Immunolocalization of integrins in the normal and neoplastic colonic epithelium

Extracellular Vesicle Integrins Distinguish Unique Cancers

The proteomic profile of extracellular vesicles (EVs) has been of increasing interest, particularly in understanding cancer growth, drug resistance, and metastatic behavior. Emerging data suggest that cancer-derived EVs carry an array of oncogenic cargo, including certain integrin proteins that may, in turn, promote cell detachment, migration, and selection of future metastatic sites. We previously reported a large comparison of secreted vesicle protein cargo across sixty diverse human cancer cell lines. Here, we analyze the distinct integrin profiles of these cancer EVs. We further demonstrate the enrichment of integrin receptors in cancer EVs compared to vesicles secreted from benign epithelial cells. The total EV integrin levels, including the quantity of integrins α6, αv, and β1 correlate with tumor stage across a variety of epithelial cancer cells. In particular, integrin α6 also largely reflects breast and ovarian progenitor cell expression, highlighting the utility of this integrin protein as a potential circulating biomarker of certain primary tumors. This study provides preliminary evidence of the value of vesicle-associated integrin proteins in detecting the presence of cancer cells and prediction of tumor stage. Differential expression of integrins across cancer cells and selective packaging of integrins into EVs may contribute to further understanding the development and progression of tumor growth and metastasis across a variety of cancer types.

Role of tumor cell adhesion and migration in organ-specific metastasis formation

To form clinically evident metastases--the main cause of death in cancer patients--, tumor cells (TC) must complete a highly complex series of steps called the metastatic cascade, including local invasiveness, intravasation, circulation, adhesion and extravasation, survival, proliferation and angiogenesis. Since failure of any one of these steps results in metastatic failure, understanding the metastatic cascade may guide us to new therapeutic concepts. Here we review the role of specific TC adhesion and migration processes for organ-selective metastasis formation. TC adhesion in the microvasculature of host organs is a specific and highly regulated process mainly mediated by selectins for TC/endothelial cell binding and by integrins for TC/extracellular matrix interactions. Defined expression of the adhesion molecules and their corresponding ligands in the host organs and on the TC governs organ-selective non-random TC arrest. TC motility and subsequent chemotactically guided extravasation of adherent cells is the second rate-limiting step in organ-specific metastasis formation. Only if cells have completed adhesion and extravasation the growth of micrometastases and finally clinically evident metastases can occur.

Ligation of the beta4 integrin triggers adhesion behavior of human keratinocytes by an "inside-out" mechanism

Carcinogenesis is considered as a multistep process involving functional changes in the hemidesmosomal organization. In normal skin keratinocytes, expression of the alpha(6)beta(4) integrin is restricted to the proliferative basal layer and mediates stable adhesion to the underlying basement membrane. Observations in carcinoma cells show a functional and spatial dissociation of the alpha(6)beta(4) integrin from the hemidesmosomal complex, which stimulates cell migration and, therefore, may contribute to carcinoma invasion. We now have evaluated the adhesion behavior of epithelial cells at different stages of transformation in response to activation of the beta(4) integrin. It is demonstrated that ligation of the beta(4) integrin augmented adhesion of carcinoma and pre-carcinoma cells to non-modified plastic. In contrast, adhesion behavior of normal human keratinocytes was not influenced by ligation of the beta(4) integrin. In order to explain the mechanism of beta(4)-mediated adhesion, the hypothesis of an "inside-out" activation of integrins was tested. Evidence is given that for cells expressing the alpha(6)beta(4) integrin, ligation of the beta(4) integrin increased beta(1) integrin-mediated adhesion. Furthermore, ligation of the beta(4) integrin led to phosphorylation of PKB/Akt at both phosphorylation sites. Functional blocking of PKB/Akt by dominant-negative overexpression decreased cell adhesion in response to beta(4) integrin ligation. Taken together, the present data establish a link between the ligation of the beta(4) integrin and beta(1) integrin-mediated cell adhesion in carcinoma and pre-carcinoma cells. Hence, these findings provide further insight into the conversion processes during carcinogenesis and show the beta(4) integrin to be a key regulator of cellular adhesion.

