Characterization of suppressive immunoglobulin-binding factor (IBF). III. Biochemical and immunochemical characteristics of IBF produced by activated T cells.

The biochemical characteristics of immunoglobulin binding factor produced by activated cells (ATC) were investigated. For this purpose, supernatants of ATC were purified by affinity chromatography on insolubilized IgG and the eluted material was iodinated (125I), treated with mercaptoethanol; and run on SDS polyacrylamide gels. The radioactivity was found in two peaks corresponding to m.w. of 38,000 d and 18,000 d. This result extends and confirms our previous findings that IBF produced by ATC is identical to IBF produced by L-5178-Y internally labeled thymoma cells. The effect of various pH, temperatures, and proteolytic and glycolytic enzymes on the binding properties of 3H-leucine-or H-fucose-labeled IBF to IgG and on the polyacrylamide gel profiles was also studied. By all these criteria, IBF appeared to be a glycoprotein in which the presence of the 38,000 to 40,000 d chain is necessary for the binding to IgG. In the attempt to study the relationships between IBF and I-region products, purified IBF produced by ATC was incubated with anti-Ia immunoadsorbent, and the eluted material was iodinated and run on gels. The 38,000 d and 18,000 d chains characteristic of IBF were found to be specifically retained on the relevant immunoadsorbent. These data favor the hypothesis that IBF bears or is associated with Ia determinants.     

Inhibition of the in vitro 19S and 7S antibody response by immunoglobulin-binding factor (IBF) from alloantigen-activated T cells

A soluble factor secreted by alloantigen-activated mouse T cells which binds to the Fc fragment of IgG and inhibits complement activation by IgG (immunoglobulin-binding factor, IBF) suppressed the in vitro 19S and 7S antibody response by mouse spleen cells to T-dependent as well as T-independent antigens. IBF inhibited the 19S plaque response best when it was added late during PFC generation (between 48 and 72 hr). On the other hand, when it was left in cultures for up to 60 hr and then removed, antibody synthesis was not inhibited. However, its presence for only 2 hr starting after 72 hr of incubation was sufficient to inhibit PFC formation. The suppressive activity of IFB could be neutralized by adding aggregated mouse IgG prior to the critical stage around 72 hr. These data favour the view that IBF could be a suppressive T cell factor and point to the possibility that IBF may act on already triggered B cells during their final differentiation to active PFC.     

Properties of an immunoglobulin binding factor from human seminal plasma.

A soluble factor (IBF) in human seminal plasma that binds serum immunoglobulins (Ig) of various species was purified to homogeneity by ammonium sulfate precipitation, preparative isoelectrofocusing, and gel filtration chromatography. The purified IBF interacted weakly with Fc and F(ab')2 fragments and not with Fab. It interacted with anti-Leu 11b and polyclonal anti-Fc gamma RIII antibodies, but not with other anti-Fc gamma R antibodies (32.2, IV.3 and 3G8). IBF is probably a non-glycosylated protein with isoelectric point ranging from 5.1 to 5.8. The estimated Mr of the purified native IBF is 27 kD, determined by sodium dodecyl sulfate polyacrylamide electrophoresis (SDS-PAGE) under non-reducing condition. In its native form, IBF did not bind Ig or interact with anti-Fc gamma R antibodies. Following SDS-PAGE under reducing condition, IBF migrated as a single protein with an estimated Mr of 16 kD and interacted with Ig of various species and with anti-Leu 11b antibodies. When carboxymethylated, however, IBF did not bind IgG. The present results suggest that free sulfhydryl groups of IBF is required for Ig binding.     

Characterization of suppressive immunoglobulin-binding factor (IBF). I. Production of IBF by a theta-positive lymphoma (L-5178-Y).

L-5178-Y, a theta-positive, Fc receptor-bearing mouse thymoma cell line spontaneously releases immunoglobulin-binding factor (IBF) upon short-term incubation in vitro. IBF produced by L-5178-Y cells is identical in its biologic activity with IBF produced by Fc receptor positive alloantigen-activated T cells. It suppresses the in vitro plaque response of mouse spleen cells to sheep erythrocytes by interfering mainly with the late phase of the generation of antibody-forming cells. Therefore, L-5178-Y thymoma affords a homogeneous source of IBF in sufficient quantities for the study of its biochemical nature and the mechanism by which it interferes with cells participating in antibody synthesis.     

Characterization of suppressive immunoglobulin-binding factor (IBF). II. Purification and molecular weight determination of IBF produced by L-5178-Y theta-positive lymphoma.

