André Danguy scite author profile

We show that high-grade astrocytic tumors with high levels of galectin-1 expression are associated with dismal prognoses. The immunohistochemical analysis of galectin-1 expression of human U87 and U373 glioblastoma xenografts from the brains of nude mice revealed a higher level of galectin-1 expression in invasive areas rather than non-invasive areas of the xenografts. Nude mice intracranially grafted with U87 or U373 cells constitutively expressing low levels of galectin-1 (by stable transfection of an expression vector containing the antisense mRNA of galectin-1) had longer survival periods than those grafted with U87 or U373 cells expressing normal levels of galectin-1. Galectin-1 added to the culture media markedly and specifically increased cell motility levels in human neoplastic astrocytes. These effects are related to marked modifications in the organization of the actin cytoskeleton and the increase in small GTPase RhoA expression. All the data obtained indicate that galectin-1 enhances the migratory capabilities of tumor astrocytes and, therefore, their biological aggressiveness.

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Galectin-1 is highly expressed in human gliomas with relevance for modulation of invasion of tumor astrocytes into the brain parenchyma

Rorive

Belot²,

Decaestecker

et al. 2001

Glia

140

110

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Protein (lectin)‐carbohydrate interaction is supposed to be relevant for tumor cell behavior. The aims of the present work are to investigate whether galectin‐1 modulates migration/invasion features in human gliomas in vitro, whether it can be detected in human gliomas immunohistochemically, and whether its expression is attributable to certain glioma subgroups with respect to invasion and prognosis. For this purpose, we quantitatively determined (by computer‐assisted microscopy) the immunohistochemical expression of galectin‐1 in 220 gliomas, including 151 astrocytic, 38 oligodendroglial, and 31 ependymal tumors obtained from surgical resection. We also xenografted three human glioblastoma cell lines (the H4, U87, and U373 models) into the brains of nude mice in order to characterize the in vivo galectin‐1 expression pattern in relation to tumor invasion of the normal brain parenchyma. In addition, we characterized the role in vitro of galectin‐1 in U373 tumor astrocyte migration and kinetics. Our data reveal expression of galectin‐1 in all human glioma types with no striking differences between astrocytic, oligodendroglial, and ependymal tumors. The level of galectin‐1 expression correlated with the grade in the group of astrocytic tumors only. Furthermore, immunopositivity of high‐grade astrocytic tumors from patients with short‐term survival periods was stronger than that of tumors from patients with long‐term survivals. In human glioblastoma xenografts, galectin‐1 was preferentially expressed in the more invasive parts of these xenografts. In vitro experiments revealed that galectin‐1 stimulates migration of U373 astrocytes. GLIA 33:241–255, 2001. © 2001 Wiley‐Liss, Inc.

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Galectin-8 expression decreases in cancer compared with normal and dysplastic human colon tissue and acts significantly on human colon cancer cell migration as a suppressor

Nagy¹,

Bronckart²,

Camby³

et al. 2002

109

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Background and aims: Galectins are β-galactoside binding proteins. This ability may have a bearing on cell adhesion and migration/proliferation in human colon cancer cells. In addition to galectins-1 and -3 studied to date, other members of this family not investigated in detail may contribute to modulation of tumour cell features. This evident gap has prompted us to extend galectin analysis beyond the two prototypes. The present study deals with the quantitative determination of immunohistochemical expression of galectin-8 in normal, benign, and malignant human colon tissue samples and in four human colon cancer models (HCT-15, LoVo, CoLo201, and DLD-1) maintained both in vitro as permanent cell lines and in vivo as nude mice xenografts. The role of galectin-8 (and its neutralising antibody) in cell migration was investigated in HCT-15, LoVo, CoLo201, and DLD-1 cell lines. Methods: Immunohistochemical expression of galectin-8 and its overall ability to bind to sugar ligands (revealed glycohistochemically by means of biotinylated histochemically inert carrier bovine serum albumin with α-and β-D-galactose, α-D-glucose, and lactose derivatives as ligands) were quantitatively determined using computer assisted microscopy. The presence of galectin-8 mRNA in the four human colon cancer cell lines was examined by reverse transcriptase-polymerase chain reaction. In vitro, cellular localisation of exogenously added galectin-8 in the culture media of these colon cancer cells was visualised by fluorescence microscopy. In vitro galectin-8 mediated effects (and the influence of its neutralising antibody) on migration levels of living HCT-15, LoVo, CoLo201, and DLD-1 cells were quantitatively determined by computer assisted phase contrast microscopy. Results: A marked decrease in immunohistochemical expression of galectin-8 occurred with malignancy development in human colon tissue. Malignant colon tissue exhibited a significantly lower galectin-8 level than normal or benign tissue colon cancers; those with extensive invasion capacities (T3-4/N+/M+) harboured significantly less galectin-8 than colon cancers with localised invasion capacities (T1-2/N0/M0). The four experimental models (HCT-15, LoVo, CoLo201, and DLD-1) had more intense galectin-8 dependent staining in vitro than in vivo. Grafting the four experimental human colon cancer models onto nude mice enabled us to show that the immunohistochemical expression of galectin-8 was inversely related to tumour growth rate. In vitro, galectin-8 reduced the migration rate of only those human experimental models (HCT-15 and CoLo201) that exhibited the lowest growth rate in vivo. Conclusions: Expression of galectin-8 correlated with malignancy development, with suppressor activity, as shown by analysis of clinical samples and xenografts. In vitro, only the two models with low growth rates were sensitive to the inhibitory potential of this galectin. Future investigations in this field should involve fingerprinting of these newly detected galectins, transcending the common focus o...