Regulation of the intestinal epithelial response to cyclic strain by extracellular matrix proteins

Repetitive mechanical deformation may stimulate intestinal epithelial proliferation. Because the extracellular matrix modulates static intestinal epithelial biology, we examined whether matrix proteins influence intestinal epithelial responses to deformation. Human Caco-2BBE cells and nontransformed human enterocytes (HIPEC) were subjected to 10% average cyclic strain at 10 cycles/min on flexible membranes precoated with matrix proteins without or with plasma fibronectin or functional anti-integrin antibodies in the medium. Strain stimulated proliferation, focal adhesion kinase, extracellular signal-regulated protein kinase (ERK), p38, and Jun N-terminal kinase similarly on collagen I or IV, and more weakly on laminin, but had no effect on fibronectin. MEK blockade (PD98059) prevented strain-stimulated proliferation on collagen but did not affect proliferation on fibronectin. Adding tissue fibronectin to a collagen substrate or plasma fibronectin to the media suppressed strain s mitogenic and signal effects, but not those of epidermal growth factor. Functional antibodies to the alpha5 or alpha(v) integrin subunit blocked strain's effects on Caco-2 proliferation and ERK activation, although ligation of the alpha2 or alpha6 subunit did not. Repetitive strain also stimulated, and fibronectin inhibited, human intestinal primary epithelial cell proliferation. Repetitive deformation stimulates transformed and nontransformed human intestinal epithelial proliferation in a matrix-dependent manner. Tissue or plasma fibronectin may regulate the intestinal epithelial response to strain via integrins containing alpha5 or alpha(v).

Identification and isolation of candidate human colonic clonogenic cells based on cell surface integrin expression

BACKGROUND & AIMS

The surface epithelium of the colon is being replaced constantly with cells derived from the stem cells of the crypt. Although the location of the stem cells is known, there are no markers for these cells. This study tested the hypothesis that colonic stem cells might be isolated and cultured on the basis of specific integrin expression patterns in normal human colonic epithelium.

METHODS

Integrin expression in normal human colonic mucosa was determined by using indirect immunofluorescence. Crypt cells were then isolated as single cells from normal colon tissues and the expression pattern of integrins was analyzed by flow cytometry. Based on the specific expression of integrin beta1 in colonic crypts, the cells were sorted by using a flow cytometer, and colony assays in soft agar were performed to evaluate the clonogenicity of the sorted cells.

RESULTS

By immunofluorescence, the cells located in the lower one third of crypts expressed higher levels of beta1-integrin than the cells in the remainder of the crypt. When isolated crypt cells were stained with the beta1-integrin antibody and examined in a flow cytometer, there were 2 peaks of fluorescence. Sorting of crypt cells based on staining with anti-beta1 integrin antibody produced a cell population with a significantly enhanced ability to form colonies.

CONCLUSIONS

beta1-integrin is a candidate surface marker for the proliferative zone of the human colonic crypt. Our in vitro culture system for the clonal growth of a single colonic crypt cell suspension could facilitate the identification of other candidate stem cell markers.

Bromodeoxyuridine induces integrin expression at transcriptional (alpha2 subunit) and post-transcriptional (beta1 subunit) levels, and alters the adhesive properties of two human lung tumour cell lines

Integrins are a family of transmembrane glycoproteins that participate in a wide range of cellular events including proliferation, apoptosis and differentiation. Little is known about the mechanisms that control integrin subunit expression in epithelial cells, especially during lung cell differentiation. We have examined the effect of the differentiation-modulating agent, 5-bromo-2'-deoxyuridine (BrdU), on integrin expression in 2 human lung carcinoma cell lines, DLKP and A549. Treatment of both DLKP and A549 with 10 microM BrdU for 7 days resulted in increased expression of alpha2 and beta1 integrin subunit protein expression. Northern blot and RT-PCR analyses revealed progressively increasing levels of the alpha2 mRNA transcripts following BrdU treatment up to 21 days in both cell lines. However, no increase in beta1 integrin mRNA levels was observed in either cell, suggesting post-transcriptional regulation by BrdU. Treatment of HL-60, a leukaemic cell line, with BrdU up to 21 days resulted in no change in alpha2 or beta1 integrin subunit levels at either protein or mRNA levels suggesting that the change seen in the lung cell lines may be epithelial cell lineage-specific. BrdU has also been found to alter the adhesive properties of A549 and DLKP cells. Treated cells were found to adhere significantly faster to collagen type IV and laminin compared to untreated cells. The results presented here suggest that DLKP (and A549) may be useful cellular models to investigate the role of the alpha2beta1 integrin in lung epithelial cell differentiation.

