Consequences of the expression of sialylated antigens in breast cancer

Changes in cell surface glycosylation are common modifications that occur during oncogenesis, leading to the over-expression of tumour-associated carbohydrate antigens (TACA). Most of these antigens are sialylated and the increase of sialylation is a well-known feature of transformed cells. In breast cancer, expression of TACA such as sialyl-Lewis^x or sialyl-Tn is usually associated with a poor prognosis and a decreased overall survival of patients. However, the specific role of these sialylated antigens in breast tumour development and aggressiveness is not clearly understood. These glycosylation changes result from the modification of the expression of genes encoding specific glycosyltransferases involved in glycan biosynthesis and the level of expression of sialyltransferase genes has been proposed to be a prognostic marker for the follow-up of breast cancer patients. Several human cellular models have been developed in order to explain the mechanisms by which carbohydrate antigens can reinforce breast cancer progression and aggressiveness. TACA expression is associated with changes in cell adhesion, migration, proliferation and tumour growth. In addition, recent data on glycolipid biosynthesis indicate an important role of G_D3 synthase expression in breast cancer progression. The aim of this review is to summarize our current knowledge of sialylation changes that occur in breast cancer and to describe the cellular models developed to analyze the consequences of these changes on disease progression and aggressiveness.     

Different modes of sialyl-Tn expression during malignant transformation of human colonic mucosa

Monoclonal antibodies TKH2 and B72.3, which react with the mucin-associated sialyl-Tn(STn) antigen, preferentially bind to cancerous but not normal colonic tissues. If O-acetyl groups are removed by saponification of tissues, MAb TKH2 will react with normal colonocytes, whereas MAb B72.3 remains non-reactive. To explain this difference in binding specificity, we tested both MAbs against synthetic constructs of single (monomeric) or clustered (trimeric) STn epitopes by enzyme immunoassay. Both MAb TKH2 and MAb B72.3 reacted with trimeric STn, but MAb TKH2 demonstrated greater binding than MAb B72.3 to monomeric STn. This suggests that normal colonic mucosa expresses monomeric STn epitopes, but that with transformation to malignancy, clustered STn epitopes appear. The appearance of clustered STn epitopes during colonic carcinogenesis represents a novel pattern of carbohydrate antigen expression and implicates alterations at the level of apomucins and/or glycosyltransferases responsible for cluster epitope formation.     

Sialosignaling: Sialyltransferases as engines of self-fueling loops in cancer progression

Background

Glycosylation is increasingly recognized as one of the most relevant postranslational modifications. Sialic acids are negatively charged sugars which frequently terminate the carbohydrate chains of glycoproteins and glycolipids. The addition of sialic acids is mediated by sialyltransferases, a family of glycosyltransferases with a crucial role in cancer progression.

Scope of the review

To describe the phenotypic and clinical implications of altered expression of sialyltransferases and of their cognate sialylated structures in cancer. To propose a unifying model of the role of sialyltransferases and sialylated structures on cancer progression.

Major conclusions

We first discuss the biosynthesis and the role played by the major cancer-associated sialylated structures, including Thomsen–Friedenreich-associated antigens, sialyl Lewis antigens, α2,6-sialylated lactosamine, polysialic acid and gangliosides. Then, we show that altered sialyltransferase expression in cancer, consequence of genetic and epigenetic alterations, generates a flow of information toward the membrane through the biosynthesis of aberrantly sialylated molecules (inside-out signaling). In turn, the presence of aberrantly sialylated structures on cell membrane receptors generates a flow of information toward the nucleus, which can exacerbate the neoplastic phenotype (outside-in signaling). We provide examples of self-fueling loops generated by these flows of information.

General significance

Sialyltransferases have a wide impact on the biology of cancer and can be the target of innovative therapies. Our unified view provides a conceptual framework to understand the impact of altered glycosylation in cancer.     

Enzymatic basis for sialyl-Tn expression in human colon cancer cells

Sialyl-Tn antigen (SA2-6 GalNAc-Ser/Thr) is expressed as a cancer-associated antigen on the surface of cancer cells and its expression correlates with a poor prognosis in patients with colorectal and other adenocarcinomas. To understand the enzymatic basis of sialyl-Tn (STn) antigen expression, we used two clonal cell lines, LSB and LSC, derived from LS174T human colonic cancer cells. LSC cells express only the truncated carbohydrate antigen Tn (GalNAc-Ser/Thr) and sialyl-Tn on their mucin molecules, whereas LSB cells express elongated oligosaccharide chains. Both cell lines demonstrated similar activities of glycosyltransferases involved in the biosynthesis of elongated and terminal structures of complex O-glycans. However, LSC cells were unable to synthesize core 1 (Gal1-3GalNAc-) because the ubiquitous enzyme activity of UDP-Gal:GalNAc-R 3-Gal-transferase (core 1 3-Gal-transferase) was lacking. Core 1 3-Gal-transferase could not be reactivated in LSC cells by treatment with sodium butyrate or by in vivo growth of LSC cells in nude mice. In contrast, LSB cells were able to synthesize and process core 1 and core 2 (GlcNAc1-6 (Gal1-3) GalNAc-). LSC cells represent the first example of a non-hematopoietic cell line which lacks core 1 3-Gal-transferase activity. The lack of core 1 3-Gal-transferase in LSC cells explains why they are incapable of forming the common mucin O-glycan core structures and are committed to synthesizing the short Tn and STn oligosaccharides. These findings suggest that the activity of core 1 3-Gal-transferase is an important determinant of the STn phenotype of colon cancer cells.     

