Immune islet killing mechanisms associated with insulin-dependent diabetes: in vitro expression of cellular and antibody-mediated islet cell cytotoxicity in humans

In previous work we have shown that some bacteria can bind to human lymphocytes and can be used to identify lymphocyte subpopulations in conventionally stained blood smears. These bacteria are of different species or genera, which makes it difficult to study the binding mechanism. Also, the main marker for B cells, Brucella melitensis, is of very small size and highly pathogenic. Here we show that B cells as well as some of the T cell subpopulations can be identified by different mutants obtained from a strain of an Escherichia coli. Two procedures were used to generate mutants. First, E. coli-YS57 (pro-his-trp-) was mutagenized with N-methyl-N'-nitro-N-nitrosoguanidine and the binding to mouse spleen cells was used as a selective pressure. Second, phage-resistant mutants of E. coli-YS57 were obtained and tested for the ability to bind to lymphocytes. Out of 10 strains selected by the former procedure, 5 bound to a significant number of human lymphocytes. All four phage-resistant mutants bound to human lymphocytes. Out of the total of nine mutants that bound to lymphocytes, six bound consistently, i.e., they bound to similar percentages of peripheral blood lymphocytes from different normal donors. One phage-resistant mutant, E. coli USC-106, bound only to B cells. The subpopulations of lymphocytes identified by the mutants were essentially the same as those identified by different species or genera of bacteria. We concluded that E. coli mutants can be obtained that identify human lymphocyte subpopulations and that one of these mutants recognizes B cells; these mutants may be used to study the nature of the receptors for bacteria on lymphocytes, which appear to have a lectin-like nature.     

Distribution of substance P receptors on murine spleen and Peyer's patch T and B cells

Previous studies have demonstrated that the sensory neuropeptide substance P (SP) can modulate immune responses in vitro. Work from this laboratory has shown that SP enhances immunoglobulin synthesis by murine splenic and Peyer's patch lymphocytes stimulated with concanavalin A. One mechanism underlying these effects is the binding of SP to specific receptors on lymphocytes. We examined the distribution of SP receptors on murine T and B lymphocytes and their subsets by one and two color fluorescence-activated cell sorter analysis. The specificity and nature of binding was examined using radiolabeled SP, and competitive inhibition experiments were performed with cold SP. In cytofluorimetry experiments, both T and B lymphocytes from Peyer's patches and spleen were bound to SP, with those from Peyer's patches having a higher proportion than lymphocytes from the spleen. The majority of T cells from both organs bound SP with binding being evenly distributed between Lyt-1+ and Lyt-2+ cells. Similarly, the majority of B lymphocytes from spleen and Peyer's patches showed SP binding. There were no significant isotype-specific differences within any organ. Studies using 125I-labeled SP showed specific binding to all lymphocyte subpopulations examined. SP receptors were fewer in number on cells isolated from spleen than on cells from Peyer's patches although the dissociation constants were similar for all populations examined. These studies demonstrated that SP receptors are present both on murine T and B lymphocytes from Peyer's patches and spleen. There is no evidence for differential SP receptor expression on distinct lymphocyte subsets in spleen or Peyer's patches.     

Histo-Blood Group Antigen-Like Substances of Human Enteric Bacteria as Specific Adsorbents for Human Noroviruses

Histo-blood group antigens (HBGAs) have been suggested to be receptors or coreceptors for human noroviruses (HuNoVs) expressed on the intestinal epithelium. We isolated an enteric bacterium strain (SENG-6), closely related to Enterobacter cloacae, bearing HBGA-like substances from a fecal sample of a healthy individual by using a biopanning technique with anti-HBGA antibodies. The binding capacities of four genotypes of norovirus-like particles (NoVLPs) to Enterobacter sp. SENG-6 cells were confirmed by enzyme-linked immunosorbent assay (ELISA). Transmission electron microscopy demonstrated that NoVLPs bound mainly to extracellular polymeric substances (EPS) of Enterobacter sp. SENG-6, where the HBGA-like substances were localized. EPS that contained HBGA-like substances extracted from Enterobacter sp. SENG-6 was shown by enzyme-linked immunosorbent assay (ELISA) to be capable of binding to NoVLPs of a GI.1 wild-type strain (8fIIa) and a GII.6 strain that can recognize A antigen but not to an NoVLP GI.1 mutant strain (W375A) that loses the ability to bind to A antigen. Enzymatic cleavage of terminal N-acetyl-galactosamine residues in the bacterial EPS weakened bacterial EPS binding to the GI.1 wild-type strain (8fIIa). These results indicate that A-like substances in the bacterial EPS play a key role in binding to NoVLPs. Since the specific binding of HuNoVs to HBGA-positive enteric bacteria is likely to affect the transmission and infection processes of HuNoVs in their hosts and in the environment, further studies of human enteric bacteria and their binding capacity to HuNoVs will provide a new scientific platform for understanding interactions between two types of microbes that were previously regarded as biologically unrelated.     