Identification of a novel structural variant of the alpha 6 integrin

The alpha(6) integrin is a 140-kDa (nonreduced) laminin receptor. We have identified a novel 70-kDa (nonreduced) form of the alpha(6) integrin called alpha(6)p for the latin word parvus, meaning small. The variant was immunoprecipitated from human cells using four different alpha(6)-specific monoclonal antibodies but not with alpha(3) or alpha(5) antibodies. The alpha(6)p integrin contained identical amino acid sequences within exons 13--25, corresponding to the extracellular "stalk region" and the cytoplasmic tail of the alpha(6) integrin. The light chains of alpha(6) and alpha(6)p were identical as judged by alpha(6)A-specific antibodies and electrophoretic properties. The alpha(6)p variant paired with either beta(1) or beta(4) subunits and was retained on the cell surface three times longer than alpha(6). Reverse transcription/polymerase chain reaction analysis revealed a single polymerase chain reaction product. The alpha(6)p variant was found in human prostate (DU145H, LnCaP, PC3) and colon (SW480) cancer cell lines but not in normal prostate (PrEC), breast cancer (MCF-7), or lung cancer (H69) cell lines or a variant of a prostate carcinoma cell line (PC3-N). Protein levels of alpha(6)p increased 3-fold during calcium-induced terminal differentiation in a normal mouse keratinocyte model system. A novel form of the alpha(6) integrin exists on cell surfaces that contains a dramatically altered extracellular domain.

Collagen IV synthesis is restricted to the enteroendocrine pathway during multilineage differentiation of human colorectal epithelial stem cells

The human large intestine is lined by a rapidly renewing epithelial monolayer where cell loss is precisely balanced with cell production. The continuous supply of new cells is produced by undifferentiated multipotent stem cells via a coordinated program of proliferation and differentiation yielding three epithelial lineages: absorptive, goblet and enteroendocrine. Cell-matrix interactions have been suggested to be regulators of the multilineage differentiation program of the colorectal crypt but the expression of matrix proteins or their receptors does not appear to have the subtlety expected for this task.

We have developed an in vitro model system of intestinal epithelial stem cells to facilitate the direct analysis of stem cells undergoing lineage commitment and differentiation. Using this culture system, we can now directly investigate the role of cell-matrix signalling in stem-cell decisions. In this study, collagen-IV synthesis has been followed in monolayers of multipotent cells that have been induced to differentiate into absorptive, goblet and enteroendocrine cells. Our experiments demonstrate that commitment to the enteroendocrine lineage is specifically accompanied by the expression of type-IV collagen that remains enteroendocrine-cell associated. Undifferentiated cells, absorptive cells and goblet cells do not express collagen IV. To confirm that the differential lineage-specific expression of collagen IV observed in the model system was representative of the in vivo situation, collagen-IV synthesis was analysed in isolated human colorectal crypts and tissue sections using immunocytochemistry and in situ hybridisation. These studies confirmed the in vitro findings, in that implementation of the enteroendocrine differentiation program involves synthesis and accumulation of a collagen-IV matrix. Thus, human colorectal enteroendocrine cells are unique in the colorectal crypt in that they assemble a cell-associated collagen-IV-rich matrix not observed on other colorectal epithelial cells.

This study provides the first evidence for differential matrix synthesis between colorectal epithelial lineages in human colorectal epithelium. The specialised pericellular environment of the enteroendocrine cells might explain some of the unique phenotypic characteristics of this cell lineage. Furthermore, these findings suggest a potential mechanism whereby individual epithelial cells could modulate their cell-matrix signalling even while rapidly migrating in heterogeneous sheets over a shared basement membrane.

Functions of alpha3beta1 integrin

alpha3beta1 integrin is a laminin receptor with apparently diverse functions. In epithelial cells it acts as a receptor for the basement membrane, whereas in neuronal and possibly tumor cells it mediates migration. Interactions of alpha3beta1 integrin with tetraspanin proteins may provide clues to how it transduces signals that affect cell behavior.