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Galectin-1 Is Overexpressed in Nasal Polyps under Budesonide and Inhibits Eosinophil Migration

Delbrouck

Doyen

Belot

et al. 2002

Laboratory Investigation

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SUMMARY:Because of the importance of galectins for various cellular activities, the influence of the glucocorticoid budesonide on the level of expression of galectins-1 and -3 was investigated in human nasal polyposis. Ten nasal polyps obtained from surgical resection were maintained for 24 hours in the presence of various concentrations of budesonide. As quantitatively demonstrated by means of computer-assisted microscopy, 250 ng/ml (the highest dose tested) induced a pronounced increase of galectin-1 expression. This feature was observed in nasal polyps from allergic patients but not in those from nonallergic patients. Since eosinophils represent the main inflammatory cell population in nasal polyps, we investigated the effect of galectin-1 on their migration levels by means of quantitative phase-contrast computer-assisted videomicroscopy. Our results show that galectin-1 (coated on plastic supports) markedly reduced the migration levels of eosinophils in comparison to P-selectin. On the cellular level, marked modifications in the polymerization/depolymerization dynamics of the actin cytoskeleton (as revealed by means of computer-assisted fluorescence microscopy) and, to a much lesser extent, an increase in the adhesiveness of eosinophils to tested substrata were detectable. The present study therefore reveals a new galectin-1-mediated mechanism of action for glucocorticoid-mediated anti-inflammatory effects. (Lab Invest 2002, 82:147-158).

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Determination of the Levels of Expression of Sarcolectin and Calcyclin and of the Percentages of Apoptotic But Not Proliferating Cells to Enable Distinction Between Recurrent and Nonrecurrent Cholesteatomas

et al. 1999

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The present data emphasize the existence of distinct subgroups of cholesteatomas identifiable at both cell kinetic and differentiation levels. Some of the biological variables used here to identify distinct biological subgroups of cholesteatomas in turn enabled some biological variables to be identified, so making it possible to classify the cholesteatomas in terms of recurrence versus nonrecurrence.

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Influence of Gastrin on Human Astrocytic Tumor Cell Proliferation

Camby

Salmon

Danguy

et al. 1996

JNCI Journal of the National Cancer Institute

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Evidence for Stimulation of Tumor Proliferation in Cell Lines and Histotypic Cultures by Clinically Relevant Low Doses of the Galactoside-Binding Mistletoe Lectin, A Component of Proprietary Extracts

Gabius¹,

Darro²,

Remmelink³

et al. 2001

Cancer Investigation

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The toxic galactoside-specific lectin from mistletoe, a component of proprietary extracts with unproven efficacy in oncology, exhibits capacity to trigger enhanced secretion of proinflammatory cytokines at low doses (ng/ml or ng/kg body weight) and reductions of cell viability with increasing concentrations. To infer any tumor selectivity of this activity, cytofluorimetric and cell growth assays with a variety of established human tumor cell lines were performed. Only quantitative changes were apparent, and the toxicity against tumor cells was within the range of that of the tested fibroblast preparations from 5 donors. No indication for any tumor selectivity was observed. In kinetic studies with 8 sarcoma and 4 melanoma lines, this evidence for quantitative variability of the response in interindividual comparison was further underscored. At 50 pg lectin/ml x 10(5) cells, even a growth-stimulatory impact was noted in 5 of 12 tested cases. To mimic in vivo conditions with presence of cytokine-secreting inflammatory and stromal cells, exposure to the lectin was extended to histotypic cultures established from 30 cases of surgically removed tumor. As salient result, 5 specimens from 4 of the 8 tested tumor classes responded with a significant increase of [3H]-thymidine incorporation relative to controls during the culture period of 72 hours, when the lectin was present at a concentration in the described immunomodulatory range (1 ng/ml). A relation of this activity to the extent of the actual proliferative status of the reactive samples could not be delineated. Therefore, a non-negligible percentage of the established tumor cell lines (e.g., 3 from 8 sarcoma lines) can be markedly stimulated by the lectin at a very low dose and with dependence on the cell type. Furthermore, the feasibility to elicit a significant growth enhancement is likewise documented for human tumor explants in 16.6% of the examined cases. In view of the uncontrolled application of lectin-containing extracts in alternative/complementary medicine, the presented results on unquestionably adverse lectin-dependent effects in two culture systems call for rigorous examination of the clinical safety of this unconventional, scientifically entirely experimental treatment modality.

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André Danguy

Galectins and cancer

Galectin-1 Modulates Human Glioblastoma Cell Migration into the Brain Through Modifications to the Actin Cytoskeleton and Levels of Expression of Small GTPases

Galectin-1 is highly expressed in human gliomas with relevance for modulation of invasion of tumor astrocytes into the brain parenchyma

Galectin-8 expression decreases in cancer compared with normal and dysplastic human colon tissue and acts significantly on human colon cancer cell migration as a suppressor

Galectin-1 Is Overexpressed in Nasal Polyps under Budesonide and Inhibits Eosinophil Migration

Determination of the Levels of Expression of Sarcolectin and Calcyclin and of the Percentages of Apoptotic But Not Proliferating Cells to Enable Distinction Between Recurrent and Nonrecurrent Cholesteatomas

Influence of Gastrin on Human Astrocytic Tumor Cell Proliferation

Evidence for Stimulation of Tumor Proliferation in Cell Lines and Histotypic Cultures by Clinically Relevant Low Doses of the Galactoside-Binding Mistletoe Lectin, A Component of Proprietary Extracts

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