Heme Transfer to the Bacterial Cell Envelope Occurs via a Secreted Hemophore in the Gram-positive Pathogen Bacillus anthracis

To initiate and sustain an infection in mammals, bacterial pathogens must acquire host iron. However, the host''s compartmentalization of large amounts of iron in heme, which is bound primarily by hemoglobin in red blood cells, acts as a barrier to bacterial iron assimilation. Bacillus anthracis, the causative agent of the disease anthrax, secretes two NEAT (near iron transporter) proteins, IsdX1 and IsdX2, which scavenge heme from host hemoglobin and promote growth under low iron conditions. The mechanism of heme transfer from these hemophores to the bacterial cell is not known. We present evidence that the heme-bound form of IsdX1 rapidly and directionally transfers heme to IsdC, a NEAT protein covalently attached to the cell wall, as well as to IsdX2. In both cases, the transfer of heme is mediated by a physical association between the donor and recipient. Unlike Staphylococcus aureus, whose NEAT proteins acquire heme from hemoglobin directly at the bacterial surface, B. anthracis secretes IsdX1 to capture heme in the extracellular milieu and relies on NEAT-NEAT interactions to deliver the bound heme to the envelope via IsdC. Understanding the mechanism of NEAT-mediated iron transport into pathogenic Gram-positive bacteria may provide an avenue for the development of therapeutics to combat infection.     

Bovine Muc1 inhibits binding of enteric bacteria to Caco-2 cells

Inhibition of bacterial adhesion to intestinal epithelial receptors by the consumption of natural food components is an attractive strategy for the prevention of microbial related gastrointestinal illness. We hypothesised that Muc1, a highly glycosylated mucin present in cows’ milk, may be one such food component. Purified bovine Muc1 was tested for its ability to inhibit binding of common enteric bacterial pathogens to Caco-2 cells grown in vitro. Muc1 caused dose-dependent binding inhibition of Escherichia coli, Salmonella enterica serovar Typhimurium (S. Typhimurium), Staphylococcus aureus and Bacillus subtilis. This inhibition was more pronounced for the Gram negative compared with Gram positive bacteria. It was also demonstrated that Muc1, immobilised on a membrane, bound all these bacterial species in a dose-dependent manner, although there was greater interaction with the Gram negative bacteria. A range of monosaccharides, representative of the Muc1 oligosaccharide composition, were tested for their ability to prevent binding of E. coli and S. Typhimurium to Caco-2 cells. Inhibition was structure dependent with sialic acid, L(-) fucose and D(+) mannose significantly inhibiting binding of both Gram negative species. N-acetylglucosamine and N-acetylgalactosamine significantly inhibited binding of E. coli whilst galactose, one of the most abundant Muc1 monosaccharides, showed the strongest inhibition against S. Typhimurium. Treatment with sialidase significantly decreased the inhibitory properties of Muc1, demonstrating the importance of sialic acid in adhesion inhibition. It is concluded that bovine Muc1 prevents binding of bacteria to human intestinal cells and may have a role in preventing the binding of common enteropathogenic bacteria to human intestinal epithelial surfaces.     

Cellular Internalization of Staphylococcus aureus Coated with Protein A-Bound Anti-integrin Antibodies

Binding to β₁ chain integrin receptors can result in bacterial extracellular location or bacterial internalization In cultured cells. Using monoclonal antibodies (mAbs) to coat bacteria in vitro, we have shown that receptor-ligand affinity as well as receptor density determines the fate of the bacterium. In this report, we describe techniques used to coat the Gram-positive bacteria Staphylococcus aureus with anti-integrin mAbs and their application to the study of integrin-mediated bacterial internalization. The affinity of the purified anti-integrin mAb is estimated by determination of the ED₅₀ of the mAb by using cell monolayers, and the efficiency of mAb-promoted bacterial internalization is determined by a gentamicin survival assay. The efficiency of bacterial internalization promoted by various anti-β₁ chain integrin mAbs reflects differential expression of β₁ chain integrin receptors in various cell lines studied. Analysis of β₁ chain integrin receptor expression in HEp-2 cells transfectants shows that the level of bacterial internalization is directly related to the integrin receptor density.     