Basement membrane laminin-5 is deposited in colorectal adenomas and carcinomas and serves as a ligand for alpha3beta1 integrin

Interplay between laminin-5 (Ln-5) and its integrin (Int) receptors alpha2beta1, alpha3beta1 and alpha6beta4 has been implicated in the progression and invasion of carcinomas. In this study we found abundant immunoreactivity for chains of Ln-5 (alpha3-beta3-gamma2) and Ln-10 (alpha5-beta1-gamma1), as well as for type VII collagen, in basement membranes (BM) of colorectal adenomas. In carcinomas of all differentiation grades, Lns were seen in tumor BMs, whereas type VII collagen was almost absent. Ln-5 appeared to accumulate along the invading edges of carcinomas, while Ln-10 was mostly absent. Immunoreactivity for Ln al chain, a component of Lns-1 and -3, was not seen in adenomas or carcinomas. Immunoreactivity for alpha2, alpha6, beta1 and beta4 Ints was found in all tumors and that for alpha3 Int in all adenomas and most of the carcinomas, often in colocalization with Ln-5. Immunoblotting of carcinoma tissues showed that the gamma2 chain of Ln-5 was present as typical Mr 105000 and 155000 isoforms. Immunoprecipitation experiments showed production of Ln-5 by cultured colon carcinoma cells. In quantitative cell adhesion experiments, function-blocking MAbs to alpha3 and beta1 Int subunits, but not those to Int alpha2 or alpha6 subunits, significantly inhibited the adhesion of cells to Ln-5. Our results suggest that BM composition in colorectal adenomas reflects the properties of surface epithelial BM of colorectal mucosa. In invading carcinomas, trimeric Ln-5, produced by carcinoma cells, is a major BM component and the cells use the alpha3beta1 Int complex for adhesion to Ln-5.

DNA microarrays: a novel approach to investigate genomics in trophoblast invasion--a review

The events that regulate trophoblast invasion need to be characterized at the transcriptional level. Several types of gene products may be involved in various stages oftrophoblast infiltration, including integrins, matrix metalloproteases (MMPs) and extracellular matrix (ECM) proteins. Autocrine or paracrine regulators of cytotrophoblast proliferation or differentiation in vitro (e.g. growth factors and cytokines, as well as oxygen tension) could be characterized mechanistically at the transcriptional level. Large-scale gene expression profiling of trophoblasts of distinct invasive stages could be carried out on fixed tissue obtained by laser-directed microdissection. This information may shed light on physiological implantation and placentation, as well as on the interpretation of pathological processes such as pre-eclampsia. The applications of DNA microarrays are ideal for studies of genomic structure (e.g. mutation and polymorphism analyses) and monitoring of gene expression. The ultimate goal is to understand the critical events underlying growth, development, homeostasis, 'behaviour and the onset of disease at a genomic level. Microarrays detect gene expression levels in parallel by measuring the hybridization of labelled, single-stranded DNA to many thousands of partial or whole gene sequences immobilized on a glass surface (the 'chip'). Microarrays are available both commercially and can be manufactured in house.

Cell surface molecules and their prognostic values in assessing colorectal carcinomas

OBJECTIVE

Carcinomas of the colon and rectum are the third leading cause of cancer-related deaths. Although advances in the surgical treatment of primary colorectal cancers have lead to improvements in patient survival at early tumor stages, treatment of more progressive cancers has not resulted in dramatic improvements in patient survival. However, the selection of patient subgroups based on their prognosis and other characteristics could result in improved outcomes from adjuvant therapies in patients with Dukes B and C carcinomas.

METHODS

The authors reviewed the available data on the value of cell surface molecules in assessing the prognosis of colorectal carcinomas, paying specific attention to the evaluation of statistical analysis and multivariate procedures.

RESULTS

Cell surface molecules have been identified on colorectal carcinoma cells whose expression appears to be related to malignant transformation, tumor progression, or patient prognosis. Among these cell surface molecules, various cell adhesion molecules, growth factor receptors, proteinases, and their receptors and inhibitors have been identified as potentially useful prognostic markers.

CONCLUSIONS

Although data exist on the prognostic values of certain cell surface markers, the use of multivariate analysis for the identification of valuable prognostic factors remains uncommon. Using reproducible and standardized multivariate analysis procedures, new tumor markers should be carefully examined for their biologic and prognostic relevance before being considered as potentially useful in the management of colorectal cancers.

