Tenascin distribution in the normal human breast is altered during the menstrual cycle and in carcinoma

Tenascin C in metastasis: A view from the invasive front

The extracellular matrix protein tenascin C (TNC) is a large glycoprotein expressed in connective tissues and stem cell niches. TNC over-expression is repeatedly observed in cancer, often at the invasive tumor front, and is associated with poor clinical outcome in several malignancies. The link between TNC expression and poor survival in cancer patients suggests a role for TNC in metastatic progression, which is responsible for the majority of cancer related deaths. Indeed, functional studies using mouse models are revealing new roles of TNC in cancer progression and underscore its important contribution to the development of metastasis. TNC has a pleiotropic role in advancing metastasis by promoting migratory and invasive cell behavior, angiogenesis and cancer cell viability under stress. TNC is an essential component of the metastatic niche and modulates stem cell signaling within the niche. This may be crucial for the fitness of disseminated cancer cells confronted with a foreign environment in secondary organs, that can exert a strong selective pressure on invading cells. TNC is a compelling example of how an extracellular matrix protein can provide a molecular context that is imperative to cancer cell fitness in metastasis.

Clinical significance of serum tenascin-C levels in breast cancer

Tenascin-C (TNC) is a key molecule in tissue remodeling, and high levels are observed in many diseases, including heart failure, thrombosis, atherosclerosis, and cancer. High TNC expression by immunohistochemical analysis has been shown in invasive and metastasizing tissues from a variety of cancers, including colon, lung, brain, and breast. This study was conducted to investigate the serum level of TNC in breast cancer patients and its relationship with tumor progression and known prognostic parameters. Ninety-six breast cancer patients were enrolled into the study. Serum samples were obtained on first admission before adjuvant and metastatic treatments were given and at follow-up. Serum TNC levels were determined by the solid-phase sandwich enzyme-linked immunosorbent assay (ELISA) method. Median age of diagnosis was 48 years old (range, 29-80). Thirty-seven (39 %) patients had metastatic breast cancer. The mean TNC levels were found to be significantly higher in patients with breast cancer (344.1 ± 42.4 pg/mL) compared to those in healthy controls (137.2 ± 26.8 pg/mL) (p = 0.005). Serum TNC level in grade 3 tumors was found to be significantly higher than in grades 1-2 tumors (p = 0.04). No correlation was detected between serum TNC levels and other prognostic parameters analyzed, including presence of metastasis, lymph node involvement, and tumor size. Serum TNC level had no significantly adverse effect on survival in univariate and multivariate analyses (p = 0.65 and p = 0.85, respectively). In conclusion, although serum TNC levels are elevated, it has no predictive or prognostic roles on survival in breast cancer patients.

The extracellular matrix locally regulates asynchronous concurrent lactation in tammar wallaby (Macropus eugenii)

Asynchronous concurrent lactation (ACL) is an extreme lactation strategy in macropod marsupials including the tammar wallaby, that may hold the key to understanding local control of mammary epithelial cell function. Marsupials have a short gestation and a long lactation consisting of three phases; P2A, P2B and P3, representing early, mid and late lactation respectively and characterised by profound changes in milk composition. A lactating tammar is able to concurrently produce phase 2A and 3 milk from adjacent glands in order to feed a young newborn and an older sibling at heel. Physiological effectors of ACL remain unknown and in this study the extracellular matrix (ECM) is investigated for its role in switching mammary phenotypes between phases of tammar wallaby lactation. Using the level of expression of the genes for the phase specific markers tELP, tWAP, and tLLP-B representing phases 2A, 2B and 3 respectively we show for the first time that tammar wallaby mammary epithelial cells (WallMECs) extracted from P2B acquire P3 phenotype when cultured on P3 ECM. Similarly P2A cells acquire P2B phenotype when cultured on P2B ECM. We further demonstrate that changes in phase phenotype correlate with phase-specific changes in ECM composition. This study shows that progressive changes in ECM composition in individual mammary glands provide a local regulatory mechanism for milk protein gene expression thereby enabling the mammary glands to lactate independently.

