Specific adhesion of carcinoembryonic antigen-bearing colorectal cancer cells to immobilized carcinoembryonic antigen

Physiology and pathophysiology of selectins, integrins, and IgSF cell adhesion molecules focusing on inflammation. A paradigm model on infectious endocarditis

The development of adhesion bonds, either among cells or among cells and components of the extracellular matrix, is a crucial process. These interactions are mediated by some molecules collectively known as adhesion molecules (CAMs). CAMs are ubiquitously expressed proteins playing a central role in controlling cell migration, proliferation, survival, and apoptosis. Besides their key function in physiological maintenance of tissue integrity, CAMs play an eminent role in various pathological processes such as cardiovascular disorders, atherogenesis, atherosclerotic plaque progression and regulation of the inflammatory response. CAMs such as selectins, integrins, and immunoglobulin superfamily take part in interactions between leukocyte and vascular endothelium (leukocyte rolling, arrest, firm adhesion, migration). Experimental data and pathologic observations support the assumption that pathogenic microorganisms attach to vascular endothelial cells or sites of vascular injury initiating intravascular infections. In this review a paradigm focusing on cell adhesion molecules pathophysiology and infective endocarditis development is given.

A sensitive polymerase chain reaction-based method for detection and quantification of metastasis in human xenograft mouse models

Tumor cell dissemination to distant organs accounts for the majority of cancer related deaths. Analysis of the stepwise process of metastasis formation and progression might provide novel therapeutic strategies for the treatment of disseminated cancer. However, studies with both biological and therapeutic endpoints would require highly sensitive and specific methods for precise quantification of the metastatic tumor burden in vivo. We have developed a quantitative real-time PCR-based assay for the detection and quantification of human tumor cells disseminated in mouse organs. The method relies on the parallel amplification of unique, species-specific, conserved and non-transcribed sequences in the mouse and human genomes. We tested the method in xenograft models to assess the metastatic potential of various cancer cell lines, the impact of injection modality and cell type on organ distribution, and the early stages of metastasis implantation and progression. With this method, we observed clear quantitative differences among colon cancer cell lines in terms of metastasis formation in the lung, consistent with the different in vitro growth properties. The mode of cell implantation and cell intrinsic properties strongly affected the metastatic pattern of prostate and breast cancer cell lines in mouse organs. The qPCR assay accurately determined the malignant cell burden even at early stages of metastasis progression in the lung. We describe a very sensitive assay for the highly reproducible detection and accurate quantification of human metastatic cells in mouse tissues and demonstrate its broad applicability to various experimental settings.

Extracellular N-domain alone can mediate specific heterophilic adhesion between members of the carcinoembryonic antigen family, CEACAM6 and CEACAM8

The domain(s) responsible for the specific heterophilic adhesion between two members of the carcinoembryonic antigen (CEA) family, CEACAM6 and CEACAM8, both of which with three extracellular domains, were investigated using Chinese hamster ovary (CHO) transfectants expressing chimeric antigens. Using a chimeric antigen in which the N-domain, a sole extracellular domain, of CEACAM3 was substituted with that of CEACAM6, it was shown that the N-domain of CEACAM6 alone was able to mediate specific adhesion to CEACAM8. Furthermore, the chimeric antigen was shown to bind significantly to chimeric CEA whose N-domain was substituted with that of CEACAM8, but not to unsubstituted CEA. These results demonstrate that the N-domain alone is sufficient and other domains of CEACAM6 or CEACAM8 are not required for this specific binding. We therefore propose a model of heterophilic interaction between the N-domains, which is distinct from that of CEA-CEA homophilic binding.

Adhesive function of carcinoembryonic antigen in the liver metastasis of KM-12c colon carcinoma cell line

PURPOSE

Both experimental and clinical results reveal that carcinoembryonic antigen (CEA) seems to mediate some important role in the liver metastasis of colorectal carcinoma cells. The intent of this study was to verify whether adhesive function of CEA might affect liver metastasis in the CEA-expressing colon carcinoma cell line, KM-12c.