Defects of basement membrane and hemidesmosome structure correlate with malignant phenotype and stromal interactions in HaCaT-Ras xenografts

Benign and malignant HaCaT-ras clones, derived from immortalized HaCaT cells were grown as nude mouse surface transplants rendering a human tumor progression model. Searching for malignancy-related alterations, the deposition, localization and mRNA of basement membrane and hemidesmosome components were analysed by immunofluorescence, in situ hybridization and electron microscopy. Initially, at 1 week epithelia of benign and malignant cells revealed a similarly low polarity and an enlarged 'activated basal' compartment, reflected by partial dislocation and extended pericellular staining of the hemidesmosome constituent integrin alpha 6 beta 4 seen by immunofluorescence. Whereas benign grafts eventually normalized, closely resembling grafts of HaCaT cells, malignant growth was correlated with a persisting epithelial activation state and continuing higher expression of alpha 6 (by immunofluorescence and in situ hybridization). The basement membrane components bullous pemphigoid antigen 1, laminin-5 and collagen IV exhibited a largely linear distribution at 1 week. However, in the malignant cell transplants initially minor basement membrane discontinuities became more severe at around 2 weeks, associated with close stromal cell contacts, angiogenesis and invasion. Most striking were basement membrane alterations seen by electron microscopy. At 1 week stretches of basement membrane had developed in malignant transplants, though to a much lesser extent than in benign specimens. With invasion these basement membrane structures mostly disappeared despite persistent although variable immunofluorescence, suggesting high turnover without ultrastructural assembly. The hemidesmosome structures were defective throughout, completely lacking anchoring plaques with keratin filaments, whereas they were still associated with basement membrane deposits. Thus, malignant HaCaT-ras transplants, while initially resembling regenerating wounds, revealed an increasing loss of tissue polarity and basement membrane structures, which seemed to be accelerated upon stromal cell contacts.

Altered integrin expression and the malignant phenotype: the contribution of multiple integrated integrin receptors

The integrins are a family of cell surface adhesion receptors that mediate adhesion to either components of the extracellular matrix or to other cells. The beta1 family of integrins represent the major class of cell substrate receptors with specificities primarily for collagens, laminins, and fibronectins. The role of the integrin family of cell surface adhesion receptors in normal mammary gland morphogenesis and the contributions of altered integrin receptor expression to the invasive and metastatic phenotype have been the primary focus of our lab, as well as a number of other laboratories. The alpha2beta1 integrin is expressed at high levels by normal differentiated epithelial cells including those of the normal breast. Using breast cancer as a model, we evaluated changes in integrin expression in malignancy. We and other investigators made the key observation that alpha2beta1 integrin expression is decreased in adenocarcinoma of the breast in a manner that correlates with the stage of differentiation. Studies of other adenocarcinomas have yielded similar results. When the alpha2beta1 integrin was reexpressed in a poorly differentiated mammary carcinoma that expressed no detectable alpha2 integrin subunit, a dramatic reversion of malignant phenotype to a differentiated epithelial phenotype was observed, indicating a critical role for alpha2beta1 expression in mammary gland differentiation. Other laboratories using monoclonal antibodies to competitively inhibit alpha2beta1 integrin adhesion or oncogenic transformation using c-erb2 have confirmed the important role of that alpha2beta1 integrin in mammary gland morphogenesis. Re-expression of the alpha2beta1 integrin also results in upregulation of both the alpha6 and beta4 integrin subunits. To determine the contribution of enhanced alpha6 and beta4 integrin expression to the abrogation of the malignant phenotype by alpha2beta1 integrin expression, we have now separately re-expressed the human alpha6 or beta4 integrin subunit in the breast cancer model.

