Rapid redistribution of clathrin onto macrophage plasma membranes in response to Fc receptor-ligand interaction during frustrated phagocytosis

We have observed increases in assembled clathrin on the plasma membrane during "frustrated phagocytosis," the spreading of macrophages on immobilized immune complexes. Resident macrophages freshly harvested from the peritoneal cavity of mice and attached to bovine serum albumin (BSA)-anti-BSA-coated surfaces at 4 degrees C had almost no clathrin basketworks on their adherent plasma membrane (less than 0.01 coated patch/micron 2), as observed by immunofluorescence, immunoperoxidase, and platinum-carbon replica techniques, although abundant assembled clathrin was observed in the perinuclear Golgi region. When the cells were warmed to 37 degrees C they started to spread by 4 min and reached their maximum extent by 20 min. Spreading preceded clathrin assembly at the plasma membrane. Clathrin-coated patches were first observed on the adherent plasma membrane at 6 min. Between 12 and 20 min assembled clathrin coats appeared on both adherent and nonadherent plasma membranes with a concomitant decrease in identifiable clathrin in the perinuclear region. A new steady state emerged by 2 h, as perinuclear clathrin began to reappear. At 20 min at 37 degrees C the adherent plasma membranes of macrophages spreading on BSA alone had 0.9 coated patch/micron 2, whereas in cells spread on immune complex-coated surfaces, the clathrin patches increased, dependent on ligand concentration, to a maximum of 2.1 coated patches/micron 2. Because frustrated phagocytosis of immune complex-coated surfaces at 37 degrees C increased the area of adherent plasma membrane, the total area coated by clathrin basket-works increased 5-fold (28 micron 2/cell) as compared with cells plated on BSA alone (5.6 micron 2/cell) and 200-fold as compared with cells adhering to immune complexes at 4 degrees C. We then determined that macrophages cultured on BSA-coated coverslips for 24 h already have abundant surface clathrin. When immune complexes were formed by the addition of anti-BSA IgG to already spread macrophages cultured on BSA-coated coverslips for 24 h, clathrin assembled at the sites of ligand-receptor interaction even at 4 degrees C, before spreading, and a 2.6-fold increase in assembled clathrin was observed on the adherent plasma membrane of cells on immune complexes as compared with cells on BSA alone. Clathrin was reversibly redistributed to the Golgi region, returning to the steady state by 2 h.(ABSTRACT TRUNCATED AT 400 WORDS)     

Surfactant protein A regulates IgG-mediated phagocytosis in inflammatory neutrophils

Surfactant proteins (SP)-A and SP-D have been shown to affect the functions of a variety of innate immune cells and to interact with various immune proteins such as complement and immunoglobulins. The goal of the current study is to test the hypothesis that SP-A regulates IgG-mediated phagocytosis by neutrophils, which are major effector cells of the innate immune response that remove invading pathogens by phagocytosis and by extracellular killing mediated by reactive oxygen and nitrogen. We have previously shown that SP-A stimulates chemotaxis by inflammatory, but not peripheral, neutrophils. To evaluate the ability of SP-A to modulate IgG-mediated phagocytosis, polystyrene beads were coated with BSA and treated with anti-BSA IgG. SP-A significantly and specifically enhanced IgG-mediated phagocytosis by inflammatory neutrophils, but it had no effect on beads not treated with IgG. SP-A bound to IgG-coated beads and enhanced their uptake via direct interactions with the beads as well as direct interactions with the neutrophils. SP-A did not affect reactive oxygen production or binding of IgG to neutrophils and had modest effects on polymerization of actin. These data suggest that SP-A plays an important role in mediating the phagocytic response of neutrophils to IgG-opsonized particles.     

The Glucose Concentration Modulates N-Formyl-Methionyl-Leucyl-Phenylalanine (fMet-Leu-Phe)-Stimulated Chemokinesis in Normal Human Neutrophils

The effects of glucose concentration on the chemokinetic effects of the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine (fMet-Leu-Phe) was evaluated for normal human neutrophils using a direct microscopic assay. fMet-Leu-Phe increased the rate of locomotion in the absence of glucose, but the chemokinetic effect of fMet-Leu-Phe was most potent at 5mM glucose and not further changed at 15 mM glucose. The chemokinetic effects of fMet-Leu-Phe and glucose were essentially the same in blood clot-isolated and gradient-isolated neutrophils. However, in gradient-isolated neutrophils, the rate of locomotion under different experimental conditions was strictly negatively correlated to the fraction of non-locomoting cells and the degree of adhesion to the substratum. These results indicate that the chemokinetic effects of fMet-Leu-Phe are regulated by the glucose concentration by inducing locomotor activity in otherwise non-locomoting cells and by improving adhesion to the substratum.     