L-5178-Y thymoma cells were used to produce radioactive immunoglobulin-binding factor (IBF). For this purpose, the cells were internally labeled by incubation with radioactive amino acids and/or fucose. The supernatants contained radioactive material that bound to IgG-sensitized erythrocytes and suppressed the in vitro antibody response to sheep red blood cells. Upon filtration on Sephadex G-200 both the IgG-binding activity and the suppressive activity eluted at peaks of 140,000 and above 300,000 d. However, on SDS polyacrylamide gels, after precipitation with antigen-IgG-antibody complexes. IBF was found in a single peak of 80,000 d. This molecule could be dissociated in the presence of mercaptoethanol into a major unit of 40,000 d and a minor unit of 20,000 d. These data suggest that IBF is a molecule of 80,000 d, which contains chains of 40,000 d and probably 20,00 d linked by disulfide bridges. In cell supernatants, however, the factor exists in polymeric forms of 140,000 d and more than 300,000 d.     

Isotype-specific immunoregulation; characterization and function of Fc receptors on T-T hybridomas which produce murine IgA-binding factor

Several methods have been used in the present study to characterize Fc receptors (FcR) expressed on T-T hybridomas derived from mouse Peyer's patch T helper (Th) cell clones that preferentially support IgA responses. These T hybridomas (designated Th HA cells) produce IgA-binding factor (IBF alpha) which regulates antigen-dependent IgA responses. The ultrastructure of Th HA cells and the distribution of Fc alpha R on these cell lines were determined by colloidal gold (CG) immunoelectron microscopy (IEM). When Th HA cells were incubated with purified mouse IgA followed by CG-labeled anti-IgA, an even pattern of CG was distributed on the cell membrane. To ensure that binding occurred through Fc alpha R, Th HA cells were mixed with MOPC 315 IgA anti-DNP, followed by staining with CG-labeled TNP-human serum albumin. This resulted in an identical pattern of gold particle distribution, confirming expression of Fc alpha R on Th HA cells. No Fc mu R or Fc gamma 1R were detectable on Th HA cells by IEM. Immunocytoadherence with TNP-conjugated erythrocytes confirmed that Th HA cells were Fc alpha R+; however, no IgM or IgG rosettes were seen. When these cell lines were analyzed by flow cytometry (FACS) using IgA, IgM, or IgG1 and FITC-labeled anti-H chain-specific antibodies, 55 to 65% of cultured Th HA cells expressed Fc alpha R, and 11 to 18% expressed Fc mu R; however, no Fc gamma 1R was detectable on Th HA cells. The use of ELISA with Th HA cells as antigen confirmed the expression of Fc alpha R and the presence of less Fc mu R on these two cell lines. Solubilized membrane fractions derived from Th HA cells were tested for the presence of FcR by ELISA and for biologic function for support of IgA responses in Peyer's patch B cell cultures. Both Fc alpha R and Fc mu R were detected in fractions derived from Th HA cells. Furthermore, these fractions supported in vitro IgA anti-sheep erythrocyte responses, comparable to those obtained with Th HA cell culture supernatants containing IBF alpha. These studies show that Th HA cells express Fc alpha R with less Fc mu R, and the solubilized form of Fc alpha R exhibits IBF alpha-like activity. The significance of FcR expression by Th cell clones and cell lines and the relationship of soluble Fc alpha R and IBF alpha for IgA response regulation are discussed.     

Cryopreservation of human monocytes

Monocytes were isolated from human peripheral blood by Ficoll-Isopaque density-gradient centrifugation and adherence to glass. These cells were then frozen according to an automatically controlled cooling program and stored in liquid nitrogen.After the freezing, thawing and washing, 63% of the cells present before cryopreservation were recovered. Over 95% of the recovered cells excluded trypan blue. Storage at ?196 °C did not alter the percentage of monocytes (70–80%) in the supensions.Although the percentage of cells that formed rosettes with erythrocytes sensitized with IgG antibodies (EAIgG) was unaltered after freezing, formation of EA rosettes was more readily inhibited by free IgG. The capacity of monocytes to lyse EAIgG was not influenced by cryopreservation, in contrast with their potency to phagocytize zymosan particles, which was decreased. The chemotactic response toward casein was also diminished after freezing. There was no significant difference in reactivity between monocytes frozen for a short time (2–15 hr) and those frozen for a longer period (more than 3 months).Electron microscopic examination showed alterations in the mitochondrial structure of the frozen cells.     