Immunolocalization of integrins in the normal lung and in pulmonary carcinomas

Cryosections of normal adult lung (n = 7) and pulmonary epithelial tumors, including squamous (n = 8), adeno (n = 8), bronchioloalveolar (n = 5), and large cell (n = 4) carcinomas (SCC, ACC, BAC, LCC), carcinoids (Cd, n = 7), and neuroendocrine carcinomas (NEC) of variable grades (n = 14) were immunostained by the avidin-biotin peroxidase (ABC) method with monoclonal antibodies to the alpha1-6 and alpha(v) and the beta1-4 integrin subunits. Normal adult alveolar septae showed variably intense immunoreactivity for alpha1,3,6 and beta1, whereas reactions for alpha5 and alpha(v) were weaker and uneven; the remaining integrin subunits were not detected. Bronchial and bronchiolar epithelium showed variably intense staining for alpha2.3,6,v and beta1,4. Reactions were often, though not invariably, basally polarized. SCC, ADC, and LCC showed variably intense reactions for alpha2.3,6,v and beta1,4. BAC were strongly and uniformly stained for alpha1.3 and beta1. In Cd, alpha1,2,3,v and beta1 reactions were noted, whereas in NEC, weak alpha1,3 and beta1 staining was detected with only traces of alpha6 and alpha(v). We conclude that alveolar epithelial cells do not express the hemidesmosome-associated, laminin-binding integrin alpha6beta4 of the bronchial epithelium but rather the alpha1beta1 and alpha3beta1, collagen IV, and laminin receptors, respectively. SCC, ADC, and sampled LCC express an integrin repertory qualitatively similar to that of the bronchial epithelium. Distinct from the latter, the integrin repertory of BAC parallels that of the alveolar epithelium by its strong expression of the multipotential alpha1beta1 and alpha3beta1 integrins. NEC tumors do not display the laminin receptors alpha6beta4 and alpha6beta1 shown by SCC and ADC but express instead alpha1beta1, a collagen IV-laminin receptor rarely found in epithelial neoplasms except for BAC. In NEC tumors, integrins, especially alpha2, decrease with dedifferentiation. Notably distinct from epithelial mesotheliomas, the major fibronectin-binding integrin alpha5beta1 was not found in any type of lung carcinoma.

Stromelysin-3 expression in early (pT1) carcinomas and pseudoinvasive lesions of the colorectum

Pseudoinvasion in colorectal adenomas is often difficult to distinguish from invasive carcinoma. Previous studies have indicated that expression of stromelysin-3 (ST-3), one of the metalloproteinase family of enzymes, may be useful for the identification of early invasive carcinoma. The goal of our study was to detect ST-3 expression in colorectal adenomatous polyps to see if it could be helpful for the differential diagnosis of pseudoinvasion vs. true invasion. We studied 25 polypectomy specimens which were divided histologically into 2 groups; the first consisted of 15 adenomas with invasive carcinoma, 8 of these carcinomas were more diffusely infiltrative (pT1), and 7 tended to be expansively invasive. The second group was composed of 10 adenomas with pseudoinvasion. A 35S labelled cDNA probe was used for in situ hybridization (ISH) and a monoclonal antibody (5ST-4A9) for immunohistochemistry (IHC). The distribution of ST-3 expression as detected by IHC and ISH was identical. All diffusely infiltrative carcinoma cases showed ST-3 expression, but only focally in 2 cases with marked lymphocytic infiltration. None of the expansive carcinoma or pseudoinvasion cases showed ST-3 expression. ST-3 expression seems to be an indicator of invasion, but a negative reaction for ST-3 does not rule out an expansive invasive neoplasm or a diffusely infiltrative invasive tumour with a dense lymphocytic reaction.

Pleural mesotheliomas have an integrin profile distinct from visceral carcinomas

Cryosections of epithelial, sarcomatoid, and biphasic malignant mesotheliomas (EMM, n = 11; SMM, n = 5; BMM, n = 6) of the pleura were immunostained with monoclonal antibodies to integrin subunits alpha 1-6 and v, and beta 1-4. Localization patterns were compared with those known to occur in pulmonary and other adenocarcinomas (PADC, ADC). EMM and the epithelial component of BMM (ecBMM) expressed alpha 1,3,5,6, and v and beta 1 and 4. SMM and the sarcomatoid elements of BMM (scBMM) reacted variably for alpha 1,3,5,6 and v, and beta1. Reactions for alpha3, found in all tumors, were strongest in EMM, ecBMM, and PADC. Our findings indicate that EMM and ecBMM parallel PADC and most ADC in their expression of alpha6 beta4, underscoring that this laminin integrin receptor is intimately associated with these neoplastic epithelial phenotypes. Also, our observations on alpha3 beta1 suggest that this cell-cell adhesion-mediating integrin is related to the epithelial phenotype. Notably, all malignant mesotheliomas (MM), including those with distinct glandular structures, expressed the alpha5 beta1 fibronectin receptor, thus paralleling most sarcomas and differing from PADC and most other ADC. We conclude that irrespective of architectural and cytologic variants, transformed mesothelial cells possess an integrin repertory that differs significantly from that of most ADC, including those of the lung. These findings set mesothelium apart from epithelia and may prove helpful as adjunct tools for the differential diagnosis between EMM and AD.