The requirement for the Fc portion of antibody in antigen-antibody complex-mediated suppression

The role of the Fc portion of antibody in immune complex-induced suppression was studied in vivo and in vitro. BSA pheasant anti-BSA complexes, formed in antigen excess (Ag1Ab1), were found to suppress both responses to BSA and SRBC. When complexes were formed with F(ab')2 fragments of pheasant anti-BSA, no suppression was observed, indicating that the Fc piece was indeed essential for the induction of Ag-Ab complex-mediated suppression.     

Time-dependent inhibition of immune complex-induced lung injury by catalase: relationship to alterations in macrophage and neutrophil matrix metalloproteinase elaboration

Rats were subjected to acute lung injury by the intra-alveolar formation of IgG immune complexes of bovine serum albumin (BSA) and anti-BSA. In this model of injury, complement activation occurs and large numbers of neutrophils invade the interstitium and alveolar space. In the present study, animals were treated with intratracheal catalase concomitantly with anti-BSA or after a lag period of 5-120 min. Catalase treatment at time-zero or at 5 min post injury failed to prevent lung injury as indicated by permeability change, histological features, and neutrophil influx. However, treatment after a delay of 15-30 min (but not 120 min) afforded substantial protection. Consistent with past findings [19], lung injury was accompanied by an accumulation of matrix metalloproteinase 9 (MMP-9) in bronchoalveolar lavage (BAL) fluid. There was a strong correlation between inhibition of injury and reduction in MMP-9 levels. In vitro studies conducted in parallel revealed that unstimulated alveolar macrophages did not produce measurable MMP-9, while there was a large induction following exposure to the same immune complexes that initiated injury in vivo. MMP-2 was also slightly upregulated under the same conditions. Concomitant treatment with catalase greatly inhibited MMP-9 production by macrophages in response to immune complexes, but this treatment had little effect on basal production of either MMP-9 or MMP-2 by macrophage. The same concentration of catalase that suppressed MMP-9 elaboration also inhibited the production of tumor necrosis factor alpha. In contrast, when neutrophils were treated with catalase and then exposed to immune complexes, the antioxidant failed to prevent the release of either MMP-2 or MMP-9. Taken together, these findings demonstrate that antioxidant treatment interferes with elaboration of MMPs by alveolar macrophages. Protection against lung injury is correlated with reduction in MMP levels in the BAL fluid.     

Idiotype regulation of the anti-bovine serum albumin response. I. Generation of an idiotype-specific Lyt-1-2+ suppressor T cell

A monoclonal antibody (3C-7) specific for a determinant localized on the carboxy-terminus of the BSA molecule (P505-582) has been shown to cause suppression of the multispecific BSA antibody response if given i.v. before immunization. The fine binding specificity and the isotype subclass are not responsible for the suppression generated. Administration of 3C-7 i.v. results in the generation of a suppressor T cell that, when transferred into reconstituted irradiated mice, results in a diminished anti-BSA response. Suppression can be eliminated by panning T cells on idiotype (3C-7) coated plates, but not by panning on BSA, polyclonal anti-BSA antibodies, or MOPC 21. The action of the cell is antigen (BSA) specific. Idiotype-binding T cells reconstitute suppression and appear to be Lyt-1-2+. These observations demonstrate that a limited set of monoclonal antibodies directed against a single determinant on a protein molecule have the capacity to regulate the immune response to a multiplicity of determinants present on the same protein. These data support the concept of antibody-induced regulation by the induction of suppressor cells through idiotype recognition.     

