immunologically from SMCA. CONCLUSION These data showed a clear association of spiroplasma with scrapie suggesting that these bacteria have a role in the pathogenesis of TSE and that the eye should be a research focus for future studies of TSE.

Oat consumption reduced intestinal fat deposition and improved health span in Caenorhabditis elegans model

In addition to their fermentable dietary fiber and the soluble β-glucan fiber, oats have unique avenanthramides that have anti-inflammatory and antioxidant properties that reduce coronary heart disease in human clinical trials. We hypothesized that oat consumption will increase insulin sensitivity, reduce body fat, and improve health span in Caenorhabditis elegans through a mechanism involving the daf-2 gene, which codes for the insulin/insulin-like growth factor-1–like receptor, and that hyperglycemia will attenuate these changes. Caenorhabditis elegans wild type (N2) and the null strains sir-2.1, daf-16, and daf-16/daf-2 were fed Escherichia coli (OP50) and oat flakes (0.5%, 1.0%, or 3%) with and without 2% glucose. Oat feeding decreased intestinal fat deposition in N2, daf-16, or daf-16/daf-2 strains (P < .05); and glucose did not affect intestinal fat deposition response. The N2, daf-16, or sir-2.1 mutant increased the pharyngeal pumping rate (P < .05), a surrogate marker of life span, following oat consumption. Oat consumption increased ckr-1, gcy-8, cpt-1, and cpt-2 mRNA expression in both the N2 and the sir-2.1 mutant, with significantly higher expression in sir-2.1 than in N2 (P < .01). Additional glucose further increased expression 1.5-fold of the 4 genes in N2 (P < .01), decreased the expression of all except cpt-1 in the daf-16 mutant, and reduced mRNA expression of the 4 genes in the daf-16/daf-2 mutant (P < .01). These data suggest that oat consumption reduced fat storage and increased ckr-1, gcy-8, cpt-1, or cpt-2 through the sir-2.1 genetic pathway. Oat consumption may be a beneficial dietary intervention for reducing fat accumulation, augmenting health span, and improving hyperglycemia-impaired lipid metabolism.

Light-microscopic studies of 3T3 cell plasma membrane alterations mediated by melittin.

Various light microscopic techniques were used to study the effect of melittin, a major toxic constituent of honey bee venom, on plasma membranes of 3T3 mouse fibroblasts. Bright-field light microscopy and Trypan Blue dye exclusion were used to demonstrate changes in membrane permeability after exposure to melittin. Differential interference contrast (DIC) microscopy showed that membrane vesiculation induced by melittin was dose dependent. Using both fluorescent lipid and glycoprotein markers, we found that membrane vesicles were primarily composed of lipids. A sequence of events associated with vesicle formation was depicted by DIC and fluorescence microscopy. Confocal laser scanning fluorescence microscopy demonstrated a translocation of membrane glycoproteins from the plasma membrane to the cytosol following melittin treatment. The significance of membrane vesiculation and translocation of membrane glycoproteins in damaged cells is discussed.

Structural changes induced in thionins by chloride anions as determined by molecular dynamics simulations

Computational analysis of two membrane-permeabilizing peptides, barley alpha-hordothionin and wheat beta-purothionin, revealed that anions can trigger dynamic and structural changes in the thionin antiparallel double alpha-helix core. Analysis of the molecular dynamics simulations demonstrated that anions induced unfolding of the alpha2 and alpha1 helices at the carboxyl ends which are located on the opposite ends of the alpha-helix core. An internalized water molecule was observed inside the unfolded alpha2 C-end. Strong interactions of anions with the R30 regulating network or simultaneous interactions of anions with the phospholipid-binding site and the R30 hydrogen bonding network triggered unfolding of the alpha2 C-end. An increase of anion density for two residues of the phospholipid-binding site (K1, R17, and Q22) or R17 and R19 and a preceding unfolding of the alpha2 C-end were necessary for unfolding of the alpha1 C-end. Anions interacted primarily with residues of the phospholipid-binding site and the R30 network while the alpha1/alpha2 hydrophobic region was void of anions. However, during strong interactions of anions with the R30 network and phospholipid-binding site, the alpha1/alpha2 hydrophobic region attracted anions which interacted with conserved residues of the alpha1 C-end. Analysis of anion-induced rearrangements pointed to auxiliary residues of the R30 network and the phospholipid-binding site. Induction of conformational changes on the opposite ends of the alpha-helix core by interactions of anions with the phospholipid-binding site may be relevant to a mechanism of membrane-permeabilizing activity.