Antigen Binding Lymphocytes in Congenitally Athymic (Nude) Mice

THE autoradiographic detection of the binding of various radiolabelled antigens to a proportion of lymphocytes from animals not exposed to those antigens (“nonprimed” lymphocytes) is well documented^1–4. Such lymphocytes are thought to have patches of surface immunoglobulin, primarily IgM, which act as specific receptors for antigen^5,6. A proportion at least of these unprimed lymphocytes are immunologically competent as shown in vivo^7,8 and hence are true antigen reactive cells. Most assays have used peripheral lymphocyte suspensions from tissues of man, mouse, rat and chicken, not enriched or fractionated in any way for the two distinct lines of lymphocytes, thymic derived (T) and non-thymic derived (B)⁹. It is not clear whether antigen-binding cells (ABC), detected in routine assays where autoradiographs are exposed for 1–2 weeks, are of both T and B cell type or are predominantly of only one type. Experiments using unlabelled and radiolabelled immunoglobulin antisera with isolated T and B cells have inferred specific antigen binding on both populations although T cells seem to have far fewer antigen binding receptors than B cells¹⁰.     

ArdA proteins from different mobile genetic elements can bind to the EcoKI Type I DNA methyltransferase of E. coli K12

Anti-restriction and anti-modification (anti-RM) is the ability to prevent cleavage by DNA restriction–modification (RM) systems of foreign DNA entering a new bacterial host. The evolutionary consequence of anti-RM is the enhanced dissemination of mobile genetic elements. Homologues of ArdA anti-RM proteins are encoded by genes present in many mobile genetic elements such as conjugative plasmids and transposons within bacterial genomes. The ArdA proteins cause anti-RM by mimicking the DNA structure bound by Type I RM enzymes. We have investigated ArdA proteins from the genomes of Enterococcus faecalis V583, Staphylococcus aureus Mu50 and Bacteroides fragilis NCTC 9343, and compared them to the ArdA protein expressed by the conjugative transposon Tn916. We find that despite having very different structural stability and secondary structure content, they can all bind to the EcoKI methyltransferase, a core component of the EcoKI Type I RM system. This finding indicates that the less structured ArdA proteins become fully folded upon binding. The ability of ArdA from diverse mobile elements to inhibit Type I RM systems from other bacteria suggests that they are an advantage for transfer not only between closely-related bacteria but also between more distantly related bacterial species.     

Quantification of lectin receptors on B, T, T-gamma and T-mu lymphocytes. I. Concanavalin A, Pisum sativum, Lens culinaris and wheat-germ agglutinin

The immune system is formed of different lymphocyte subpopulations, each one having a defined role to defend the organism. Their plasma membranes present differences in the glycoproteinic or/and glycolipidic composition, as detected with labelled 125I-lectins. B lymphocytes have a greater number of receptors for the Pisum sativum, Lens culinaris and WGA lectins than T lymphocytes. On the other hand, T lymphocytes bind a greater number of Concanavalin A molecules than B lymphocytes. WGA lectin appeared to be more specific for T mu subpopulation, while Con A and Pisum sativum lectins were bound preferentially to T gamma lymphocytes while no significant differences were observed between both subpopulations for Lens culinaris lectin. From the affinity of each lectin to each lymphocyte population it could be deduced that the receptor structure, conformation and arrangement on the membrane was optimal in B lymphocytes for Con A and WGA binding, and T lymphocytes for Lens culinaris and Pisum sativum binding.     