Locomotion and adhesion of neutrophil granulocytes : Effects of albumin, fibrinogen and gamma globulins studied by reflection contrast microscopy

Proteins as well as materials of low molecular weight have marked effects on the rate of locomotion, adhesion and cell shape of human neutrophil granulocytes in vitro. Plasma protein preparations differ qualitatively with respect to their chemokinetic activity. Human serum albumin (HSA), fibrinogen and acid-treated gamma globulin without polymers have a positive chemokinetic effect on neutrophils suspended in Gey's solution. Standard gamma globulin (SGG) or acid-treated gamma globulin with polymers have marked negative chemokinetic activity. Three different mechanisms are presumably responsible for the low rate of locomotion observed in Gey's solution alone, Gey's solution containing acid-treated gamma globulin with polymers or SGG, respectively: (a) too firm adhesion to the substratum; (b) lack of adhesion to the substratum; and (c) impaired capacity to perform shape changes. The relationship between attachment of cells to the substratum and the rate of neutrophil locomotion has been investigated. It appears that the pattern of adhesion rather than cell attachment as measured by the proportion of neutrophils adhering to the substratum is a meaningful correlate to locomotion. Two different patterns of adhesion can be distinguished by means of reflection-contrast microscopy: (a) the pattern characterized by uniform grey areas is compatible with efficient locomotion; (b) a pattern characterized by large black areas at the cell periphery. It is associated with neutrophils in Gey's solution which fail to displace themselves efficiently. This suggests that reflection-contrast microscopy may be helpful in distinguishing contacts allowing locomotion to occur from contacts impeding neutrophil locomotion.     

A histochemical study about the involvement of rat liver cells in the uptake of heterologous immune comples from the circulation

Summary Intravenously injected immune complexes (ICx) composed of bovine serum albumin (BSA) and rabbit anti-BSA were taken up by the liver. Insoluble complexes, made in antibody excess, were rapidly taken up by Kupffer cells and were metabolized within 24 h. Soluble complexes, made in antigen excess, were only partly taken up by Kupffer cells. In addition these complexes were found, taken up and metabolized by endothelial cells. Until 2 h after injection soluble complexes could also be observed along the microvilli of hepatocytes. No signs of endocytosis in hepatocytes could be observed. It is concluded, that ICx can be taken up by Kupffer cells as well as by endothelial cells. The physical state of the complexes, soluble or insoluble, determines the cell type in which uptake occurs. To Prof. Dr. H.G. Goslar on the occasion of his 65th birthday     

A histochemical study about the involvement of rat liver cells in the uptake of heterologous immune complexes from the circulation

Intravenously injected immune complexes (ICx) composed of bovine serum albumin (BSA) and rabbit anti-BSA were taken up by the liver. Insoluble complexes, made in antibody excess, were rapidly taken up by Kupffer cells and were metabolized within 24 h. Soluble complexes, made in antigen excess, were only partly taken up by Kupffer cells. In addition these complexes were bound, taken up and metabolized by endothelial cells. Until 2 h after injection soluble complexes could also be observed along the microvilli of hepatocytes. No signs of endocytosis in hepatocytes could be observed. It is concluded, that ICx can be taken up by Kupffer cells as well as by endothelial cells. The physical state of the complexes, soluble or insoluble, determines the cell type in which uptake occurs.     

Antibodies directed against the thiomannose moiety of a glycoconjugate of 2-imino-2-methoxyethyl 1-thio-alpha-D-mannopyranoside and bovine serum albumin

Anti-thiomannose antibodies were induced in rabbits immunized with a glycoconjugate of 2-imino-2-methoxyethyl 1-thio--d-mannopyranoside (Man-S) and bovine serum albumin (BSA). Also anti-BSA antibodies directed against the BSA moiety of the glycoconjugate were detected in low concentrations in the immune serum. However, antibodies against the combinatorial epitope of the hapten group and the carrier protein were not detected. The anti-thiomannose and the anti-BSA antibodies were isolated in pure forms by affinity chromatography on Sepharose 4B-bearing thiomannosyl-BSA ligands or BSA ligands. The anti-thiomannose antibodies constituted the major fraction of the antibodies, and these antibodies were isolated in pure form for the first time. The specificity of the thiomannose antibodies was established from data of experiments of periodate oxidation, perpropionic acid oxidation, hapten inhibition, and agar diffusion. Isoelectrofocusing showed that the anti-thiomannose antibody preparation consisted of at least six isomeric proteins, all of which exhibited antibody activity against the glycoconjugate of thiomannose and BSA.     

