Upregulation of galectins‐1 and ‐3 in human colon cancer and their role in regulating cell migration

Hittelet, Axel-Benoit; Legendre, Hugues; Nagy, Nathalie; Bronckart, Yves; Pector, Jean Claude; Salmon, Isabelle; Yeaton, Paul; Gabius, Hans‐Joachim; Kiss, Róbert; Camby, Isabelle

doi:10.1002/ijc.10843

Cited by 141 publications

(113 citation statements)

References 48 publications

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“…recent evidence suggests that the interaction between tumor cells and surrounding stroma plays a critical role in tumor growth, invasion, metastasis, angiogenesis, and chemoresistance (29)(30)(31)(32)(33)(34). It has been shown that galectin-1 regulates cell migration and that galectin-1 binding sites are displayed on cell surfaces in most colon cancer cell lines, while only one of them actually expresses galectin-1 (16). taken together, galectin-1 expression by stroma may play a role in colon cancer cell migration via a paracrine mechanism.…”

Section: Discussionmentioning

confidence: 99%

Clinical significance of circulating galectins as colorectal cancer markers

et al. 2011

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Abstract. the utility of ceA and cA19-9 as colorectal carcinoma (crc) markers is limited and development of additional reliable markers is under investigation. We previously showed that galectin-1 is overexpressed in crc tissues. If such a protein leaks into the peripheral circulation, it might constitute a tumor marker candidate. Here, we test the hypothesis that the levels of circulating galectins could reflect the presence of crc and/or its progression state. We constructed sandwich elIsAs for galectin-1/-2/-3/-4/-7 and determined their plasma concentrations in 105 crc patients and 100 healthy volunteers (control). Matched pair samples of 56 patients pre-and post-surgery were also subjected to elIsA analysis. circulating levels of galectin-1/-3/-4 in crc patients were significantly higher compared to those in controls. Galectin-1 and galectin-4 levels significantly decreased after surgery (p<0.01), and the level of galectin-4 in most patients fell below the cut-off value. the levels of circulating galectin-4 significantly increased as the tumor stage progressed (P<0.001), whereas those for galectin-1 were relatively high from an early stage. combined use of galectin-4 with ceA and/or cA19-9 markedly increased the proportion of crc patients who were positive for tumor markers (from 33.3 to 59.0% for ceA and from 17.1 to 51.4% for cA19-9). our data show that galectin-4 may be a tumor marker for use in patient follow-up, while galectin-1 could be used for tumor screening. In particular, galectin-4 can be useful as a complementary marker when combined with ceA/cA19-9 to improve crc follow-up.

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Section: Discussionmentioning

confidence: 99%

Clinical significance of circulating galectins as colorectal cancer markers

et al. 2011

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“…18 The specificity of the galectin-3 antibody was checked by immunoblotting and ELISA assays with controls to exclude any crossreactivity to other galectins (especially galectin-1, which is abundant in human lungs), as previously detailed. [18][19][20]33 An internal positive control consisted in the expression of galectin-3 (also labeled Mac-2) by alveolar macrophages. The negative control sections were immunostained under the same conditions, but with the omission of the primary antibody.…”

Section: Galectin-3 Expression In Lung Carcinomasmentioning

confidence: 99%

“…15,16 Galectins are involved in cell growth, apoptosis and cell migration features. [17][18][19][20] Of these 14 galectins, galectin-3, a chimera-type galectin, is of special interest since its structure harbors a sugar-combining site, a collagensensitive stalk and a short N-terminated section, acting as a target for phosphorylation. 21 What is particularly intriguing about this sole chimera-type galectin is its presence in nuclear, cytoplasmic and extracellular sites, 22 its ability to interact with a variety of carbohydrate and protein ligands and to form pentamers with unique crosslinking abilities, 23 its strong antiapoptotic activity coupled with the nuclear export of the phosphorylated form (for example in chemotherapeutic treatment), 24 and its effect on promoter activity of cyclin D1, 25 which is a prognostic marker in the adenocarcinoma subgroup of lung carcinomas.…”

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confidence: 99%

Nuclear galectin-3 expression is an independent predictive factor of recurrence for adenocarcinoma and squamous cell carcinoma of the lung