In vitro bacteridical capacity of Blaberus craniifer hemocytes

Blaberus craniifer hemocytes, maintained in short-term culture, are capable of phagocytosing and destroying Staphylococcus aureus, Staphylococcus albus, Streptococcus faecalis, Serratia marcescens, and Proteus mirabilis. The observed bactericidal activity of the hemocyte suspensions was entirely a function of the phagocytes; the medium, the hemolymph, and cell products elaborated during incubations were not bactericidal. No humoral opsonic factors were required for, or facilitated, bacterial phagocytosis in vitro. Washed hemocyte monolayers bathed by hemolymph-free medium were capable of phagocytosing bacteria. The addition of hemolymph concentrated by ultrafiltration did not increase the bactericidal capacity of the hemocytes. Bacteria opsonized with concentrated hemolymph were not killed more efficiently than were untreated bacteria.A partial blockage of bactericidal capacity was induced by prior exposure of the hemocytes to bacteria or to latex particles. The functional blockade was more complete with bacteria than with latex particles.Pseudomonas aeruginosa, Escherichia coli, Salmonella typhosa, and Diplococcus pneumoniae were phagocytosed but not killed by the hemocytes. This lack of bactericidal activity suggests that roaches may encounter difficulty in eliminating these organisms from the hemocoel. However, deficient bactericidal capacity probably does not entirely correlate with pathogenicity since the known insect pathogens, Staphylococcus albus, Serratia marcescens, and Proteus mirabilis, are killed by the hemocytes. Pathogenicity seems to depend on a complex of factors including bacterial strain, dose received, and intracellular survival of ingested bacteria. A possible connection between the lack of hemocytic bactericidal capacity and the role of roaches as potential disease vectors warrants further investigation.     

Fibronectin-binding protein A of Staphylococcus aureus has multiple, substituting, binding regions that mediate adherence to fibronectin and invasion of endothelial cells

Invasive Staphylococcus aureus infection frequently involves bacterial seeding from the bloodstream to other body tissues, a process necessarily involving interactions between circulating bacteria and vascular endothelial cells. Staphylococcus aureus fibronectin‐binding protein is central to the invasion of endothelium, fibronectin forming a bridge between bacterial fibronectin‐binding proteins and host cell receptors. To dissect further the mechanisms of invasion of endothelial cells by S. aureus, a series of truncated FnBPA proteins that lacked one or more of the A, B, C or D regions were expressed on the surface of S. aureus and tested in fibronectin adhesion, endothelial cell adhesion and invasion assays. We found that this protein has multiple, substituting, fibronectin‐binding regions, each capable of conferring both adherence to fibronectin and endothelial cells, and endothelial cell invasion. By expressing S. aureus FnBPA on the surface of the non‐invasive Gram‐positive organism Lactococcus lactis, we have found that no other bacterial factor is required for invasion. Furthermore, we have demonstrated that, as with other cell types, invasion of endothelial cells is mediated by integrin α₅β₁. These findings may be of relevance to the development of preventive measures against systemic infection, and bacterial spread in the bacteraemic patient.     

Brucella abortus induces apoptosis of human T lymphocytes

Immune evasion is essential for Brucella abortus to survive in the face of robust adaptive CD4+ T cell response. We have previously demonstrated that B. abortus can indirectly inhibit CD4+ T cells by down-regulating MHC-II expression and antigen presentation on macrophages. However, whether B. abortus is able to directly interfere with T lymphocytes is not known. We report here that B. abortus induces apoptosis of human T lymphocytes, even though invasion of T lymphocytes was low and non-replicative. The ability of heat-killed B. abortus to reproduce the same phenomenon suggested that there was a bacterial structural component involved. We demonstrated that a prototypical B. abortus outer membrane lipoprotein (l-Omp19), but not its unlipidated form, induced T lymphocyte apoptosis. Moreover, a synthetic lipohexapeptide that mimics the structure of the protein lipid moiety also induced an increase in T lymphocyte cell death, indicating that the structural component implicated in the phenomenon could be any B. abortus lipoprotein. B. abortus-induced T lymphocyte apoptosis was dependent on the secretion of TNF-α since pre-incubation of T lymphocytes with anti-TNF-α mAb inhibited the apoptosis of the cells. Overall, these results represent a new mechanism whereby B. abortus by directly inhibiting T cell-mediated responses may evade adaptive immune responses.     

Diversity of antagonistic bacteria isolated from medicinal plant Peganum harmala L.

The antimicrobial activity of plant extract of Peganum harmala, a medicinal plant has been studied already. However, knowledge about bacterial diversity associated with different parts of host plant antagonistic to different human pathogenic bacteria is limited. In this study, bacteria were isolated from root, leaf and fruit of plant. Among 188 bacterial isolates isolated from different parts of the plant only 24 were found to be active against different pathogenic bacteria i.e. Escherichia coli, Methicillin-resistant Staphylococcus aureus (MRSA), Enterococcus faecium, Enterococcus faecalis and Pseudomonas aeruginosa. These active bacterial isolates were identified on the basis of 16S rRNA gene analysis. Total population of bacteria isolated from plant was high in root, following leaf and fruit. Antagonistic bacteria were also more abundant in root as compared to leaf and fruit. Two isolates (EA5 and EA18) exhibited antagonistic activity against most of the targeted pathogenic bacteria mentioned above. Some isolates showed strong inhibition for one targeted pathogenic bacterium while weak or no inhibition for others. Most of the antagonistic isolates were active against MRSA, following E. faecium, P. aeruginosa, E. coli and E. faecalis. Taken together, our results show that medicinal plants are good source of antagonistic bacteria having inhibitory effect against clinical bacterial pathogens.     

