Discontinuous Density Gradient Research Articles

Endogenously Expressed Epithelial Sodium Channel Is Present in Lipid Rafts in A6 Cells

The epithelial sodium channel (ENaC) present in the kidney collecting duct, distal colon, and the lung is responsible for salt reabsorption and whole body volume regulation. It is composed of three homologous subunits, alpha, beta, and gamma, and mutations to these subunits can lead to the salt wasting disease pseudohypoaldosteronism type I, associated with decreased channel density at the plasma membrane or to the hypertensive disorder, Liddle's syndrome, in which channel residency time at the plasma membrane is enhanced. Regulation of ENaC trafficking and turnover is therefore critical to sodium homeostasis. In this study we examined whether ENaC is present in the cholesterol-enriched microdomains commonly called lipid rafts, in the endogenously expressing A6 cell line. We demonstrate that a fraction of alpha, beta, and gamma ENaC is present in detergent-insoluble membranes, that subunits exist in membranes that float on discontinuous sucrose density gradients, and that methyl-beta-cyclodextrin treatment causes a redistribution of ENaC subunits to higher density membranes. Furthermore, chronic aldosterone stimulation results in a shift in the membrane density of all three subunits. Biotinylation of apical membrane proteins revealed that ENaC is present in lipid rafts on the plasma membrane. In conclusion, these results show that ENaC is present in lipid rafts both intracellularly and on the cell surface. Raft association may be important for trafficking and/or function of the channel.

Endotoxin-Free Purification of Monocytes for Dendritic Cell Generation via Discontinuous Density Gradient Centrifugation Based on Diluted Ficoll-Paque Plus®

Background: For the investigation of the biology of human monocyte-derived dendritic cells (DCs), and also for further clinical use of these cells, it is important to separate large numbers of monocytes without isolation-induced activation. Methods: Monocytes were purified from mononuclear cells (MNCs) by density gradient centrifugation using Ficoll-Paque Plus^® adjusted to a density of 1,068 g/ml by dilution with phosphate-buffered saline (PBS) and compared to Percoll^® isolated monocytes. DCs were generated by culturing monocytes with interleukin (IL)-4 plus granulocyte-macrophage colony-stimulating factor (GM-CSF), and they were functionally tested for IL-12 p70 production by stimulation with lipopolysaccharide (LPS) plus interferon-γ (IFN-γ). Results: Density gradient centrifugation using diluted Ficoll-Paque Plus^® resulted in a monocyte purity of more than 75% and a recovery of 70%. DCs derived from such monocytes produced high amounts of IL-12 p70 in response to LPS plus IFN-γ, thus demonstrating an important functional capacity. Conclusion: Since Ficoll-Paque Plus^® is commercially available in an endotoxin-free form, this modified Ficoll gradient offers a simple modality for isolating large amounts of monocytes under endotoxin-free conditions without introducing further potential monocyte-activating agents or procedures.

Pancreatic islet isolation by mechanical-enzymatic separation, stationary collagenase digestion and dextran discontinuous density gradient purification: experimental study in dogs

The prospects for allotransplantation of pancreatic islets in man depend on the development of methods that provide sufficient quantities of pancreatic islets from a single donor, which are capable, when transplanted, of achieve the normalization of carbohydrate metabolism. Objective: Evaluate the efficacy of the isolation of Langerhans islets from dogs, by means of mechanical-enzymatic separation technique with stationary digestion using collagenase, and purification with a discontinuous dextran density gradient. Methods: The counting of islet numbers and evaluation of their sizes was accomplished by staining with diphenylthiocarbazone and using stereoscopic microscopes equipped with eyepiece reticule for the measurement of average diameters of stained islets. Results: The results disclosed that the average number of islets isolated was 81032.20 ± 24736.79 and the average number of islets isolated per kg of body weight was 6938.70 ± 1392.43. The average number of islets isolated per kg of body weight showed significant correlation with body weight and weight of the pancreas resected. Conclusion: The number of islets isolated, of a single donor, by mechanical-enzymatic separation, stationary collagenase digestion and discontinuous dextran density gradient purification can be sufficient to success of pancreatic islets transplant in dogs.

Murine model of BCG lung infection: dynamics of lymphocyte subpopulations in lung interstitium and tracheal lymph nodes.

