New potential antiproliferative monophosphoester 2-aminoethyl dihydrogen phosphate in K-562 and K-562 MDR+ leukemia cells

The main obstacle in the treatment of cancer patients has been resistance to multiple drugs, leading to the need to develop molecules with a higher specificity target. The liposomal formulation DODAC/2-AEH₂P has antitumor potential, inducing apoptosis in several tumor types. Human chronic myeloid leukemia K-562 and K-562 Lucena (MDR⁺) cells were treated with the DODAC carrier and the liposomal formulation 2-AEH₂P. Viability, cell cycle phases, apoptosis, marker expression and mitochondrial potential were analyzed. Significant reduction in viability was observed for all treatments. Changes in the distribution of the cell cycle phases and expression of markers involved in the apoptosis pathways were observed. Reduction of the mitochondrial electrical potential mediated by Bcl-2, being regulated by the reduction of the MTCH2 protein linked to the progression of myeloid leukemia and an increase in the pro-apoptotic proteins Bad and Bax, dependent on p53. This study demonstrated a significant therapeutic potential through apoptotic effects in leukemic cells, regardless of the molecular resistance profile (MDR⁺).

In vivo evidence of angiogenesis inhibition by β2-glycoprotein I subfractions in the chorioallantoic membrane of chicken embryos

The vascular network expansion and functioning are important factors affecting normal intra-uterine fetal development. This study addressed the previously reported antiangiogenic potential of beta-2-glycoprotein I (β₂GPI) in vivo in the chick embryo model of angiogenesis. The effects of two naturally occurring β₂GPI forms on the development of the chorioallantoic membrane (CAM) vessels and the chicken embryo were investigated. β₂GPI monomers and dimers were obtained by fractioned purification and characterized using SDS-PAGE, immunoblot, and ELISA. The egg exposure was performed by injection of small volumes of 2.5 µg/mL solutions of the β₂GPI subfractions. Angiogenesis was evaluated through quantitative measurements of vascular architecture parameters in the captured CAM images, using computational analysis of texture contrasts and computer vision techniques. Quantitative information was assigned to the CAM vasculature modifications. In vivo, the β₂GPI dimer completely halted the formation of CAM vessels and led to embryo death after 48 h of exposure. The β₂GPI monomer allowed the embryo to develop up to the 10th day, despite early changes of CAM vessels. The impaired normal vessel growth proceeded as a self-limited effect. The β₂GPI monomer-exposed eggs showed reduced vascularization on the 6th day of incubation, but embryos were viable on the 10th day of incubation, with ingurgitated CAM vessels implying sequelae of the angiogenesis inhibition. Both subfractions impaired CAM vasculature development. The β₂GPI dimer proved to be largely more harmful than the β₂GPI monomer. β₂GPI modification by cleavage or dimerization may play a role in angiogenesis control in vivo.

Proinflammatory effects of photoactivated methylene blue on rat model of Walker 256 carcinosarcoma

BACKGROUND

Photodynamic therapy (PDT) is an anticancer therapy that associates the photosensitizer (PS), oxygen and light to destroy cancer cells. Methylene blue (MB) is considered a second generation phenothiazine dye with excellent photochemical properties.

AIM

To evaluate whether MB-mediated PDT can induce oxidative stress and inflammation, therefore, interfering tumor growth.

MATERIALS AND METHODS

The study was conducted on Wistar rats transplanted with Walker 256 carcinosarcoma (W256). The proinflammatory interleukins levels (IL-1β, IL-6, IL-10, TNF-α) were determined by ELISA, mRNA expression of COX-1, COX-2, iNOS and eNOS by RT-PCR, lipid peroxidation was measured by the TBARS method. Moreover, myeloperoxidase (MPO) activity in neutrophils was determined by MPO activity assay. All indices mentioned above were determined in tumor tissue. Kaplan - Meier and Gehan - Breslow - Wilcoxon tests were used for survival analysis.

RESULTS

We found that the treatment of W256 with 0.1% MB + 1 J/cm² provoked a significant increase in the interleukins levels (IL-1β, IL-6, IL-10, TNF-α), prostaglandin E2, the mRNA expression of COX-2, iNOS, lipid peroxidation and MPO activity in tumor tissue, which were statistically different (p < 0.05) compared to other experimental and control groups. The results of the estimation of survival curves show a greater probability of survival in 0.1% MB + 1 J/cm² (total energy dose =142.8 J/cm²) treated group.