Endotoxins of enteric pathogens are chemotactic factors for human neutrophils

Early activation of human peripheral blood polymorphonuclear neutrophils is characterized by their morphological changes from spherical to polarized shapes. The endotoxins from enteric pathogens (S. dysenteriae type 1, V. cholerae Inaba 569B, S. typhimurium, and K. pneumoniae) were assessed by their ability to induce morphological polarization of the neutrophils as measures of early activation. Phagocytic activity, adhesion, chemokinetic locomotion, and nitroblue tetrazolium (NBT) dye-reduction ability measured the later activation of the cells. Neutrophils showed distinct morphological polarization in suspension over a wide range of concentrations of these endotoxins when were compared with those that were induced by the standard chemotactic factor, N-formyl-L-methionyl-L-leucyl-L-phenylalanine (FMLP). It was discovered that all of the endotoxins induced locomotor responses in neutrophils in suspension that were dose- and time-dependent. The optimum concentration for the endotoxins of S. dysenteriae, V. cholerae, and K. pneumoniae was 1 mg/ml in which 71, 69, and 66% of the neutrophils were polarized. However, the S. typhimurium dose was 2 mg/ml in which 50% of the cells responded. Neutrophils that were stimulated with endotoxins also showed increased random locomotion (p<0.005) through cellulose nitrate filters, but an enhanced adhesion of the cells to glass surfaces (p<0.03). These are important functions of these cells to reach and phagocytose damaged cells, as well as invading microorganisms. Interestingly, the endotoxins had a highly-significant inhibitory effect upon the proportions of neutrophils phagocytosing opsonized yeast (p<0.01) with a small number of yeast that were engulfed by the cells (p<0.02). Further, endotoxin-treated cells showed an enhanced ability to reduce NBT dye (p<0.03). Therefore, we concluded that endotoxins of enteric pathogens are neutrophil chemotactic factors.     

Neonatal splenic suppressor cells in the chicken. I. In vivo suppression of the immune response to bovine serum albumin by normal and tolerized neonatal spleen cells

The presence of active splenic suppressor cells in neonatal chickens, either normal or tolerant to bovine serum albumin (BSA), was examined by assessment of their effect on both primary and adoptively transferred secondary responses to BSA or sheep red blood cells (SRC). Both normal and BSA tolerized spleen cells were shown to be highly suppressive of secondary anti-BSA responses generated by specifically primed adult spleen cells in inert recipients. Suppression of the secondary anti-BSA response by normal spleen cells was slightly less effective than that seen with BSA tolerant spleen cells. Transfer of BSA tolerant spleen cells into normal recipients, followed by BSA challenge, prevented any significant primary anti-BSA response. In contrast, transfer of normal spleen cells into normal recipients, followed by BSA challenge, failed to show any suppression of the resulting primary response. Neither normal nor BSA tolerant neonatal spleen cells were capable of suppressing either primary or secondary responses to SRC. Thus, chickens tolerized to BSA have suppressor cells specific for the tolerizing antigen. We present evidence that both the tolerance associated suppressors and the suppressors detected in normal neonatal chickens are T cells.     

Roles of beta 2 integrins of rat neutrophils in complement- and oxygen radical-mediated acute inflammatory injury.

The roles of beta 2 integrin molecules in neutrophil accumulation and tissue injury have been examined by the use of antibodies that are reactive with human CD11b and CD18 and cross-react with the homologous epitopes on rat neutrophils. Adherence to rat pulmonary artery endothelial cells by human neutrophils and endothelial cell killing by phorbol ester-activated human neutrophils required CD11b, CD11c, and CD18. Companion adherence studies between rat neutrophils and endothelial cells revealed a requirement for both CD11b and CD18. Neither anti-CD11b nor anti-CD18 depressed in vitro responses (O2- generation and chemotactic migration) of rat neutrophils. The accumulation of neutrophils in glycogen-induced peritoneal exudates was diminished substantially in rats treated with either anti-CD18 or anti-CD11b. In oxidant-mediated acute lung injury induced by rapid intravascular infusion of cobra venom factor, treatment of rats with either anti-CD18 or anti-CD11b significantly attenuated injury as assessed by increases in vascular permeability and hemorrhage. These protective effects correlated morphologically with diminished adhesion of neutrophils to interstitial intrapulmonary capillary endothelial cells. In studies of immune complex (BSA-anti-BSA)-induced alveolitis and dermal vasculitis, anti-CD18 had protective effects at all doses of anti-BSA employed. The protective effects of anti-CD18 correlated with diminished neutrophil accumulation in tissues at lower doses of anti-BSA. Although anti-CD11b was not effective under the same experimental conditions, intratracheal administration of this antibody conveyed protection against immune complex-induced lung injury, suggesting that both CD11b and CD18 are required for the full expression of injury. The current studies also demonstrated that when surface-bound IgG immune complexes were treated with fresh rat serum, the increment in O2- and TNF alpha generated by alveolar macrophages was suppressed by anti-CD18, but not by anti-CD11b, suggesting a heretofore unrecognized role for CD18 in the O2- and TNF-alpha responses of alveolar macrophages. Thus, neutrophil beta 2 integrins play a requisite role for the full expression of complement-dependent and oxygen radical-mediated injury of the lung and dermal vasculature.     