METHODS

The hepatic binding of [125I]iododeoxyuridine KM-12c cells was measured with or without intravenous CEA pretreatment in four nude mice each. Then, 2 x 10(6) cells of KM-12c were injected into the splenic subcapsule of 57 CEA-pretreated nude mice. KM-12c cells were prepared in phosphate-buffered saline (control, 27 mice) or anti-CEA monoclonal antibody, T84.66 (30 mice). All mice were killed at the end of the eighth week after implant, and tumor nodules were confirmed histologically.

RESULTS

Marginal differences of hepatic sequestration were found between the CEA-pretreated mice and the control group. Splenic tumor occurred in 75 percent (18/24) of the control group and in 40 percent (10/25) of the T84.66-pretreated group (P = 0.0107). Forty-two percent (10/24) incurred liver metastasis in the control group, whereas 20 percent (5/25) did so in the T84.66-pretreated group. The number of splenic tumor cells was significantly related to the number and volume of liver metastasis (P = 0.0065).

CONCLUSIONS

CEA enhanced liver metastasis predominantly by successful primary tumor implant, whereas primary hepatic entrapment also supported it to some extent in a weakly metastatic colon carcinoma cell line, KM-12c. Tumor cell aggregates seem to be mediated by homophilic binding of CEA molecules, and it is an important mechanism to yield liver metastasis.

Induction of carcinoembryonic antigen expression in a three-dimensional culture system

MIP-101 is a poorly differentiated human colon carcinoma cell line established from ascites that produces minimal amounts of carcinoembryonic antigen (CEA), a 180 kDa glycoprotein tumor marker, and nonspecific cross-reacting antigen (NCA), a related protein that has 50 and 90 kDa isoforms, in monolayer culture. However, MIP-101 produces CEA when implanted into the peritoneum of nude mice but not when implanted into subcutaneous tissue. We tested whether three-dimensional (3D) growth was a sufficient stimulus to produce CEA and NCA 50/90 in MIP-101 cells, because cells grow in 3D in vivo rather than in two-dimensions (2D) as occurs in monolayer cultures. To do this, MIP-101 cells were cultured on microcarrier beads in 3D cultures, either in static cultures as nonadherent aggregates or under dynamic conditions in a NASA-designed low shear stress bioreactor. MIP-101 cells proliferated well under all three conditions and increased CEA and NCA production three- to four-fold when grown in 3D cultures compared to MIP-101 cells growing logarithmically in monolayers. These results suggest that 3D growth in vitro simulates tumor function in vivo and that 3D growth by itself may enhance production of molecules that are associated with the metastatic process.

Cell adhesion molecules and colon cancer

There is a general consensus that cell-cell and cell-matrix interactions determine, at least in part, the behaviour of colon cancer. The biological mediators responsible for these interactions are cell adhesion molecules belonging to several major receptor families called integrins, cadherins, the immunoglobulin superfamily, hyaluronate receptors and mucins. Emerging data indicate that certain patterns of adhesion receptor expression are associated with more aggressive disease. The present review examines the role of each of the receptor families in the development and progression of large bowel cancer.

CEA-mediated homotypic aggregation of human colorectal carcinoma cells in a malignant effusion

This study was performed to clarify the role of carcinoembryonic antigen (CEA) in the aggregation of colorectal carcinoma (CRC) cells in malignant effusions. We analysed freshly purified CRC cells from one patient, which expressed CEA (98% positive cells) on the surface and formed huge cell aggregates in the patient's ascites. The carcinoma cells expressed Sialyl Lewis A (82%), Sialyl Lewis X (92%) and the beta 1 integrin subunit (78%) but did not express the pair-ligands for these molecules. Cell aggregation was completely inhibited by anti-CEA mAb. The decreased CEA expression induced by phosphatidylinositol-specific phospholipase C (PI-PLC) treatment led to decreased cell aggregation. We also examined the correlation between the degree of cell aggregation and CEA expression using smears of ascites fluid from 27 patients with colorectal cancer. There was a significant correlation between the degree of cell aggregation and CEA expression by CRC cells. The present study provided the first evidence that CEA molecules mediate the homotypic aggregation of CRC cells in malignant effusions.