Physicochemical characterization of poly(ethylene glycol)-modified anti-GAD antibodies.

Monoclonal antibodies against glutamic acid decarboxylase (anti-GAD) were modified with poly(ethylene glycol) (PEG), and the resulting conjugates were characterized. Monoclonal anti-GAD antibodies were purified from ATCC HB184 hybridoma cells by either cell culture supernatant or ascites fluid from BALB/c mice. Polyclonal rabbit IgG antibodies were also used as a model protein. Polyclonal rabbit IgG or purified anti-GAD was modified by PEG (MW = 5000 or 20000 Da) through either the lysine residues or through the carbohydrate moiety. Lysine modification was performed in PBS (pH 7.4) or 0.1 M borate (pH 9.2) by adding a molar excess (5-80) of a succinimidyl activated propionic acid terminated mPEG (SPA-PEG) while stirring at room temperature. Carbohydrate modifications were performed in PBS (pH 6.2) by first oxidizing the antibody with sodium periodate followed by incubation with hydrazide-terminated PEG followed by reduction with sodium cyanoborohydride. The degree of modification was assessed by 1H NMR or TNBS (trinitrobenzenesulfonic acid). Circular dichroism (CD) spectra were obtained for lysine-modified rabbit IgG at various degrees of modification ranging from 5 to 60 PEG per antibody. Binding was assessed using an ELISA method with GAD or rabbit anti-mouse-IgG (H+L) coated plates. The TNBS and 1H NMR analysis of the modified antibody showed reasonably similar results from 5 to 60 PEG per antibody. The 1H NMR method showed greater sensitivity at low modifications (below 20:1) and was fairly linear up to about 60 PEG per antibody. The CD spectra of the polyclonal rabbit IgG showed only small differences at variously modified antibody. The binding affinity of anti-GAD is lower for all PEG modifications with respect to unmodified anti-GAD. Modifications at pH 7.4 show lower binding to GAD than modifications at pH 9.2. Binding to GAD or anti-mouse-IgG is decreased as the degree of modification is increased. Lysine modifications showed lower binding to GAD or anti-mouse-IgG than carbohydrate modifications. Binding to GAD or anti-mouse-IgG is lower for PEG20000-modified anti-GAD with respect to PEG5000-modified anti-GAD.     

IgG-binding proteins of bacteria

Proteins capable of non-immune binding of immunoglobulins G (IgG) of various mammalian species, i.e. without the involvement of the antigen-binding sites of the immunoglobulins, are widespread in bacteria. These proteins are located on the surface of bacterial cells and help them to evade the host’s immune response due to protection against the action of complement and to decrease in phagocytosis. This review summarizes data on the structure of immunoglobulin-binding proteins (IBP) and their complexes with IgG. Common and distinctive structural features of IBPs of gram-positive bacteria (staphylococci, streptococci, peptostreptococci) are discussed. Conditions for IBP expression by bacteria and their functional heterogeneity are considered. Data on IBPs of gram-negative bacteria are presented.     

Appearance of IgG (Fc) receptor(s) on cultured human fibroblasts infected with human cytomegalovirus.

Cultured human diploid fibroblasts (WI-38) after infection with human cytomegalovirus (CMV) but not when uninfected, could hemadsorb sheep red blood cells (SRBC) coated with rabbit anti-SRBC IgG. The adsorption of IgG-coated SRBC to virus-infected cells was completely abolished if the tests were carried out in the simultaneous presence of rabbit antiserum elicited against CMV. Normal sera of rabbit or human origin as well as purified human IgG but not Fab fragment of human IgG could also abolish the binding of sensitized SRBC to CMV-infected fibroblasts. Active metabolism on the part of CMV-infected fibroblasts proved to be an important requisite for demonstrating binding of sensitized SRBC to their surfaces. By using an indicator Staphylococcus aureus to which rabbit antiserum against normal human IgG, IgM, or IgA was bound via Fc fragments, evidence has been obtained which suggests the existence of receptor(s) on CMV-infected WI-38 cells that react specifically with Fc region of human IgG.     