Factors Affecting Bacterial Adhesion on Selected Textile Fibres

In sectors like healthcare and hospitality, it has been realized that fabrics play a pivotal role in transfer of nosocomial infections. However, there is a major gap in drawing correlation between different fibre types and their interaction with microorganisms. Such information is important to formulate guidelines for textile materials for use in these sectors. In the current study, the adherence of four important bacteria, Staphylococcus aureus, Acinetobacter calcoaceticus, Escherichia coli, and Pseudomonas aeruginosa was studied on six different fibre types namely polyester, wool, polypropylene, viscose, silk and cotton. Among these fibres, viscose showed maximum adherence while silk fibres showed the least attachment of bacterial strains. Bacterial adhesion was correlated with the surface characteristics (surface charge, hydrophobicity etc.) of bacteria, and nanoroughness of fibres. Adhesion of these bacteria was tested on five hydrocarbons of different hydrophobicities. E. coli, the weakest biofilm producer, and with the highest surface energy and lowest hydrophobicity amongst the bacteria compared in the study, had the lowest load on all fibres. Scanning electron microscopy revealed non-uniform binding of gram-negative and gram-positive bacteria. Nanoroughness of fibres favored bacterial adhesion. The study showed correlation between surface properties and adherence of bacteria on fibres, with the results being of direct significance to medical and hospitality sectors.Electronic supplementary materialThe online version of this article (10.1007/s12088-020-00903-5) contains supplementary material, which is available to authorized users.     

Binding of bacteria in lymphocyte subpopulations: role of lectin-carbohydrate interactions

Bacteria have been found to bind to lymphocyte subpopulations in a highly reproducible manner. Some of these bacteria such as B. melitensis and a strain of E. coli binds to mammalian B. cells. The binding of B. melitensis and other bacteria is due, at least in part, to lectins on lymphocytes interacting with the carbohydrates on the LPS or LTA of the bacteria. These receptors for bacteria give some indications regarding the functional potential of the cells, suggesting the possibility that the receptors identified by bacteria are used in cellular interactions with normal or malignant cells.     

Effect of Richinus communis lectins on the membrane fluidity of human peripheral lymphocytes

The mobility of Ricinus communis lectins bound to lymphocyte cell surface was determined by fluorescence polarization of fluorescein-labeled lectins. R. communis hemagglutinin and R. communis toxin have high mobility. Furthermore, the change of membrane fluidity upon binding of the lectins to lymphocytes was measured by fluorescence polarization of fluorescent hydrocarbon embedded in the membrane. The hemagglutinin, the toxin and its binding subunit apparently increased the membrane fluidity. The hemagglutinin was also found to have mitogenic activity against human peripheral lymphocytes.     

Variations in the Binding Pocket of an Inhibitor of the Bacterial Division Protein FtsZ across Genotypes and Species

The recent increase in antibiotic resistance in pathogenic bacteria calls for new approaches to drug-target selection and drug development. Targeting the mechanisms of action of proteins involved in bacterial cell division bypasses problems associated with increasingly ineffective variants of older antibiotics; to this end, the essential bacterial cytoskeletal protein FtsZ is a promising target. Recent work on its allosteric inhibitor, PC190723, revealed in vitro activity on Staphylococcus aureus FtsZ and in vivo antimicrobial activities. However, the mechanism of drug action and its effect on FtsZ in other bacterial species are unclear. Here, we examine the structural environment of the PC190723 binding pocket using PocketFEATURE, a statistical method that scores the similarity between pairs of small-molecule binding sites based on 3D structure information about the local microenvironment, and molecular dynamics (MD) simulations. We observed that species and nucleotide-binding state have significant impacts on the structural properties of the binding site, with substantially disparate microenvironments for bacterial species not from the Staphylococcus genus. Based on PocketFEATURE analysis of MD simulations of S. aureus FtsZ bound to GTP or with mutations that are known to confer PC190723 resistance, we predict that PC190723 strongly prefers to bind Staphylococcus FtsZ in the nucleotide-bound state. Furthermore, MD simulations of an FtsZ dimer indicated that polymerization may enhance PC190723 binding. Taken together, our results demonstrate that a drug-binding pocket can vary significantly across species, genetic perturbations, and in different polymerization states, yielding important information for the further development of FtsZ inhibitors.     