Further studies on cold insoluble circulating immune complexes in rabbits immunized with bovine albumin.

Cold insoluble circulating immune complexes of BSA and anti-BSA antibody are formed in vivo while immune catabolism of antigen is occurring. The effects of temperature, rate of precipitation and redissolvability of the cold insoluble antigen were studied in this model. Circulating BSA is soluble at 37 degrees, but may precipitate when the temperature is reduced. The solubility of antigen decreases at 24 degrees and below. Complete precipitation occurs in 5-7 days. The antigen in the cryoprecipitate is difficult to redissolve unless low pH citrate or glycine buffers are used.     

An evaluation of elution techniques in the study of immune complex glomerulonephritis.

Antigen and antibody from glomerular immune complex deposits in rabbits with experimental bovine serum albumin-(BSA) induced chronic serum sickness (CSS) were quantitated in elutes from kidneys in which a portion of the antigen and antibody had been radiolabeled. The largest quantities of 125I BSA eluted with 1 M roprionic acid at pH 2.7 (86%) and 0.1 M borate buffer at pH 11.25 (80%). However, these buffers yielded less functional anti-BSA antibody than 0.02 M citrate buffer at pH 3.2 (344 mug/g kidney). Citrate buffer-eluted anti-BSA antibody was reactive in immunodiffusion, immunofluorescence, and radiolabeled BSA binding test systems, but complement fixation was impaired relative to chaotropic ion-eluted antibody. It was found that up to 75% of the eluted antibody was lost to further study by recombination with eluted BSA. This could be prevented by fractionation of the dissociated eluate before neutralization. IgG fractionated eluates were successfully fluorescein conjugated or radiolabeled for use as reagents. Elution of cryostat sections of CSS kidney was also studied; BSA, IgG, and complement (C3) eluted in parallel, and sub-microgram quantities of anti-BSA antibody were recovered.     

Locomotion and adhesion of polymorphonuclear leukocytes. Effects of the supporting substratum

Contact angle measurements have been used to correlate surface hydrophobicity of a supporting substratum with adhesion and locomotion of polymorphonuclear leukocytes. The binding of human serum albumin, a well-known chemokinetic substance, to hydrophilic glass slides gave rise to hydrophobic surfaces with adhesive properties conductive to cell polarization, thus allowing cell locomotion. Parallel contact angle and cell adhesion measurements suggested that albumin modified the cell-substratum interaction by increasing the van der Waals forces of attraction and reducing the electrostatic forces. By allowing cells to adhere to a hydrophobic surface (siliconized glass), it was found that protein could be omitted from in vitro test systems for leukocyte locomotion. It is suggested that quantitatively equal cell adhesion values may, depending on the type of attraction forces working in adhesion to the substratum, result in different locomotion patterns.     

Locomotion and adhesion of polymorphonuclear leukocytes effects of the supporting substratum

Contact angle measurements have been used to correlate surface hydrophobicity of a supporting substratum with adhesion and locomotion of polymorphonuclear leukocytes. The binding of human serum albumin, a well-known chemokinetic substance, to hydrophilic glass slides gave rise to hydrophobic surfaces with adhesive properties conducive, to cell polarization thus allowing cell locomotion. Parallel contact angle and cell adhesion measurements suggested that albumin modified the cellsubstratum interaction by increasing the van der Waals forces of attraction and reducing the electrostatic forces. By allowing cells to adhere to a hydrophobic surface (siliconized glass), it was found that protein could be omitted from in vitro test systems for leukocyte locomotion. It is suggested that quantitatively equal cell adhesion values may, depending on the type of attraction forces working in adhesion to the substratum, result in different locomotion patterns.     