CONCLUSION

Our results suggest that treatment of W256 with 0.1% MB + 1 J/cm² was able to promote cytotoxic effects in tumor tissue by the generation of reactive oxygen species causing inflammation and thus interfering in the tumor growth.

Orthotopic tumorgrafts in nude mice as a model to evaluate calcitriol effects in breast cancer

Abstract Calcitriol antiproliferative effects were observed in xenografts of breast cancer cell lines, however they were not yet investigated in tumorgrafts, consisting of freshly collected breast cancer samples xenografted into animals. Objectives To establish a tumorgraft model, from freshly collected breast cancer samples, which were directly implanted in nude mice, to study calcitriol effects. Methods Breast cancer samples collected from 12 patients were orthotopically implanted into nude mice. Animals were treated with weekly intratumoral injections of calcitriol 3 μg/Kg, which was previously shown to induce peak serum calcitriol levels in the predicted therapeutic range. Results Success engraftment rate was 25%. Tumorgrafts were established from aggressive (HER2 positive or histological grade 3) highly proliferative samples and original tumor characteristics were preserved. Calcitriol highly induced its target gene, CYP24A1, indicating that the genomic vitamin D pathway is active in tumorgrafts. However, no differences in the expression of proliferation and apoptosis markers (BrdU incorporation, Ki67, CDKN1A, CDKN1B, BCL2 expression) were observed in these highly proliferative tumor samples. Conclusions Tumorgrafts seem a promising model to explore other calcitriol doses and regimens, considering the heterogeneity of the disease and microenvironment interactions.

Rat visceral yolk sac cells: viability and expression of cell markers during maternal diabetes

The function of the visceral yolk sac (VYS) is critical for embryo organogenesis until final fetal development in rats, and can be affected by conditions such as diabetes. In view of the importance of diabetes during pregnancy for maternal and neonatal health, the objective of this study was to assess fetal weight, VYS cell markers, and viability in female Wistar rats (200-250 g) with induced diabetes (alloxan, 37 mg/kg) on the 8th gestational day (gd 8). At gd 15, rats from control (n=5) and diabetic (n=5) groups were anesthetized and laparotomized to remove the uterine horns for weighing of fetuses and collecting the VYS. Flow cytometry was used for characterizing VYS cells, and for determining mitochondrial activity, cell proliferation, DNA ploidy, cell cycle phases, and caspase-3 activity. Fetal weight was reduced in the diabetic group. Expression of the cell markers CD34, VEGFR1, CD115, CD117, CD14, CCR2, CD90, CD44, STRO-1, OCT3/4, and Nanog was detected in VYS cells in both groups. In the diabetic group, significantly decreased expression of CD34 (P<0.05), CCR2 (P<0.001), and OCT3/4 (P<0.01), and significantly increased expression of CD90 (P<0.05), CD117 (P<0.01), and CD14 (P<0.05) were observed. VYS cells with inactive mitochondria, activated caspase-3, and low proliferation were present in the rats with diabetes. Severe hyperglycemia caused by maternal diabetes had negative effects on pregnancy, VYS cell viability, and the expression of cell markers.

Bovine yolk sac: from morphology to metabolomic and proteomic profiles

In several species, placentation involves the presence of two different membranes responsible for maternal-fetal exchanges: the yolk sac and the chorioallantoic placenta. The yolk sac plays important roles in embryonic survival, mainly during the early stages of gestation. In bovine, it is a transitional membrane that is present until day 50-70 of pregnancy. Herein, we evaluated the morphological and molecular aspects of the yolk sac of bovine embryos during 24 to 52 days of gestation. A total of 69 embryos were allocated into three groups according to the crown-rump length and estimated ages. Yolk sac samples were then subjected to morphological and molecular analysis using mass spectrometry and nuclear magnetic resonance techniques. In contrast to alanine, which was observed only in Group I, during all gestational stages, we identified important metabolites such as aspartate, taurine, glycerophosphocholine, creatinine, creatine, hydrouracil, glutamate, glutamine, lactate, lysine, valine, myo-inositol, cadaverine, and choline. In addition, 314 random sequences of proteins were identified in the bovine yolk sac, and 47 of these were considered to be specific. Changes in alpha-fetoprotein and carcinoembryonic antigen concentrations during gestation were also evaluated. In conclusion, the majority of these proteins are related to the development of secondary metabolites that are involved in the activation of other proteins and metabolites, and in signaling pathways that are responsible for maternal-fetal exchanges, activation of programmed cell death mechanisms, and cellular differentiation, and also in proteins that are responsible for the yolk sac involution that is required to establish chorioallantoic placentation.