C57Bl/6 female mice were infected with an intrapulmonary dose of 2.5 x 10(4) BCG (Mycobacterium bovis Bacillus Calmette-Guerin). Lymphocyte populations in lung interstitium and lung-associated tracheal lymph nodes (LN) were examined at 1, 2, 4, 5, 6, 8 and 12 weeks after infection. BCG load in lungs peaked between 4-6 weeks post-infection and declined to very low levels by the 12th week of infection. Lung leukocytes were obtained over the course of infection by enzyme digestion of lung tissue followed by centrifugation over Percoll discontinuous density gradients. By 4 to 6 weeks after infection, numbers of lung leukocytes had more than doubled but the proportions of lymphocytes (about 70%), macrophages (about 18%) and granulocytes (about 12%) remained essentially unaltered. Flow cytometric studies indicated: (i) the total number of CD3+ T cells in lungs increased by 3-fold relative to uninfected controls at 5 to 6 weeks post-infection, but the relative proportions of CD4 and CD8 cells within the T cell compartment remained unaltered; (ii) relative proportion of NK cells in lungs declined by 30% but the total number of NK cells (NK1.1+) per lung increased by about 50%, 5-6 weeks post infection; (iii) tracheal LN underwent marked increase in size and cell recoveries (6-10-fold increase) beginning 4 weeks after infection. While both T and B cells contributed to the increase in cell recoveries from infected tracheal LNs, the T/B ratio declined significantly but CD4/CD8 ratio remained unaltered. In control mice, IFNgamma producing non-T cells outnumbered T cells producing IFNgamma. However, as the adaptive response to infection evolves, marked increase occur in the number of IFNgamma producing T cells, but not NK cells in the lungs. Thus, T cells are the primary cell type responsible for the adaptive IFNgamma response to pulmonary BCG infection. Few T cells in tracheal LN of BCG infected mice produce IFNgamma, suggesting that maturational changes associated with migration to the lungs or residence in the lungs enhance the capability of some T cells to produce this cytokine.

The Effects of Intravenous Anesthetics and Lidocaine on Proliferation of Cultured Type II Pneumocytes and Lung Fibroblasts

The Effects of Intravenous Anesthetics and Lidocaine on Proliferation of Cultured Type II Pneumocytes and Lung Fibroblasts

Isolation of rat and human hippocampal neuron fractions in a discontinuous density gradient.

The plating efficiency of neurons in culture is highly dependent on the concentration of cells used to establish the monolayer. A discontinuous iodixanol gradient permits both the production of a viable concentrated suspension of neurons and purification from other brain tissue elements. The gradient that is described in this Protocol Article is applicable to brain tissue from rat and also from human biopsy specimens.

Preparation of preformed iodixanol gradients.

The Protocol Article describes the strategies for the formation of preformed discontinuous and continuous density gradients. Most of the techniques can be applied to the use of any gradient solute but some of the detailed recommendations on continuous gradients only apply to iodixanol gradients because of variations in viscosity and rates of diffusion between different solute types. Operational variations that require consideration when dealing with specific types of biological particle are also dealt with at the end of this Protocol Article.

Isolation and characterization of intact mitochondria from neonatal rat brain

Poor outcome after neonatal brain injury may be associated with alterations in mitochondrial function. Thus, isolated mitochondria have been a useful tool in understanding the underlying mechanisms of mitochondrial dysfunction. However, isolation and characterization of mitochondria from neonatal rat brain are not fully described. Thus, the aim of this study was to develop a rapid method for the isolation and characterization of functional mitochondria from neonatal rat brain. Mitochondria were isolated from 7-day-old rat brain weighing ∼500 mg using a discontinuous Percoll density gradient. Brains were homogenized in 12% Percoll/sucrose buffer and layered onto a 26% Percoll/40% Percoll gradient followed by centrifugation. Four methods were used for assessing mitochondrial integrity and function: (1) electron microscopy to assess the morphology of the mitochondria and to determine the relative purity of the preparation; (2) fluorescence of chloromethyl-X-rosamine (Mito Tracker Red) in mitochondria as an indicator of mitochondrial membrane potential (Δ ψ m); (3) state 3 and 4 respiration; and (4) protein import into mitochondria using an in vitro-synthesized mitochondrial malate dehydrogenase (mMDH). These studies demonstrated that the morphology of mitochondria is maintained with intact outer membranes and well-developed cristae, and Δ ψ m is preserved. Respiration measurements revealed tightly coupled mitochondria with a respiration control ratio (RCR) of 4.1±0.18 ( n=6). Import of precursor mMDH into mitochondria increased in a time-dependent manner maximizing at 15 min. The results indicate that neonatal brain mitochondria isolated using this method are well coupled, morphologically intact and are capable of protein import across the outer and inner mitochondrial membranes.

