Earl C. Richardson

Effects of negatively charged lipids on phagocytosis of liposomes opsonized by complement.

Ingestion of liposomes opsonized by specific antibody plus complement was investigated in vitro. Although the antibodies alone (IgM) did not have an opsonizing effect, in the presence of such antibodies uptake and ingestion of liposomes by mouse peritoneal macrophages was enhanced 5- to 10-fold by addition of complement. Phagocytosis of complement-opsonized liposomes was strongly dependent on the charge of the liposomal lipids. The presence of a negatively charged (i.e., acidic) lipid profoundly suppressed the uptake of the liposomes. Each of three acidic liposomal lipids, phosphatidylserine, phosphatidylinositol and dicetyl phosphate, suppressed liposome uptake. We conclude that opsonization of liposomes with complement greatly stimulates ingestion of liposomes by murine macrophages. However, most of the opsonic enhancement conferred by complement can be prevented by the presence of negatively charged membrane lipids.

Studies on the Topography of the Catalytic Site of Acetylcholinesterase Using Polyclonal and Monoclonal Antibodies

Abstract: Polyclonal and monoclonal antibodies were generated against a synthetic peptide (25 amino acid residues) corresponding to the amino acid sequence surrounding the active site serine of Torpedo californica acetylcholinesterase (AChE). Prior to immunization, the peptide was either coupled to bovine serum albumin or encapsulated into liposomes containing lipid A as an adjuvant. To determine whether this region of AChE is located on the surface of the enzyme and thus accessible for binding to antibodies, or located in a pocket and thus not accessible to antibodies, the immunoreactivity of the antibodies was determined using enzyme‐linked immunosorbent assay (ELISA), immunoprecipitation, Western blots, and competition ELISA. The polyclonal antibody and several of the monoclonal antibodies failed to react with either Torpedo or fetal bovine serum AChE in their native conformations, but showed significant cross‐reactivity with the denatured enzymes. Human serum butyrylcholinesterase, which has a high degree of amino acid sequence homology with these AChEs, failed to react with the same antibodies in either native form or denatured form. Chymotrypsin also failed to react with the monoclonal antibodies in either form. Eighteen octapeptides spanning the entire sequence of this region were synthesized on polyethylene pins, and epitopes of representative monoclonal antibodies were determined by ELISA. The reactivity of peptides suggests that a portion of the 25 mer peptide in AChE containing the active site serine is the primary epitope. It is not exposed on the surface of the enzyme and is most likely sequestered in a pocket‐like conformation in the native enzyme.

A Correlation between Radiation-induced Free Radicals and Survival in Micro-organisms Exposed to β-mercaptoethylamine under Oxygen or Nitrogen

SummaryBoth free radical and survival measurements were made on the same samples of micro-organisms irradiated at −196°c. Under these conditions, which minimized indirect effects, pronounced oxygen (radiosensitization) and MEA (radioprotection) effects were observed. MEA protected in the presence of N2 or O2. The reduction in certain types of bacterial radicals by MEA correlated with an increase in bacterial survival. Sulphur-type radicals were not found.These findings indicate:(1) A relation exists between free-radical reduction and radiation protection;(2) MEA is in contact with the protected biological molecules;(3) Transfer of unpaired electrons to the sulphur nucleus in MEA is not required for radiation protection;(4) MEA protection includes a mechanism that does not involve competition with oxygen;(5) The oxygen-effect involves direct interaction of oxygen with biological molecules.

Specific binding of concanavalin A to free inositol and liposomes containing phosphatidylinositol.

We previously reported that concanavalin A could bind specifically to liposomes containing phospholipids and lacking glycoconjugates (Biochem. Biophys. Res. Comm. 74, 208, 1977). In the present study we show that the binding of concanavalin A to the liposomes was greatly increased (up to 5 fold) by the presence of phosphatidylinositol in the liposomes. Furthermore, the binding of concanavalin A to phosphatidylinositol-liposomes was specific and could be inhibited by either alpha-methyl mannoside or by myo-inositol. We also found that concanavalin A-induced lymphocyte mitogenesis could be inhibited either by alpha-methyl mannoside or by myo-inositol. Simultaneous addition of both inhibitors to concanavalin A and liposomes showed that inhibition was non-competitive: alpha-methyl mannoside was more inhibitory to liposomes lacking phosphatidylinositol, and myo-inositol was more inhibitory to liposomes containing phosphatidylinositol. This suggests that the binding site for inositol might be different than that for mannose. Equilibrium dialysis and Scatchard plots revealed 4 binding sites each for inositol and mannose at neutral pH. The binding constants of concanavalin A were 0.13 X 10(4) and 0.25 X 10(4) liters/mole respectively for inositol and mannose. We conclude that concanavalin A binds specifically to the inositol portion of phosphatidylinositol.

Life-Long Administration of Liposomes and Lipid A in Mice: Effects on Longevity, Antibodies to Liposomes, and Terminal Histopathological Patterns

AbstractLong-term effects of life-long (>2 year) repeated intravenous injections (up to 17) of high doses of liposomes, lipid A, or liposomes containing lipid A were assessed in BALB/c mice. the liposomes contained dipalmitoylphosphatidylcholine, and cholesterol (1/0.75). When compared with mice injected only with normal saline, there were no statistical differences in life spans observed between the different groups. Animals injected with liposomes or liposomes containing lipid A gradually developed “ruffled” fur, but the animals did not appear sick otherwise, and no differences were observed in the mean weights of the animals in the different groups. All of the animals that were tested in each group, including those injected with normal saline, developed IgG antibodies against one or more of nine lipid antigens. the antibodies were detected by a solid-phase enzyme-linked immunosorbent assay (ELisA) and the antigens consisted of either lipid A or one of eight different phospholipids. After 765 days, when...

STRUCTURE-FUNCTION STUDIES OF THE AMINOTHIOL RADIOPROTECTANTS. THE EFFECT OF CARBON CHAIN LENGTH IN MERCAPTOETHYLAMINE HOMOLOGS.

The relation between chemical structure and physical-chemical radiation protection in E. coli has been studied in a series of aminothiols. The aminothiols utilized in this study were β-mercaptoethy...

Radioprotective effects of lipid A, liposomes, and liposomes containing lipid A in mice

Lipid A from Gram-negative bacterial lipopolysaccharide (endotoxin) was incorporated into liposomal membranes and examined as a prophylactic radioprotectant compound in lethally irradiated mice. Splenic hematopoietic activity, resulting in increased numbers of spleen cell colonies, was induced both by lipid A alone or more strongly by liposomal lipid A. Increased survival of lethally irradiated animals was induced to a slight extent by liposomes alone, to a greater extent by lipid A, and at the highest level by liposomes containing lipid A. Under conditions where 100% of untreated or saline-treated animals died of acute radiation syndrome after 20 days, more than 90% of the animals pretreated with liposomal lipid A were still alive 30 days after irradiation. We conclude that lipid A had substantial radioprotectant activity by itself, and the activity was enhanced by incorporation into liposomes. Liposomes alone also exhibited mild radioprotectant effects.