Degree of Conversion and Hardness of a Silorane-Based Composite Resin: Effect of Light-Curing Unit and Depth

Purpose

To investigate the effect of different light-curing units and depths on the degree of conversion (DC) through Fourier transform infrared spectroscopy (FTIR) and Knoop Hardness Number (KHN) of a silorane-based composite resin (Filtek LS, 3M ESPE, St Paul, MN, USA) (LS).

Materials and Methods

LS specimens mounted in a particular designed matrix were photoactivated by three light-cure units (LCUs) at depths of 2, 3, 4, and 5 mm. The DC was determined in a FTIR spectrometer with an attenuated total reflectance accessory. The KHN was measured in an automatic microhardness tester. The results were analyzed using the Friedman and Spearman statistical tests (α=0.05).

Results

There was no effect of LCUs on the DC (p=0.472) or KHN (p=0.174) for all of the studied depths. The highest DC and KHN means were found at 2-mm depth, which were not statistically different from 3-mm depth, but were higher than 4-mm and 5-mm depths (p=0.007). Spearman analysis found a positive linear correlation between the variables KHN and DC (r=0.858, p&lt;0.000).

Conclusions

The LCUs' effect was not verified. Values of DC and KHN for LS decreased with increasing depth. The highest values for both DC and KHN were obtained at depths of 2-3 mm.

Synthetic phosphoethanolamine has in vitro and in vivo anti-leukemia effects

Background:

We recently showed that synthetic phosphoethanolamine reduces tumour growth and inhibits lung metastasis in vivo. Here, we investigated its anti-leukaemia effects using acute promyelocytic leukaemia (APL) as a model.

Methods:

Cytotoxic effects of Pho-s on leukaemia cells were evaluated by MTT assay. Leukaemic cells obtained from hCG-PML-RARa transgenic mice were transplanted to NOD/SCID mice. After the animals were diagnosed as leukaemic, treatment started with Pho-s using all-trans retinoid acid or daunorubicin as positive control or and saline control. Cell morphology and immunophenotyping were used to detect the undifferentiated blast cells in the spleen, liver and bone marrow. The induction of apoptosis in vitro and in malignant leukaemic clones was evaluated.

Results:

Synthetic phosphoethanolamine is cytotoxic and induces apoptosis through the mitochondrial pathway in vitro to leukaemia cell lines. In vivo Pho-s exhibits anti-proliferative effects in APL model reducing the number of CD117⁺ and Gr-1⁺ immature myeloid cells in the BM, spleen and liver. Synthetic phosphoethanolamine impairs the expansion of malignant clones CD34⁺/CD117⁺, CD34⁺ and Gr-1⁺ in the BM. In addition, Pho-s induces apoptosis of immature cells in the spleen and liver, a notable effect.

Conclusion:

Synthetic phosphoethanolamine has anti-leukaemic effects in an APL model by inhibiting malignant clone expansion, suggesting that it is an interesting compound for leukaemia treatment.

Evaluation of the contribution of the placentomal fusion during gestation in cattle

The placenta of mammals is a structure formed by the juxtaposition of the fetal membranes and the maternal tissues. The main function of the placenta is to regulate the physiological interchange between the fetus and the mother as well as to operate as an important endocrine organ during the gestation. The placentomal fusions were characterized throughout gestation of cattle using macroscopic, histological and flow cytometry analyses. Analyzing the cell cycle phases with a flow cytometry, a balance between the G2M phase and apoptosis was observed, suggesting that the placentomal fusions do not interfere in the placentary maturation process, which is a pre-requirement for the fetal-maternal disconnection and the release of fetal membrane.