A rapid colorimetric assay for carcinoembryonic antigen (CEA)-mediated cell adhesion and analysis of CEA domains involved in the adhesion

A colorimetric microadhesion assay that allows the quantitative determination of carcinoembryonic antigen (CEA)-mediated homophilic cell adhesion to CEA immobilized on 96-well polyvinyl chloride plates is described. Chinese hamster ovary (CHO) cells transfected with a full-length CEA cDNA were used as indicator cells. After dislodging nonadherent cells, specifically bound cells were quantified by a colorimetric analysis based on the ability of live cells to reduce the dye 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) to a blue formazan product. The domains of CEA responsible for the homophilic cell adhesion were analyzed by inhibition assays using anti-CEA monoclonal antibodies whose reactive domains were already known. The involvement of domain N and possibly subdomain A3 of CEA in the homophilic cell adhesion has been suggested.

Normal colonic epithelium adheres to carcinoembryonic antigen and type IV collagen

BACKGROUND/AIMS

Human colorectal carcinoma cells bind to collagen and laminin in the basement membrane as well as to carcinoembryonic antigen (CEA) on neighboring cells. The purpose of this study was to determine whether normal colonic epithelial cells bind to CEA, collagen, or laminin.

METHODS

Intact colonic crypts were isolated from normal mucosa in 13 specimens resected for colorectal carcinoma or colonic diverticulitis. Colonocytes were released from the crypts by treatment with collagenase and deoxyribonuclease and tested for adhesion to CEA, type IV collagen, and laminin in a solid-phase adhesion assay.

RESULTS

Twelve percent to 25% of colonocytes in all specimens bound to CEA. Colonocytes from seven specimens also bound to type IV collagen, but none of the colonocyte preparations bound significantly to laminin. Monoclonal antibodies to CEA and to the hyaluronate receptor CD44 and enzymatic removal of membrane CEA blocked the adhesion of colonocytes to CEA.

CONCLUSIONS

First, colonocytes use the same epitopes on CEA and CD44 as colorectal carcinoma cells to adhere to solid-phase CEA. Second, colonocytes bind to solid-phase CEA through CEA-to-CEA homophilic binding. Third, CEA and type IV collagen, but not laminin, are adhesion ligands for human colonocytes.

Adhesion to carcinoembryonic antigen by human colorectal carcinoma cells involves at least two epitopes

Carcinoembryonic antigen (CEA) may be involved in both cell-cell and cell-substrate adhesion. Our purpose was to determine whether epitopes involved in the homophilic binding of human colorectal carcinoma cells to CEA participated in adhesion to basement membrane proteins. Three human colorectal adenocarcinoma cell lines and one CHO cell line transfected with CEA cDNA were tested in a solid-phase adhesion assay. The 2 CEA-expressing carcinoma cell lines (KM-12c and CCL 188) and the transfectant, but not the parental CHO line, bound to CEA. The CEA-non-producing carcinoma line (Clone A) did not bind to CEA. All colorectal carcinoma cell lines, the transfectant and the parental CHO line bound to laminin, while the colorectal carcinoma lines bound to type-IV collagen. MAbs to epitopes on CEA that cross-react with non-specific cross-reacting antigen (NCA) inhibited adhesion of CEA-expressing cells to CEA. MAbs to non-cross-reactive epitopes of CEA did not block adhesion to CEA. When the inhibitory anti-CEA antibodies were compared in a competitive radioimmunoassay, 2 distinct epitopes were identified. Epitope I is in the N-terminal domain and defined by MAbs MN3, T84.1 and C110, whereas epitope II is located in the repeating loop domains and is recognized by antibodies MN15, PR3B10 and NP1. None of the antibodies to epitope I or II blocked adhesion by KM-12c or CCL 188 cells to laminin or type-IV collagen. Thus, at least 2 different regions on CEA participate in adhesion to CEA but not to collagen or laminin by CEA-expressing human colorectal carcinoma cells.