Evidence for histidine residues in the immunoglobulin-binding site of human C1q

The immunoglobulin-binding activity of subcomponent Clq of human complement is lost following treatment with diethylpyrocarbonate; the inactivation showed first-order kinetics with respect to time and modifier concentration. Soluble IgG oligomers protected Clq against diethylpyrocarbonate modification. Treatment of modified Clq with hydroxylamine resulted in an 85% recovery of its ability to bind to aggregated immunoglobulin. The inactivation process was associated with modification of 12.1 +/- 0.7 histidine residues per Clq molecule. These data are consistent with the presence of histidine residues in the immunoglobulin-binding sites of Clq; these residues may participate in ionic interactions with the carboxyl groups known to be in the Clq binding site of IgG.     

Phagocytosis by rat peritoneal mast cells: independence of IgG Fc-mediated and C3-mediated signals

Phagocytosis of sheep erythrocytes (E) bearing rabbit immunoglobulin and rat C3 by rat peritoneal mast cells was quantitated by using 51Cr-labeled E and was confirmed by electron microscopy. The relative importance of IgG Fc receptor interaction in C3-mediated phagocytosis was assessed. Removal of any traces of IgG antibody by absorption of IgM antibody with protein A-Sepharose and absorption of the other reagents with sheep E had no effect on the phagocytosis of C3b- and C3bi-coated cells. IgG antibody enhanced the phagocytosis of intermediates prepared with IgM, purified components and rat C3 (EaIgMClgp4hu oxy2hu3brat) with a graded dose response, but was only additive and not synergistic with C3. The independence of the C3- and Fc-mediated signals was confirmed by using chemically produced polymers of rabbit IgG to inhibit phagocytosis. These polymers, especially tetramers and higher aggregates, completely blocked ingestion of EAIgG, but not that of EAIgMC1423b or -3bi. When IgG was substituted for IgM in the C3b intermediate, the IgG polymers inhibited about 50% of the phagocytosis. Cumulatively, the data demonstrated that in the case of rat mast cells, the stimuli to phagocytosis induced by C3 and IgG are independent; either is sufficient by itself.     

Phagocytosis by mouse peritoneal macrophages plated on monoclonal antibody-coated immune complex-substrates: effects of complexes of different IgG subclasses on Fc receptor functions

Macrophages plated on immune complex-coated substrates of different mouse IgG subclasses were examined for their capacities to phagocytose sheep red blood cells (SRBC) coated with monoclonal antibodies (MAb) of various IgG subclasses. IgG2a-and IgG2b-coated substrates abrogated macrophage phagocytosis of particles coated with any of the four mouse IgG subclasses. These results were confirmed by the use of two MAb of each of the IgG2a and IgG2b subclasses, with one of the MAb specific for dinitrophenyl groups and the others for SRBC. IgG3-coated substrates reduced the macrophage uptake of IgG2a-but not IgG2b-coated particles. Rabbit IgG-coated substrates ablated the uptake of SRBC coated with all mouse IgG subclasses. Resident and thioglycollate-elicited macrophages showed similar phagocytosis reduction when plated on these immune complexes. The phagocytosis of complement-coated particles was not affected by these IgG-coated substrates. Macrophages plated on both IgG2a-and IgG2b-coated substrates showed reduced immunofluorescence staining by an anti-IgG2b Fc receptor (FcR) Ab, 2.4G2 and reduced E(IgG2a) and E(IgG2b) binding. The results show that substrates coated with various IgG subclasses can abrogate phagocytosis mediated by FcR that do not have binding specificity for the substrate-immobilized Fc ligand, and suggest that the three classes of mouse FcR co-modulate.     

Fc receptors and immunoglobulin binding factors

Receptors for the Fc portion of Ig (Fc receptors, FcR) are found on all cell types of the immune system. Three types of FcR react with IgG: Fc gamma RI is a high-affinity receptor binding IgG monomers whereas Fc gamma RII and Fc gamma RIII are low-affinity receptors binding IgG immune complexes; the three types of Fc gamma R are members of the Ig superfamily. Two FcR react with IgE:Fc epsilon RI is a multichain receptor binding IgE with high affinity; it is composed of an IgE-binding alpha chain, homologous to Fc gamma RIII, and of gamma and beta chains that are necessary for receptor expression and signal transduction. The low-affinity Fc epsilon RII is the only FcR described so far that is not a member of the Ig superfamily but resembles animal lectins; it is composed of a transmembrane chain with an intracytoplasmic NH2 terminus. Fc alpha R has homology with Fc gamma R and is a member of the Ig superfamily. Receptors for IgM and IgD are not characterized yet. Finally, Ig transport is made by FcR-like molecules such as the poly-Ig receptor or an MHC-like receptor found on neonatal intestine. A remarkable property of most FcR is the fact that they are released in cell supernatants and circulate in biological fluids as immunoglobulin binding factors (IBF) generated either by cleavage at the cell membrane or by splicing of FcR transmembrane exon. Immunoglobulin binding factors may interfere with Ig-mediated functions and have direct immunoregulatory activities. Involvement of FcR or IBF has been postulated in several diseases, and monoclonal antibodies to FcR are beginning to be used in therapeutics, particularly to target cytotoxic effector lymphocytes and monocytes to tumor cells.     