71 WHAT IS THE UTERINE RESPONSE IN A CLONED BOVINE PREGNANCY?

Bovine has a synepitheliochorial placenta and characteristically there is no invasion of the trophoblast, but there is migration of the binucleate trophoblast giant cells into the maternal endometrium. The feto-maternal interface occurs in placentome where a tridimensional organization permits interactions between maternal epithelium and trophoblast, and in the intercaruncular area it is possible to observe a few mini-placentomes and the uterine glands opening. The objective of the present investigation was to study the morphological aspects of the uterus in bovine that had a cloned cattle gestations to understand the differences with natural gestation. The uterus and fetal membranes from natural and cloned cattle gestations were collected, fixed in 10% formaldehyde, processed, and stained for light microscopy and immunohistochemistry. The morphological differences observed in the surrogate uterus were: extensive areas without placentome, hemorrhagic uterine areas, caruncular fusion giving a reduced number of caruncules, increase in size and weight (megacaruncules), and a significant number of mini-caruncules giving miniplacentomes (diameter < 1 cm). In particular the mini-placentome showed functional trophoblastic cells with PAS+ granules in the binucleate trophoblast giant cells and an intense subepithelial capillary organization in maternal and fetal sides. The normal and clone placentomal cell populations were analyzed throughout pregnancy. The population of tetraploid and diploid trophoblastic cells was stained; detached cell cycle and DNA content was measured in FL2 using a FACscalibur flow cytometric system. We determined the percentage of cells in apoptosis (sub-G1), quiescent cells (G0/G1), synthesis (S), and proliferative cells (G2/M) with the aid of ModFit software. In addition, a cell cycle differential analysis was performed, and the tetraploid population presented statistical differences in cell cycle phases and populations relative to the apoptosis rate for the first (7.5 � 3.1%), second (15.2 � 5.0%) and third (17.3 � 4.3%) trimesters. The number of apoptotic cells increased significantly during pregnancy stages. The results showed that first trimester presented the majority of its cells in the G0-G1 phase, starting the cell cycle. On the other hand, the second and third trimesters presented the majority of their cells in the G2-M phase, ending the cell cycle. The relationship between cell cycle phases/rate of apoptosis in mononucleate cells, days of normal and cloned pregnancy, the number of binucleate cells, and their metabolic activity as well as their developmental kinetics could be important data in several studies that involve placental development in natural pregnancy or that derived from laboratory-manipulated embryos. This work was supported by FAPESP and CNPq.

Haematopoietic effects induced in mice by the snake venom toxin jararhagin

Venom toxins have been tested as anti-thrombotic, and anti-metastatic drugs in experimental models. The jararhagin toxin, from Bothrops jararaca snake venom, acts upon several biological processes, as inflammation, pain, platelet aggregation, etc. In this article, the systemic effects of intra-peritoneal injections of different jararhagin doses were determined in mice. About 50% significant decrease was observed in total blood leukocytes in the first (48 ng), and second (24 ng) weeks. The reduction of lymphocytes, monocytes and neutrophils accounted for this leucopoenia up to the sixth week. Significant increase in red blood cells was observed, especially on the third and fourth weeks (6 and 12 ng). A significant reduction in leukocyte infiltration was found in peritoneum (6, 12, 48 ng), whereas the infiltration was significantly increased in bronchial alveolar exudates (6 and 12 ng). The differential analysis of bone marrow cells showed significant increase, particularly of myelocytes (12 and 24 ng). These results show, at low doses, the toxin jararhagin induces red blood cells production, which is compensating the reduction of different leukocyte types. This severe leucopoenia suggests the occurrence of anti-proliferate activity or direct citotoxicity of jararhagin in the differentiation level of myeloid, and lymphoid stem precursor cells.

Resistance to melanoma metastases in mice selected for high acute inflammatory response

The role of innate immunity in natural resistance to tumor progression was investigated in two mouse lines, AIRmax and AIRmin, selected by bi-directional selective breeding on the basis of high or low acute inflammatory response. Compared with AIRmin, AIRmax mice were shown to be resistant to 7,12-dimethylbenz[a]anthracene (DMBA)/12-O:-tetradecanoylphorbol-13-acetate-induced skin cancers and here we demonstrate that AIRmax are also able to restrain the development of metastases upon transfer of MHC compatible, incompatible or xenogeneic melanomas. An acute inflammatory response to melanoma cells was observed in AIRmax mice only, although both lines were found to mount similar specific immune responses to melanoma antigens. The genetically selected lines therefore represent a model system to analyze the positive correlation between multiple resistance to tumorigenesis and host inflammatory responsiveness.