Peanut lectin binds to a subpopulation of mitochondria-rich cells in the rainbow trout gill epithelium.

Fluorescently labeled peanut lectin agglutinin (PNA-FITC) was used to identify a subtype of mitochondria-rich (MR) cells in the gills of freshwater rainbow trout. In situ binding of PNA-FITC was visualized by inverted fluorescence microscopy and found to bind to cells on the trailing edge of the filament epithelium as demonstrated by differential interference contrast optics. The amount of PNA-FITC binding on the filament epithelium increased with cortisol pretreatment concomitant with an increased chloride cell fractional area as demonstrated by scanning electron microscopy. Dispersed gill cells were isolated by trypsinization and separated using a discontinuous Percoll density gradient. Cells migrating to the 1.06-1.09 g/ml interface were found to be MR as demonstrated by staining with the vital mitochondrial dye 4-(4-(dimethylamino)styryl)-N-methylpyridinium iodide and transmission electron microscopy (TEM). However, only approximately 40% of the MR cells were found to bind PNA-FITC. Cortisol pretreatment increased the relative numbers of MR cells isolated from the dispersed gill cell population, but the relative proportions of PNA binding cells remained unchanged. Ultrastructural analysis of isolated cells in the TEM demonstrated that the MR cell fraction was comprised of a mixed population of chloride cells and pavement cells.

Phylogeny of natural cytotoxicity: cytotoxic activity of coelomocytes of the purple sea urchin, Arbacia punctulata.

Coelomocyte-mediated nonspecific cell cytotoxic activity against human and murine target cells by the purple sea urchin Arbacia punctulata was investigated in vitro. Cytotoxic activity toward target cells was shown to be mediated by different coelomocyte populations isolated by discontinuous density gradient centrifugation. The population of phagocytic amebocytes showed the strongest cytotoxic activity and the highest binding to human NK markers by cytometry analysis. Our immunophenotypic studies showed that A. punctulata phagocytic amebocytes are CD14(+), CD56(+), CD158b(+), CD3(-), CD4(-), CD8(-), and CD16(-). The cytotoxic activity was independent of experimental incubation temperatures, required viable effector cells, and required cell-cell contact between the effector and target cells. Sodium azide significantly decreased coelomocyte cytotoxicity, indicating that cytotoxicity is metabolically dependent, and EDTA reduction of cytotoxic activity is consistent with the involvement of divalent cations in the cytotoxic process. These data describe a population of sea urchin coelomocytes (the phagocytic amebocyte) that are CD14(+), CD56(+), and CD158b(+), with cytotoxic activities.

Interrelationships between seminal parameters and sperm nuclear DNA damage before and after density gradient centrifugation: implications for assisted conception.

With an increase in the use of assisted reproduction technologies the requirements of the diagnostic semen analysis are constantly changing. Spermatozoa from patients undergoing IVF were analysed by examining the conventional semen parameters and DNA/chromatin integrity, using in-situ nick translation (NT) and the Chromomycin A(3) fluorochrome, which indirectly demonstrates a decreased presence of protamine. Samples were examined before and after preparation using discontinuous density gradient centrifugation. Density gradient centrifugation enriched samples by improving the percentage of morphologically normal forms by 138% and sperm nuclear integrity by 450%. Sperm nuclear integrity as assessed by in-situ nick translation (NT) demonstrated a very clear relationship with sperm concentration, motility and morphology. Morphology correlated with fertilization rates of patients undergoing IVF, while NT values of the spermatozoa post-preparation were significantly lower in pregnant patients. We have demonstrated that along with the classical semen parameters, the assessment of nuclear integrity improves the characterization of the semen sample and may be used as a tool for allocating patients to specific assisted reproduction treatments.

Characterization of subsets of human spermatozoa at different stages of maturation: implications in the diagnosis and treatment of male infertility.