Studies on Fc receptor function. I. IgG-mediated inhibition of B lymphocyte activation by T-dependent and T-independent antigens.

Mouse aggregated IgG, when continuously present in cultures of mouse spleen cells immunized with sheep erythrocytes, causes a dose dependent inhibition of the generation of plaque forming cells with a maximum of about 90% at 400 μg IgG/culture. Unaggregated IgG induces a similar inhibition, whereas treatment with mouse albumin or F (ab¹)₂, under the same conditions, does not affect the generation of plaque forming cells.It has been reported that unaggregated IgG binds poorly to Fc receptors of B lymphocytes and thus should not be expected to inhibit PFC generation if the effect is at the level of B lymphocyte Fc receptors. Competitive binding experiments were carried out and showed that aggregated and unaggregated IgG compete similarly with ¹²⁵I-labeled aggregated IgG for binding to Fc receptors of mouse spleen cells.The same inhibition of PFC can be induced by aggregated IgG in cultures of B lymphocytes immunized with the T-independent antigen DNP-Ficoll. When IgG is absorbed extensively with sheep erythrocytes and added to cultures immunized with sheep erythrocytes, PFC generation is inhibited to a level comparable to that of nonabsorbed IgG.These results suggest that IgG binding to Fc receptors leads to a severe inhibition of the induction of PFC by both T-dependent and T-independent antigens. This and other work from our laboratory indicate that this effect may be at the level of B lymphocyte Fc receptors.Taken together with reports from several laboratories, the data presented here suggest that Fc receptors may have a regulatory role on the activation of B lymphocytes by antigens or mitogens.     

Expression of small RNAs by Bacillus sp. strain PS3 and B. subtilis cells during sporulation

A small RNA sequence identified in an rRNA-tRNA cluster from the thermophilic Bacillus sp. strain PS3 was examined. An oligonucleotide probe specific for the RNA bound to multiple restriction fragments in Bacillus sp. strain PS3 DNA, thus several copies of this sequence occur in its genome. Similar findings were observed using DNA from B. subtilis, B. stearothermophilus, Escherichia coli, Staphylococcus aureus, Haemophilus influenzae and Thermus thermophilus. This sequence apparently is widespread in the eubacteria. Northern analysis of RNA from sporulating Bacillus sp. strain PS3 and B. subtilis cells revealed RNA species homologous to the probe in both bacteria. Expression of the small RNA in B. subtilis depended on σ^H.     

Receptors for pea and lentil lectins on human lymphoid cells: demonstration of distinct lectin-defined cell subclasses

Lectins are useful probes for studying cell surface glycoconjugates. Pea (PL) and lentil (LL) lectin each requires for binding a fucosyl- and two alpha-mannosyl residues in core regions of glycopeptides, but differences in outer chain carbohydrates may alter their relative binding affinities. We used binding studies with [125I]-PL and LL and flow cytometry with fluorescein-conjugated (FITC)-PL and -LL to study their interactions with peripheral lymphocytes. Binding of both lectins to lymphocytes was saturable, reversible, and inhibited by alpha-methyl mannose. Scatchard analyses were consistent with two classes of receptors for each lectin. Flow cytometric analyses demonstrated that cell to cell receptor densities varied. Sixty-five percent of lymphocytes bound PL (mean 2 X 10(6) receptors/cell) and 45% bound LL (mean 3 X 10(6) receptors/cell). Competition studies demonstrated mutual inhibition, but flow cytometry revealed persistent FITC-PL or -LL binding depsite 20-fold molar excess of the other lectin. Distributions of receptors for PL and LL on lymphocytes were as follows: 45% of lymphocytes bound both PL and LL; 20% of lymphocytes bound PL alone; 35% of lymphocytes bound neither PL nor LL. Despite similar binding requirements for PL and LL and overlap between their receptors on lymphocytes, there appear to be subsets of receptors specific for each lectin. These results may reflect abilities of PL and LL to discriminate subtle carbohydrate differences on lymphocyte surfaces.