Organisation and gel contraction by human colonic carcinoma (HCA-7) sublines grown in 3-dimensional collagen gel

The role of cell-matrix interactions in controlling phenotypic heterogeneity in human colonic carcinoma sublines has been investigated. Four cell lines (colony 1, colony 3, colony 6 and colony 30) previously isolated from a single human colonic carcinoma cell line, HCA-7, were grown in 3-dimensional collagen gels. In collagen, the growth of the 4 sublines ranged from well-organised glandular structures (colony 30) to elongated branching structures (colony 3). The capability of cells to organise into glandular structures in collagen correlated with the degree of differentiation observed in their xenografts. Certain sublines, most notably colony 3, were able to contract the collagen gel. Gel contraction could be partially inhibited by a function-blocking antibody directed to the alpha 2 integrin chain but not by an antibody directed to the alpha 3 integrin chain demonstrating a role for alpha 2 integrin in the contraction process. In addition, colony 3 cultures treated with the function-blocking alpha 2 antibody formed more compact structures with limited outgrowth, suggesting a role for alpha 2 integrin in cell migration. Gel contraction and cell migration in collagen gel was largely restricted to 1 subline, colony 3. The subsequent demonstration that alpha 2 integrin is involved in both of these processes suggests that integrin expression and function has a role in generating the phenotypic heterogeneity exhibited by these cell lines.

Expression of adhesion molecules in the host response to colon carcinoma

Expression of the adhesion molecules LFA-1, ICAM-1, and VCAM-1 was studied in five resected colon carcinomas, one villous adenoma, and normal colon mucosa to determine whether expression of these markers is increased in response to tumor. Frozen tissue samples were stained by a labeled avidin-biotin technique using primary antibodies to LFA-1 (CD11a), CD2, CD4, CD8, CD20, CD68, HLA-DR, ICAM-1 (CD54), and VCAM-1. For each marker, the number of positive mononuclear cells was graded semiquantitatively, and stromal and endothelial cells were scored as either positive or negative. Overall grade of inflammation was increased in tumor compared with normal mucosa in five cases. Cells positive for LFA-1, CD2, CD4, CD8, and CD20 were increased in the tumors in the same cases. ICAM-1 was expressed in vessels, inflammatory cells, and stromal cells in normal mucosa. It was markedly increased in tumor stroma in all six cases. VCAM-1 was negative in normal mucosa, and focally expressed in tumor vessels and stroma. We conclude that increased expression of adhesion molecules occurs around colon neoplasms, particularly in stromal cells, and may be a mechanism for the recruitment of activated leukocytes as part of the inflammatory response to colon carcinomas.

Adhesion molecules: novel molecular tools in tumor pathology

Cell adhesion is a key process, elementary in the establishment of tissue architecture and differentiation. In neoplasia, in which there is a disruption of tissue architecture and a derangement in differentiation, it has been postulated that changes in cell-cell and cell-matrix interactions account for the ability of cancer cells to transgress normal tissue boundaries and disperse to distant sites. Complex and coordinated reductions and increases in adhesion have been proposed to be necessary for tumor invasion and metastasis. This hypothesis has fueled the interest of cancer research teams to evaluate the expression of various adhesion molecules in a wide range of human malignancies in the hope of pinpointing some of the cell adhesion alterations underlying tumor behavior. To date, a multitude of transmembrane glycoproteins, including cell-cell adhesion molecules (CAMs) and cell-matrix or substratum adhesion molecules (SAMs), have been identified; their structure, molecular genetics, and biochemistry have been elucidated, and we are beginning to understand their normal function. A few of these, on the basis of current evidence, seem to be promising candidate molecules for a role in neoplasia. This article aims to summarize recent developments in this field of adhesion research as well as the clinical applications in diagnostic pathology arising from it. First, by way of introduction, a summary of the biochemical and functional characterization of each family of adhesion receptors will be presented, followed by a presentation of the experimental data implicating them in the control of invasion, metastasis, and differentiation.