et al. 2005

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The tumor stage is the most powerful prognostic tool for predicting the survival rates of lung carcinoma patients. However, prognosis of individual patients is difficult in part because of the marked clinical heterogeneity among such patients. Galectins are involved in cell growth, apoptosis and cell migration features, and their diagnostic and prognostic values have already been demonstrated in various types of cancers.In the present paper we analyze the potential prognostic value of immunohistochemical galectin-3 expression in lung adenocarcinomas and squamous cell carcinomas. In all, 165 squamous cell carcinomas and 121 adenocarcinomas were immunostained for galectin-3. In each case the immunohistochemical analyses consisted of an evaluation of the percentage of tumor cells stained and the intensity of staining. An IP score (ie Intensity Â Percentage) was thus determined for each lung carcinoma. A large majority of cases displayed galectin-3 expression. While the cytoplasmic staining in the squamous cell carcinomas was focal and moderately intense, the staining in the adenocarcinomas was diffuse and intense. The IP scores were significantly (P ¼ 0.0001) higher in the adenocarcinomas than in the squamous cell carcinomas. The difference in nuclear expression profiles between the two cancer types was statistically significant (P ¼ 0.0005). Cox multivariate analysis carried out on the patients' genders, the TNM classification and the galectin-3-related variables showed that of the galectin-3-related variables, only the nuclear location of galectin-3 was identified as a prognostic indicator of recurrence independent of the clinicopathological features characterizing the patients (P ¼ 0.02). The prognostic contribution of this latter variable was enhanced when the patients with relapse-free follow-ups longer than 8 months were considered (P ¼ 0.005). Galectin-3 immunohistochemical expression differs between squamous cell carcinomas and adenocarcinomas, but the nuclear expression of galectin-3 behaves as a significant prognostic predictor for all the cases as a group.

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“…59 Furthermore, galectin-3 itself can bind LNs, 60 and multimeric galectin-3 complexes are known to influence cell adhesion and migration. Thus, galectin-3 has been shown to reduce migration of colon carcinoma cells 61 and to support migration of breast cancer cells. 62 Previously, galectin-3 was shown to interact with a3b1 and NG2 proteoglycan, with an impact on cell motility.…”

Section: C44a Associates With Galectin-3mentioning

confidence: 99%

Ly6 family member C4.4A binds laminins 1 and 5, associates with galectin‐3 and supports cell migration

Paret

Bourouba

et al. 2005

Intl Journal of Cancer

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C4.4A is a member of the Ly6 family, with low homology to uPAR. It has been detected mainly on metastasizing carcinoma cells and proposed to be involved in wound healing. So far, C4.4A has been observed as an orphan receptor, and its functional activity has not been explored. Using recombinant rat C4.4A (rrC4.4A) made in a eukaryotic expression system, we demonstrate by immunohistology that C4.4A ligands are strongly expressed in tissues adjacent to squamous epithelia of, e.g., tongue and esophagus, the expression pattern partly overlapping with laminin (LN) and complementing the C4.4A expression that is found predominantly on the basal layers of squamous epithelium. ELISA screening of several components of the extracellular matrix revealed selective binding of rrC4.4A to LN1 and LN5 and that transfection of the BSp73AS tumor line with C4.4A cDNA (BSp73AS-1B1) promoted LN1 and LN5 binding. Binding of BSp73AS-1B1 to LN5 and, less markedly, LN1 induced spreading, lamellipodia formation and migration. C4.4A also associates with galectin-3 in nontransformed tissues and tumor lines. There is evidence that the association of C4.4A with galectin-3 influences LN adhesion. C4.4A was described originally as a metastasis-associated molecule. Our findings that LN1 and LN5 are C4.4A ligands, that galectin-3 associates with C4.4A and that C4.4A ligand binding confers a migratory phenotype are well in line with the supposed metastasis association. ' 2005 Wiley-Liss, Inc.Key words: C4.4A; laminin; galectin; cell migration LNs are adhesive glycoproteins found in the basement membrane. Fifteen LN isoforms have been identified. 1 LN isoforms are tissue-specific and expressed in a developmentally regulated pattern. 2,3 Cell adhesion to LN plays an important role in maintaining normal tissue organization. LNs promote cell adhesion and migration, 4 are involved in the control of cell proliferation and gene expression 5 and stimulate neurite outgrowth, 6 the multitude of functions being brought about by a large array of receptors. 7 The most prominent LN receptors are integrins, but distinct receptors have also been described, e.g., a-dystroglycan, syndecans, the 67 kDa LN receptor and galectins. 7,8 a-Dystroglycan provides a link between the basement membrane and the dystrophin-actin cytoskeleton. 9 Its binding to LN is Ca 2þ -dependent 10 and requires carbohydrate moieties. 11 Binding of syndecans 2 and 4 to LN5 induces expression of MMP-1. 12 Moreover, syndecan 1 interacts with unprocessed LN5 in migrating keratinocytes, and this interaction depends on the presence of the glycosaminoglycan chain. 13 Galectins belong to the family of galactose-specific lectins and bind the lactosamine-type sugars on LN1. 8 However, at high concentrations, galectins 3 and 1 can downregulate adhesion to LN, probably by blocking the cellular attachment sites. 14,15 The 67 kDa LN receptor can act in concert with a6b4 to promote cell adhesion to LN1. 16 It is also involved in the degradation of LN1 and the release of motility fragments. 17 The GPI-ancho...

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Upregulation of galectins‐1 and ‐3 in human colon cancer and their role in regulating cell migration

Cited by 141 publications

References 48 publications

Clinical significance of circulating galectins as colorectal cancer markers

Clinical significance of circulating galectins as colorectal cancer markers

Nuclear galectin-3 expression is an independent predictive factor of recurrence for adenocarcinoma and squamous cell carcinoma of the lung

Ly6 family member C4.4A binds laminins 1 and 5, associates with galectin‐3 and supports cell migration

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