Reactive oxygen species (ROS)-induced damage of membrane phospholipids and DNA in human spermatozoa has been implicated in the pathogenesis of male infertility. In this study, variations in ROS production, DNA structure (as measured by the sperm chromatin structure assay) and lipid composition, were studied in human spermatozoa at different stages of maturation. Sperm subsets were isolated by discontinuous density gradient centrifugation of semen samples obtained from healthy donors and from infertility patients. DNA damage and ROS production were highest in immature spermatozoa with cytoplasmic retention and abnormal head morphology, and lowest in mature spermatozoa. Docosahexaenoic acid and sterol content were highest in immature germ cells and immature spermatozoa, and lowest in mature spermatozoa. The relative proportion of ROS-producing immature spermatozoa in the sample was directly correlated with DNA damage in mature spermatozoa, and inversely correlated with the recovery of motile spermatozoa. There was no correlation between DNA damage and sperm morphology in mature spermatozoa. The high levels of ROS production and DNA damage observed in immature spermatozoa may be indicative of derangements in the regulation of spermiogenesis. DNA damage in mature spermatozoa may be the result of oxidative damage by ROS-producing immature spermatozoa during sperm migration from the seminiferous tubules to the epididymis.

Interference study should be performed for every protein measurement method used

It is particularly important, when analyzing biological material, for the measurement procedure to be specific to the analyte and not to suffer interference by the matrix effect. Tissue fraction studies also require rapid and accurate methods to estimate the concentration of protein in solutions as well as many measurement methods used in medical laboratories. The design of this study is based on a comparison of the Lowry and the bicinchoninic acid (BCA) methods for the measurement of the total protein concentrations of rat liver subcellular fractions. In our experiment, subcellular fractions enriched in peroxisomes (POs) obtained by differential centrifugation were then further separated by means of density gradient centrifugation. We performed the protein measurement assays on all fractions obtained during the purification steps. The protein contents of the fractions obtained were determined by the two methods. The method comparison statistics were performed by linear Deming regression analysis and Altman and Bland bias plot. The regression equation was unacceptable, indicating that the last three fractions separated by means of Nycodenz discontinuous density gradient centrifugation gave remarkably divergent results. For the Lowry method, the Nycodenz effect could not be eliminated with the use of interference blank. In addition to Nycodenz, the potentially interfering compound used in the isolation procedure as isolation medium was 3-(morpholino)propane sulfonic acid (MOPS). In decreased concentrations of MOPS (10 mM), interference blank should be used for correct measurement with Lowry, but in practical use 10 mM does not provide buffering potency. In the BCA method, interference blank correction seemed to eliminate the measurement error in all concentrations of Nycodenz. There was no MOPS effect on the BCA measurement assay. Referring to deviations as sample-inherent matrix effects, we concluded that not only one, but more measurement methods should be used in order to make a correct protein measurement.

Separation of distinct compartments of rice Golgi complex by sucrose density gradient centrifugation

We studied the separation of distinct compartments of the Golgi complex in rice and tobacco employing the discontinuous sucrose density gradient centrifugation technique with EDTA or MgCl 2. In the presence of EDTA, rice Golgi marker enzymes, nucleoside diphosphatase and N-acetylglucosaminyltransferase were fractionated in the 28 and 33% sucrose fractions, respectively. Peanut lectin-recognized glycoproteins and reversibly glycosylated polypeptide-1 that are shown to be located at Golgi complex were broadly distributed around a 31.5% sucrose density. Under a MgCl 2-supplemented condition, the peak of nucleoside diphosphatase was shifted to 29 and 37% sucrose and N-acetylglucosaminyltransferase was distributed in the 37% sucrose fraction. The distribution of peanut lectin-recognized glycoproteins and reversibly glycosylated polypeptide-1 were also shifted to the 34.5% sucrose fraction. Furthermore, glucan synthase-I and UDP-glucose pyrophosphorylase were fractionated in the 26.5% sucrose fraction, regardless of the presence or absence of MgCl 2. These results indicate that there exist at least four distinct compartments of the rice Golgi complex. The tobacco Golgi marker enzymes and Golgi-localized proteins were distributed in the 30–31% sucrose fractions in the presence of EDTA and slightly shifted to the 32–33% sucrose fractions under a MgCl 2-supplemented condition. These results suggest that the sedimentation behavior of compartments of the rice Golgi complex in the gradients is specific for rice cells.

Low-density caveolae-like membrane from Xenopus laevis oocytes is enriched in Ras.