Lactoferrin binding molecules in human seminal plasma

During ejaculation, the iron binding protein lactoferrin binds to sperm and forms a major component of sperm-coating antigens. Physicochemical properties of lactoferrin in seminal plasma (SP) and on sperm differ from those of purified lactoferrin. These differences have been attributed to the binding of unknown seminal macromolecules to lactoferrin. We have studied lactoferrin binding molecules in SP. The SP samples were coated onto microtiter plates and tested for binding of biotinylated lactoferrin. SP was found to specifically bind biotinylated lactoferrin. This binding was competitively inhibited by coincubation with unlabeled lactoferrin but was not affected by control incubations done with human IgG or transferrin. Lactoferrin binding molecules in SP were biochemically characterized by using SDS-PAGE and ligand blotting. Biotinylated lactoferrin bound to SP molecules of approximately 120, 60 and 30 kDa. No binding was observed with biotinylated transferrin. The presence of molecules that associate with lactoferrin in SP was further studied by using crossed immunoelectrophoresis. Lactoferrin in SP immunoprecipitated as two peaks, one of which corresponded to purified lactoferrin. These results suggest that some lactoferrin molecules in SP are free and that others are associated with lactoferrin binding molecules. Binding of lactoferrin to lactoferrin binding molecules appears to change its physicochemical properties and thus could influence its biologic activity and its affinity to sperm.     

Interaction of antibody-bearing small unilamellar liposomes with antigencoated cells. The effect of antibody and antigen concentration on the liposomal and cell surface respectively

Human blood lymphocytes were coated with increasing amounts of human kappa chain (2–85μg/10⁷ cells) through the linking reagent CrCl₃. These cells were then exposed to small unilamellar liposomes composed of egg phosphatidylcholine, cholesterol and phosphatidic acid (molar proportions 7:7:1) containing carboxyfluorescein and/or ¹¹¹In-labelled bleomycin and bearing ¹³¹I-labelled affinity chromatography-purified or non-purified anti-(kappa-chain) immunoglobulin G (IgG) [see the preceding paper, Gregoriadis, Meehan & Mah (1981) Biochem. J. 200, 203–210]. In some experiments liposomes contained [¹⁴C]phosphatidylcholine. (1) Lymphocytes (10⁷) coated with 2–85μg of kappa chain and exposed to liposomes devoid of IgG or bearing non-purified anti-(kappa chain) IgG bound only a small proportion of the liposomal markers. Even with liposomes bearing the purified anti-(kappa chain) IgG, uptake of the labels improved only slightly for cells coated with up to 10μg of kappa chain. However, with higher concentrations of the antigen on the cell surface, binding was improved considerably to reach values of 31% (¹¹¹In-labelled bleomycin) and 43% (¹³¹I-labelled IgG) of added liposomes for cells coated with 85μg of kappa chain. (2) Lymphocytes coated with kappa chain were exposed to liposomes bearing increasing amounts (0–180μg/0.9mg of egg phosphatidylcholine) of purified anti-(kappa chain) IgG. It was found that under the present conditions, binding of all three markers (¹¹¹In-labelled bleomycin, ¹³¹I-labelled IgG and [¹⁴C]phosphatidylcholine) was directly proportional to the concentration of IgG on the liposomal surface. However, uptake values remained unchanged above 90μg of IgG. (3) Antibody-mediated uptake of liposomes by cells coated with the corresponding antigen without loss of their metabolic activities may provide a method of efficient targeting.     

Interaction of peroxisomes with microtubules. In vitro studies using a novel peroxisome-microtubule binding assay.