Circumscribed lesion of the medial forebrain bundle area causes structural impairment of lymphoid organs and severe depression of immune function in rats

Interactions between the immune system and the brain are a key element in the pathophysiology of diseases such as multiple sclerosis, neuroAIDS, and Alzheimer's, which affect large numbers of individuals and are associated with a high social cost. However, the neuroanatomical basis of brain-immune interactions has not been elucidated. We report that in Wistar rats of either sex bilateral electrolytic lesion of the medial forebrain bundle reduces body weight by 28% 7 days after lesioning, and causes widespread infections, aphagia, adypsia, structural damage to the lymphoid organs and heavy depression of T lymphocytes cytotoxicity. The following alterations occur in the immune system after those lesions: the weight of the thymus, spleen and lymphonodes is reduced by 77.9%, 49.1% and 48.4%, respectively. The thymus is atrophied and contains fewer lymphoid cells in the cortex than in the medulla. In the spleen the white pulp is reduced and lymphoid cells from periarteriolar zones and at the chords are almost absent. In lymph nodes cortical small lymphocytes are depleted and primary and secondary nodules and germinal centers all but disappear. Cytotoxicity of lymphocytes is reduced by 86.2% in the thymus, 77.6% in the spleen and 70.2% in lymph nodes. The critical area of lesion is at the medialmost portion of the medial forebrain bundle, at the preoptic area and rostral part of the anterior hypothalamus. We suggest that this area contains neural circuits that are crucial for keeping the structure of lymphoid organs and the functional integrity of the immune system.

Effect of genetic modification of acute inflammatory responsiveness on tumorigenesis in the mouse

Two distinct bidirectional selective breedings for quantitative traits were initiated from identical genetically heterogeneous mouse populations. The resulting lines are characterized by maximal or minimal acute inflammatory responsiveness (AIR): AIRmax and AIRmin lines, respectively, and by resistance or susceptibility to chemical skin tumorigenesis: Car-R and Car-S lines, respectively. The AIR response to s.c. injection of polyacrylamide microbeads, measured by cell content in the local exudate, was 10 times higher in AIRmax than in AIRmin mice. The response to selection was asymmetrical: the realized heritability was 0.26 in AIRmax and 0.008 in AIRmin, and resulted from the additive effect of 7-11 quantitative trait loci (QTL). Low responsiveness was globally dominant in F1 and 48% of F2 segregant variance was found to be due to genetic factors. These findings are the first demonstration of innate regulation of AIR by germ line genes. Susceptibility to skin tumorigenesis induced by a two-stage initiation (DMBA)-promotion (TPA) protocol was lower in AIRmax mice than in AIRmin mice, a 6-fold difference in tumor induction rate. Intense AIR was found to be associated with resistance, and low AIR with susceptibility to tumorigenesis, in F2 segregants chosen for extreme AIR phenotypes. At least some of the AIR QTLs therefore contain genes controlling tumorigenesis. Tumor phenotypes differed more in Car-R and Car-S than in AIRmax and AIRmin lines, indicating that QTLs unrelated to AIR, contribute to the host response to tumorigenesis. The extreme phenotypes/genotypes of the four selected lines and the known genetic constitution of their foundation population, offer new possibilities to discriminate the genes/mechanisms controlling two important traits: AIR and response to chemical tumorigenesis. Collaborative projects will be favorably considered. The description of tumor resistance genes in AIRmax and Car-R mice may be helpful for epidemiology and therapy of human cancer.

Mononuclear cell cytotoxicity in rats with Walker 256 tumor

In the present study we characterized the cytotoxicity of Wistar rat mononuclear cells from 21 animals which received 10(6) Walker 256 tumor cells by the subcutaneous route. All animals developed the tumor. Cytotoxicity was studied 15 days after inoculation using spleen, thymus and lymph node T lymphocytes as well as macrophages from the peritoneal cavity. A Walker 256 tumor cell suspension and tumor cells in culture (YAC-1) were labelled with 51Cr and used as target cells, according to the Herberman technique and a gamma counter was used for counting. Anti-Walker cell cytotoxicity was significantly decreased in T lymphocytes from the spleen (9.6% vs 51.1% for the control) and thymus (11.5% vs 38.2% for the control), whereas no difference was observed for lymph nodes (41.2% vs 49.5% for the control) or macrophages (43.4% vs 46.3% for the control). Anti-YAC-1 cytotoxicity was significantly decreased in T lymphocytes from all lymphoid organs compared to control: 23.6% vs 42.8% for the spleen, 22.6% vs 41.1% for the thymus, 26.6% vs 42.1% for lymph nodes, and 27.1% vs 46.3% for macrophages. No correlation was observed between tumor weight, and anti-Walker cytotoxicity or anti-YAC-1 cytotoxicity.