Patterns of CEA-related antigen expression in invasive squamous carcinoma of the cervix

The recognition of an adhesive role for the CEA-related antigens emphasizes the need for clear demonstration of the changes in CEA expression and subcellular localization between normal and neoplastic tissues. Using a panel of monoclonal and polyclonal antibodies, membranous and cytoplasmic CEA expression was seen in 50 invasive cervical squamous carcinomas in four distinct patterns dependent on tumour type and differentiation. Membranous CEA expression is a marker of differentiation in squamous carcinomas and may influence tumour behaviour and hence patient survival. Strong CEA positivity was seen on the endothelium of vessels containing tumour in ten cases where vascular metastases were prominent. Staining of these ten cases revealed concomitant sialated Lewis X positivity in tumour cells with weak endothelial positivity in three cases; cervical squamous tumour cells may localize to vascular endothelium, and hence disseminate, through specific binding of CEA and/or sialated Lewis X.

Homophilic adhesion between Ig superfamily carcinoembryonic antigen molecules involves double reciprocal bonds

Both carcinoembryonic antigen (CEA) and neural cell adhesion molecule (NCAM) belong to the immunoglobulin supergene family and have been demonstrated to function as homotypic Ca(++)-independent intercellular adhesion molecules. CEA and NCAM cannot associate heterotypically indicating that they have different binding specificities. To define the domains of CEA involved in homotypic interaction, hybrid cDNAs consisting of various domains from CEA and NCAM were constructed and were transfected into a CHO-derived cell line; stable transfectant clones showing cell surface expression of CEA/NCAM chimeric-proteins were assessed for their adhesive properties by homotypic and heterotypic aggregation assays. The results indicate that all five of the Ig(C)-like domains of NCAM are required for intercellular adhesion while the COOH-terminal domain containing the fibronectin-like repeats is dispensable. The results also show that adhesion mediated by CEA involves binding between the Ig(V)-like amino-terminal domain and one of the Ig(C)-like internal repeat domains: thus while transfectants expressing constructs containing either the N domain or the internal domains alone were incapable of homotypic adhesion, they formed heterotypic aggregates when mixed. Furthermore, peptides consisting of both the N domain and the third internal repeat domain of CEA blocked CEA-mediated cell aggregation, thus providing direct evidence for the involvement of the two domains in adhesion. We therefore propose a novel model for interactions between immunoglobulin supergene family members in which especially strong binding is effected by double reciprocal interactions between the V-like domains and C-like domains of antiparallel CEA molecules on apposing cell surfaces.

Carcinoembryonic antigen mediates in vitro cell aggregation induced by interferon-gamma in a human colon cancer cell line: requirement for active metabolism and intact cytoskeleton

The homotypic cell aggregation of a carcinoembryonic antigen (CEA) positive colon cancer cell line (Colo 205) was induced in vitro by interferon-gamma (IFN-gamma) treatment. Divalent cations were required for this aggregation, as it was inhibited by EDTA. The partial inhibition by cytochalasin B and the complete inhibition by a mixture of sodium azide and 2-deoxyglucose suggests that the aggregation requires the integrity of cytoskeleton and active metabolism. The expression of CEA was increased in the cytoplasm and on the membrane of Colo 205 by IFN-gamma treatment. Furthermore, this aggregation was inhibited completely by anti-CEA monoclonal antibody (mAb) and partially by mAb against intercellular adhesion molecule-1. This in vitro study suggests that CEA molecule participates in the IFN-gamma induced homotypic adhesion of some CEA positive cancer cells and that IFN-gamma has an important role in the regulation of cell-cell interaction mediated by CEA molecule.