Detergent-free discontinuous sucrose density gradient centrifugation was used to resolve low- and high-density membrane fractions from Xenopus laevis oocytes. Compared to high-density membrane, low-density oocyte membrane is enriched two-fold in cholesterol and highly enriched in ganglioside GM1. Protein immunoblotting of membrane fractions from whole cells with polyclonal anti-human caveolin antibody detected multiple bands, including a distinctive triad with apparent molecular weights of 21, 33, and 48 kDa. To more clearly determine which of these caveolin-like protein(s) is associated with the oocyte plasma membrane, microdissection was used to separate external membrane (cortical preparations containing plasma membrane) from intracellular membrane. Cortical membrane preparations displayed a single 21-kDa caveolin-like protein in low-density membrane. Internal oocyte membrane displayed the higher molecular weight bands of 33 and 48 kDa and a lesser amount of the 21-kDa protein in low-density membrane fractions. Monoclonal anti-human Ras antibody detected a single 23-kDa immunoblot band that is enriched an average of eight-fold in low-density membrane fractions prepared from whole cells. This is the first report of caveolin-associated, low-density membrane in amphibian oocytes, and is consistent with a role for caveolin and caveolae-like microdomains in oocyte signal transduction.

Murine hypodense eosinophils induce tumour cell apoptosis by a granzyme B-dependent mechanism.

Eosinophils have been shown to potentiate anti-tumour cytotoxicity in both clinical and animal studies. The mechanism by which eosinophils induce tumour cell damage, however, has largely been speculative. The purpose of this study was to identify the mechanisms involved in eosinophil-induced tumour cell cytotoxicity. To investigate eosinophil cytotoxicity, eosinophils were isolated from the peritoneal cavity of Mesocestoides corti-infected BALB/c mice, and were separated into normodense (ND) and hypodense (HD) populations using discontinuous Percoll density gradient centrifugation. The tumoricidal activity of ND and HD eosinophils was assessed using the [51Cr]-release cytotoxicity assay (a measure of cytolytic activity) and the JAM assay (a measure of apoptotic activity). Investigation of apoptosis-inducing molecules in HD eosinophils was undertaken by RT-PCR. The calcium chelator EGTA, serine protease inhibitor aprotinin and a competitive substrate for granzyme B were used to assess the role of perforin and granzyme B in HD eosinophil killing. Cytotoxic activity induced by HD eosinophils was significantly greater than that of ND eosinophils, and apoptosis was the principal killing mechanism. RT-PCR analysis revealed that HD eosinophils express mRNA for perforin, granzyme B and Fas ligand. Furthermore, HD eosinophil killing was markedly inhibited by EGTA, intracellular aprotinin and the granzyme B competitive substrate. These data are consistent with a hypothesis that murine HD eosinophils elicit tumoricidal activity via a granzyme B-dependent mechanism.

Extraction of human Langerhans cells: a method for isolation of epidermis-resident dendritic cells

Langerhans cells (LCs) are immature dendritic cells in the epidermis that play a central role in T-lymphocyte mediated skin immunity. Upon activation with antigenic stimuli, they differentiate drastically into mature dendritic cells while migrating from the epidermis to regional lymph nodes. Thus, in order to study biological details of immature LCs, it is crucial to isolate epidermis-resident, immature LCs without dermal dendritic cell contamination. Methods for extracting LCs from human skin as well as in vitro derivation of LC-like cells from hematopoietic progenitor cells have been described previously, but the cell preparations can potentially contain a significant number of dendritic cells that are not identical to epidermal LCs. Here, we describe a technique by which purely epidermis-resident LCs are extracted from human skin. Following digestion of human skin with dispase, the epidermis was separated mechanically without any attached dermal component. The trypsinized epidermal cells were then fractionated by centrifugation with a discontinuous density gradient composed of bovine albumin and sodium metrizoate. The LC-enriched preparation thus obtained contained 80% to >90% CD1a +, E-cadherin + cells that expressed Birbeck granules and the Lag protein. Consistent with their being at an immature stage, the freshly isolated LCs lacked the expression of CD83, a marker for mature dendritic cells. The purified LCs were able to activate allogeneic T cells, indicating that the cells retained T-cell stimulation ability even after extraction. Thus, the present work offers an opportunity for precise in vitro studies of epidermal LCs.