Antitumor effects of rhodium (II) complexes on mice bearing Ehrlich tumors

Rhodium (II) trifluoroacetate (TFARh), rhodium (II) trifluoroacetate adduct with sulfadiazine (TFARh.Sd) and rhodium (II) acetate adduct with sulfisoxazole (RhSx) were tested in mice for acute toxicity, antitumoral activity against Ehrlich ascites carcinoma and for viability of Ehrlich tumor cells in culture. At ip doses up to 60 mumol/kg (40-70 and 59 mg/kg, respectively), these compounds had no toxic effects up to 14 days. At ip doses of 10 mumol kg-1 day-1 for 5 days, TFARh and TFARh.Sd significantly increased the survival rate of mice bearing Ehrlich ascites cells (probability of survival to the end of 34th day, controls = 0.23, TFARh = 0.85, TFARh.Sd = 0.74). No significant effect was observed for RhSx. In vitro, these rhodium complexes at 40 microM significantly increased the number of dead cells in cultured Ehrlich tumor cells.

Differential expression of fibronectin receptors during myeloid differentiation and in marrow- and peripheral blood-derived leukemic cells

A 125I-labeled 120-kDa fibronectin fragment (FN120) containing the RGD binding site was employed to assess FN120 receptor levels in control and dimethylsulfoxide (DMSO)-differentiated HL60 cells, as well as in leukemic peripheral and bone marrow blast cells from acute lymphoid (ALL) and myeloid (AML) patients. Fibronectin CS1 fragment receptor alpha 4 (VLA4-alpha) and RGD-dependent alpha 5 integrin subunits (VLA5-alpha) were characterized by specific monoclonal antibodies (MoAb). HL60 cells, induced along the granulocytic pathway with DMSO, displayed low FN120 binding level densities (36,070 +/- 5142 sites/cell (s/c) vs. 19,780 +/- 4564 s/c, P < 0.005), respectively, for untreated and treated cells) together with decreased VLA5-alpha expression. Granulocytes displayed low levels of FN120 receptors (3167 +/- 1165 s/c) with weak VLA5-alpha expression and absence of VLA4-alpha. Normal lymphocytes displayed 17,670 +/- 8,705 s/c FN120 receptors and VLA4-alpha and VLA5-alpha. The mean FN120 binding levels and mean VLA5-alpha expression were lower in peripheral blast cells, both in ALL and AML, than in the bone marrow leukemic cells. VLA4-alpha remained the same irrespective of cell localization. FN120 binding sites and differential expression of VLA4-alpha and VLA5-alpha integrin molecules on hemopoietic cells could be related to lineage characteristics or cell type distribution within hemopoietic tissue.

Glucocorticoid receptors in mononuclear cells of patients with sepsis

Glucocorticoid receptor (GR) hormone-binding activity was studied by a whole-cell method in mononuclear cells (MNC) from peripheral blood of 7 patients during the hemodynamic compensatory phase of sepsis. 4 patients were receiving dopamine, which did not affect the GR count. The patients' plasma cortisol concentrations were normal or slightly elevated. Despite a wide range, the mean GR count and affinity in MNC from septic patients did not differ from those in normal controls, suggesting that glucocorticoids could still be effective in the hemodynamic compensatory phase of sepsis.

Increased expression of laminin receptors during myeloid differentiation

Variation of laminin receptor levels (LNR) during myeloid-cell differentiation and in acute leukemia were investigated by 125I-laminin-binding determination during HL60 cell differentiation and in cells of patients with different types of leukemia, characterized according to the FAB classification. LNR levels in HL60 cells increased during differentiation, being significantly higher in cells exposed to phorbol myristate acetate (PMA) and ethanol (55,391 +/- 27,845 and 29,314 +/- 6,435 sites/cell respectively) as compared with HL60 controls (8,549 +/- 4,000 sites/cell). The control cells do not adhere to laminin-coated surfaces, but differentiation with PMA results in their rapid adherence on this substratum. Short treatment with PMA does not increase the number of adherent cells or the receptor expression. Granulocytes also presented equally high LNR concentration (29,739 +/- 13,516 sites/cell). The lymphoid cells (lymphocyte, acute lymphoid leukemia and chronic lymphocytic leukemia) shared low LNR numbers (less than 6,500 sites/cell). Myeloid cells displayed a wide range of LN receptors with higher levels being associated with the more differentiated FAB subgroups. 125I-laminin binding to lymphoid or myeloid leukemic cells was mainly inhibited by P1 fragments, whereas granulocytes and differentiated HL60 cells displayed a dual binding pattern for laminin fragments P1 and E8. These results were confirmed by assays using 125I-labelled P1 and E8 fragments. We conclude that magnitude of LNR levels and variation in expression of P1 and E8 receptors appear to be linked to lineage and maturation status in hematopoietic cells.