Signal transduction events and Fc gamma R engagement in human neutrophils stimulated with immune complexes.

Signal transduction events have been evaluated in human neutrophils stimulated with immune complexes consisting of polyclonal rabbit antibody complexed with BSA. Immune complexes induced dose-related O2- responses, but very small increases in intracellular calcium ([Ca2+]i) levels were observed, in contrast to FMLP-stimulated cells. Measurements employing [45Ca2+] demonstrated that calcium influx and efflux in cells stimulated with immune complexes was substantially less than fluxes found in FMLP-stimulated cells. With respect to inositol 1,4,5-trisphosphate (Ins(1,4,5)P3) formation under conditions in which the O2- responses to immune complexes or FMLP were similar, the Ins(1,4,5)P3 response to immune complexes was much smaller (by 65%) as compared to that induced by FMLP. Although pertussis toxin-treated cells showed a greatly diminished O2- response (by 89%) to FMLP, the response to immune complexes was largely resistant (only 26% reduction) to the inhibitory effects of this toxin. Antibodies to Fc gamma R indicated that engagement of Fc gamma RII and Fc gamma RIII, but not Fc gamma RI, receptors was related to the O2- response of neutrophils to immune complexes. O2- formation occurred in neutrophils incubated with Staphylococcus aureus cell walls bearing antibodies to Fc gamma RII or Fc gamma RIII. These data indicate that, in human neutrophils stimulated with immune complexes, signal transduction events involve engagement of Fc gamma RII and Fc gamma RIII. The O2- response is largely pertussis-toxin insensitive, is not associated with a significant increase in levels of [Ca2+]i, and is associated with relatively little formation of Ins(1,4,5)P3. This is in contrast to cells stimulated with FMLP in which O2- responses are largely pertussis toxin-sensitive and associated with large increases in [Ca2+]i as well as formation of Ins(1,4,5)P3. Signal transduction events involving Fc gamma R appear to be quite different from those events related to engagement of FMLP receptors.     

用共价偶联方法研制压电晶体免疫传感器

以牛血清蛋白（ｂｏｖｉｎｅ　ｓｅｒｕｍ　ａｌｂｕｍｉｎ,ＢＳＡ）及其抗体为检测对象,用常用的硅烷化合物ＡＰＴＥＳ固定蛋白研制石英晶体免疫传感器。测定了ＢＳＡ在石英晶体上的固定饱和曲线及甘氨酸（Ｇｌｙ）对戊二醛的封闭效应。特异性结合的ＢＳＡ可以用０．２ｍｏｌ／Ｌ柠檬酸洗脱,抗ＢＳＡ抗体膜可以重复使用,但其活性下降。     

Cationization of protein antigens. VI. Effects of cationization on the immunoregulatory properties of a bovine serum albumin peptide, a.a. 506-589.

Cationization of bovine serum albumin (BSA) causes a profound increase in its immunogenicity. To establish if immunoregulatory properties of an immunosuppressive peptide are affected by cationization, a BSA peptide, a.a. 506-583, was cationized and tested for its immunogenic properties. A greatly reduced amount of cationized peptide compared to native peptide was required to stimulate BSA-primed T cells to proliferate in vitro. Mice primed with the cationized peptide administered with an adjuvant responded with a significantly greater anti-BSA response than mice immunized with the native form of the peptide. In the absence of an adjuvant i.v. or i.p. administration of the native peptide was immunosuppressive, while the cationized form was immunoenhancing. Both forms of the peptide stimulated in vivo induction of L3T4+ (CD4), and Lyt-2+ (CD8) T cells. Removal of Lyt-2+ T cells from lymph node cultures following immunization with the native peptide caused a significant increase in the proliferation of the remaining T cells. This increase was not observed when the mice were immunized with the cationized peptide. No major BSA B cell determinants were present within the peptide sequence. Mice immunized with the peptide exhibited a negligible anti-BSA antibody response compared to those immunized with the whole BSA molecule. Furthermore, the peptide did not inhibit anti-BSA antibody binding to BSA. We demonstrated that cationization modifies immunoregulatory properties of an immunosuppressive BSA-derived peptide.