糖抗原sTn是Ⅰ型子宫内膜癌的新型标记物

Sialyl-Tn(sTn)是肿瘤相关糖抗原的一种,在多种上皮来源的肿瘤组织中都存在sTn的过表达．但是,关于sTn在子宫内膜癌中的表达情况目前研究得很少,而且仅有的报道也互相矛盾．为了阐明这一问题,我们选取了111例临床样本,其中包括82例子宫内膜癌,16例非典型增生内膜,13例正常内膜,利用免疫组化的方法分析了sTn的表达情况．结果表明,sTn在子宫内膜癌中高表达,但仅限于Ⅰ型子宫内膜癌(80%),而在Ⅱ型子宫内膜癌中表达率仅为45%,二者具有显著性差异(P < 0.05)．这是我们首次报道sTn特异性与Ⅰ型子宫内膜癌相关,有利于解释过去前后不一的矛盾结果．在非典型组织中,sTn的表达率较正常组织高,分别为31%(正常组织)和44%(非典型组织)．这说明sTn参与了子宫内膜癌的发生发展．同时,我们的结果表明,sTn的表达与肿瘤的组织分级具有相关性,其在高、中分化的肿瘤组织中表达率明显高于低分化的肿瘤组织．这预示着sTn可能与子宫内膜癌的良好预后相关．我们的研究为诊断Ⅰ型子宫内膜癌提供了一个新的标记物和诊断试剂,同时提示我们,将来对于子宫内膜癌的研究,有必要对Ⅰ型子宫内膜癌和Ⅱ型子宫内膜癌区别对待．     

Specificities of anti-sialyl-Tn and anti-Tn monoclonal antibodies generated using novel clustered synthetic glycopeptide epitopes

The fine specificities of MAbs generated using novel synthetic clustered STn and Tn glycopeptides as immunogens were compared with the anti-TAG-72 antibodies B72.3 and CC49. Hapten inhibition experiments demonstrated the specificity of several of the MAbs for STn and Tn expressed on ovine submaxillary mucin and tumor derived MUC-1 mucin. Amongst the STn specific MAbs only the B195.3 MAb shows absolute dependence on the presence of sialic acid and specificity to the simple disaccharide NANAA α2-6-GalNAc. Identification of tumor associated carbohydrate epitopes in cluster and monomer configurations are possible using MAbs detecting the defined structure specificities described herein. This revised version was published online in November 2006 with corrections to the Cover Date.     

ST6GalNAc I expression in MDA-MB-231 breast cancer cells greatly modifies their O-glycosylation pattern and enhances their tumourigenicity

Sialyl-Tn is a carbohydrate antigen overexpressed in several epithelial cancers, including breast cancer, and usually associated with poor prognosis. Sialyl-Tn is synthesized by a CMP-Neu5Ac:GalNAcalpha2,6-sialyltransferase: CMP-Neu5Ac: R-GalNAcalpha1-O-Ser/Thr alpha2,6-sialyltransferase (EC 2.4.99.3) (ST6GalNAc I), which transfers a sialic acid residue in alpha2,6-linkage to the GalNAcalpha1-O-Ser/Thr structure. However, established breast cancer cell lines express neither ST6GalNAc I nor sialyl-Tn. We have previously shown that stable transfection of MDA-MB-231, a human breast cancer cell line, with ST6GalNAc I cDNA induces sialyl-Tn antigen (STn) expression. We report here the modifications of the O-glycosylation pattern of a MUC1-related recombinant protein secreted by MDA-MB-231 sialyl-Tn positive cells. We also show that sialyl-Tn expression and concomitant changes in the overall O-glycan profiles induce a decrease of adhesion and an increase of migration of MDA-MB-231. Moreover, STn positive clones exhibit an increased tumour growth in severe combined immunodeficiency (SCID) mice. These observations suggest that modification of the O-glycosylation pattern induced by ST6GalNAc I expression are sufficient to enhance the tumourigenicity of MDA-MB-231 breast cancer cells.