The association of membrane-bounded cell organelles to microtubules is crucial for determination of their shape, intracellular localization and translocation. We have shown previously the high affinity binding of peroxisomes to microtubules which appears to be of static nature as in vivo studies indicate that only a few peroxisomes move along the microtubular tracks. In order to characterize the interactions of peroxisomes with microtubules, we have developed a semiquantitative in vitro binding assay, which is based on the association of highly purified rat liver peroxisomes to microtubules coated onto microtiterplates. The binding was visualized by differential interference contrast and immunofluorescence using a confocal laser scanning microscope. The binding was concentration dependent and saturable, being affected by time, temperature, and pH. Addition of ATP or the motor proteins kinesin and dynein increased the binding capacity, while ATP-depletion or microtubule associated proteins (MAPs) decreased it. KCl treatment of peroxisomes reduced the binding, which was restored by dialyzed KCl-stripping eluate as well as by rat liver cytosol. The reconstituting effect of cytosol was abolished by its pretreatment with proteases or N-ethylmaleimide. Moreover, the treatment of peroxisomes with proteases or N-ethylmaleimide reduced their binding, which was not reversed by cytosol. These results suggest the involvement of a peroxisomal membrane protein and cytosolic factor(s) in the binding of peroxisomes to microtubules. This notion is supported by the observation that distinct subfractions of dialyzed KCl-stripping eluate obtained by gel chromatography augmented the binding. Those subfractions, as well as purified peroxisome fractions, exhibited strong immunoreactivity with an antibody to cytoplasmic linker protein (CLIP)-115, revealing a 70-kDa polypeptide. Moreover, immunodepletion of KCl-stripping eluate and its subfractions with an antibody to the conserved microtubule binding domain of CLIPs, abolished their promoting effect on the binding, thus suggesting the involvement of a CLIP-related protein in the binding of peroxisomes to microtubules.     

Analysis of Bacterial Immunoglobulin-Binding Proteins by X-Ray Crystallography

Protein crystallography offers a powerful means of analyzing the molecular mechanisms that underlie the action of bacterial immunoglobulin-binding proteins. Successful approaches used to date involve the isolation of individual IgG-binding domains from the immunoglobulin-binding protein under study and the crystallization of these on their own or in complex with Fc or Fab fragments. Two structures of complexes that have been determined to high resolution by protein crystallography are compared. A single IgG-binding domain from protein A (from Staphylococcus) binds to a human Fc fragment through formation of two α-helices, which bind in the cleft between the CH2 and the CH3 domains. Recognition is mediated by side chains on protein A which interact with conserved side chains on the surface of the antibody, ensuring binding to IgG molecules from different subclasses and species. A similar analysis of the complex of a single IgG-binding domain from protein G (from Streptococcus) with an Fab fragment from mouse IgG1 reveals that the same problem in molecular recognition is tackled in a different way. Protein G binds via an antiparallel alignment of β-strands from the IgG-binding domain and the CH1 domain in Fab: this main chain-main chain interaction is supported by a number of specific hydrogen bonds between the side chains in both proteins. By recognition of a high proportion of main-chain atoms, protein G minimizes the effects of IgG sequence variability in a way that is distinct from that adopted by protein A.     

A particle concentration fluorescence immunoassay for prostaglandin D synthase in the rat central nervous system

A solid phase, particle concentration fluorescence immunoassay (PCFIA) was developed for the measurement of prostaglandin (PG) D synthase in the 100,000g supernatant of various regions of the rat central nervous system. In this assay, the enzyme (in the range of 1-25 micrograms protein of brain supernatant or 1-100 ng of the purified enzyme) is attached to submicrometer carboxypolystyrene beads coated with polyclonal anti-rat brain PGD synthase IgG. The total particle-bound enzyme is assayed with fluorescein isothiocyanate (FITC)-conjugated monoclonal anti-PGD synthase IgG after incubation for 1 h. The optimum assay condition was obtained when carboxyl particles coated with ca. 500 micrograms/ml of polyclonal IgG at pH 5.0 and 5 micrograms/ml of FITC-IgG were used. No significant fluorescence was observed when FITC conjugates or carboxyl particles were prepared using IgG from nonimmunized rabbits. Heat treatment of the brain supernatant decreased the specific binding of the enzyme in parallel with the loss of enzyme activity, indicating that the denatured enzyme is not recognized by this assay method. The PGD synthase immunoreactivity was widely distributed in the brain regions and was highest in the paraflocculus. Although slight discrepancy was observed between the concentration by PCFIA and the enzyme activity measured by using [14C]PGH2 in some brain regions, there is a considerable correlation (0.727) between the values by both methods in the same brain regions. The PCFIA now developed showed higher sensitivity (around 10 times), greater reliability, and larger number of samples measurable at once than the radio-TLC assay using [14C]PGH2. This method could provide valuable information concerning the regulatory mechanisms of PGD synthase.