Individual Mitochondrion Characterization: A Comparison of Classical Assays to Capillary Electrophoresis with Laser-Induced Fluorescence Detection

A method has been developed that uses capillary electrophoresis (CE) with laser-induced fluorescence detection (LIF) for measuring protein abundance in individual mitochondria collected from a discontinuous density gradient and labeled with Mitotracker Green. From these measurements we determined the distribution of protein content per mitochondrion and the relative abundance of mitochondrial proteins in density gradient fractions. In addition, this method is useful for counting mitochondria and, as a consequence, determining the number of mitochondria per unit volume or estimate mitochondria copy number per cell. It was determined that mitochondria accumulate in two interfaces defined by consecutive layers of 35% Metrizamide, 17% Metrizamide, and 6% Percoll. The presence of mitochondria in these interfaces was also confirmed using a modified Lowry assay that prevents interference from Metrizamide and Percoll and determines total protein content, and a succinate dehydrogenase assay that uses dichloroindophenol as an electron acceptor and that specifically indicates abundance of mitochondria. The CE-LIF analysis of mitochondrial properties, based on the individual mitochondrial determinations, has a wider scope than the average values determined by enzymatic or bulk protein assays.

Isolation and characterization of the Golgi complex of the protozoan Trypanosoma cruzi

In this study the Golgi complex of the epimastigote forms of Trypanosoma cruzi were isolated and characterized. Using well-controlled sonication to rupture the cells and centrifugation on a discontinuous sucrose density gradient, a highly enriched Golgi fraction was obtained. The Golgi fraction contained most of the beta-galactosyltransferase (beta-Gal transferase) and UDP-N-acetyl-glucosamine: polypeptide-alpha-N-acetyl-glucosaminyltransferase (O-alpha-GlcNAc transferase) activities with minimal contamination of other organelles, as observed by enzymatic assays and electron microscopy analysis. To characterize the Golgi from T. cruzi cells further, it was incubated with a monoclonal antibody against a 58 kDa protein involved in the association of the Golgi complex with microtubules in mammalian cells. Immunofluorescence microscopy showed that the 58 kDa protein is localized in the T. cruzi Golgi region, a result confirmed by high resolution scanning electron microscopy immunocytochemistry. Thus, our results show, for the first time, that the beta-Gal transferase, the O-alpha-GlcNAc transferase and the 58 kDa protein are present in the Golgi complex of T. cruzi and are novel biochemical markers which can be used in the characterization of this organelle in T. cruzi.

Expression of the Chemokine Receptor CCR3 on Human Mast Cells

Background: The aim of this study was to investigate whether human mast cells express functional active CCR3 receptors, which are activated by CC chemokines. These ligands include the CCR3-selective chemokines eotaxin and eotaxin-2 and the more promiscuous CC chemokines, MCP-4, MCP-3, MCP-2 and RANTES. Methods: Immunohistochemical analysis was performed on skin, gut and lung specimens. Double immunostaining was performed with anti-CCR3 and antitryptase, and anti-CCR3 and antichymase antibody (Ab) by using the avidin-biotin-peroxidase system with two different substrates. Mast cells were isolated and purified from human lung parenchyma (HLMC) by countercurrent elutriation followed by discontinuous Percoll density gradient. Flow-cytometric analysis of HLMC surface CCR3 expression was performed with the monoclonal Ab anti-CCR3 (7B11). Functional activation of HLMC was verified by the ability of cells to release histamine and/or migrate in response to eotaxin. Results: High percentages (>70%) of tryptase-positive cells showing CCR3 expression were found in the skin and in the intestinal submucosa, whereas much lower percentages (≤20%) were found in the intestinal mucosa and in the lung interstitium. Eotaxin (1–100 nM) neither induced histamine release from HLMC nor enhanced anti-IgE-induced histamine release. In contrast, eotaxin (10–100 nM) and RANTES (10–100 nM) induced HLMC chemotaxis in vitro. Preincubation of HLMC with antibody anti-CCR3 (5 µg/ml) before loading into the chemotaxis chamber abrogated chemotaxis elicited by eotaxin. Double immunostaining with anti-CCR3 and anti-chymase antibody showed that the vast majority of CCR3-expressing mast cells in the various human tissues examined were tryptase-chymase double-positive. Conclusions: These results indicate that CCR3 is expressed on human mast cells and that these cells are attracted by CCR3-binding chemokines.