Fibroblast cluster formation on 3D collagen matrices requires cell contraction dependent fibronectin matrix organization

Fibroblasts incubated on 3D collagen matrices in serum or lysophosphatidic acid (LPA)-containing medium self-organize into clusters through a mechanism that requires cell contraction. However, in platelet-derived growth factor (PDGF)-containing medium, cells migrate as individuals and do not form clusters even though they constantly encounter each other. Here, we present evidence that a required function of cell contraction in clustering is formation of fibronectin (FN) fibrillar matrix. We found that in serum or LPA but not in PDGF or basal medium, cells organized FN (both serum and cellular) into a fibrillar, detergent-insoluble matrix. Cell clusters developed concomitant with FN matrix formation. FN fibrils accumulated beneath cells and along the borders of cell clusters in regions of cell-matrix tension. Blocking Rho kinase or myosin II activity prevented FN matrix assembly and cell clustering. Using siRNA silencing and function-blocking antibodies and peptides, we found that cell clustering and FN matrix assembly required α5β1 integrins and fibronectin. Cells were still able to exert contractile force and compact the collagen matrix under the latter conditions, which showed that contraction was not sufficient for cell clustering to occur. Our findings provide new insights into how procontractile (serum/LPA) and promigratory (PDGF) growth factor environments can differentially regulate FN matrix assembly by fibroblasts interacting with collagen matrices and thereby influence mesenchymal cell morphogenetic behavior under physiologic circumstances such as wound repair, morphogenesis and malignancy.

Alterations in mast cell frequency and relationship to angiogenesis in the rat mammary gland during windows of physiologic tissue remodeling

BACKGROUND

The mammary epithelium undergoes proliferation and regression accompanied by remodeling of the fibrocellular and vascular stroma. Mast cells are abundant in these compartments and have been implicated in remodeling during wound healing and cancer progression. The purpose of this study was to test the hypothesis that mast cell abundance correlates with physiologic mammary tissue remodeling during estrous cycling, lactogenesis (pregnancy and lactation) and involution.

RESULTS

Mast cell and capillary frequency were quantified in the stroma surrounding ducts and lobules from mammary glands of rats. During estrous cycling, periductal mast cell numbers were unchanged, but lobule-associated mast cells significantly increased in the regressive phase of diestrus II. During lactogenesis, lobular stroma mast cells peaked early in pregnancy, at D2, followed by a significant decrease throughout lactation. Involution was associated with a rapid return in mast cell numbers, similar to diestrus II. Lobular vascularization peaked during the state of metestrus, when limited secretory differentiation occurs. Lobular angiogenesis peaked at D7 of pregnancy, regressed, and then returned to high levels during lactation and early involution, when secretory differentiation is high.

CONCLUSIONS

These results suggest mast cells are predominantly associated with regressive lobular remodeling during cycling and involution, whereas angiogenesis is predominantly associated with secretory differentiation.

Expression of tenascin-C and its isoforms in the breast

Tenascin-C (TNC) is an extracellular matrix glycoprotein which is frequently up-regulated in a variety of pathological conditions including chronic inflammation and cancer. TNC has been implicated in the modulation of cell migration, proliferation, invasion and angiogenesis. Multiple isoforms of TNC can be generated through the alternative splicing of nine exons located in the fibronectin type III region of the molecule. The profile of isoforms expressed differs between cancers and normal breast, with the fully truncated TNC isoform being predominant in normal and benign tissues and higher molecular weight isoforms induced predominantly in cancer. The addition of extra domains within the fibronectin type III repeat domain greatly affects TNC function with multiple exon combinations available for splicing. Exons 14 and 16 are considered to be tumour-associated and have been shown to affect breast cell line invasion and growth in vitro to a greater extent than the full-length TNC isoform. This mini review will provide a summary of the literature to date regarding the expression of TNC isoforms in the breast and also discuss more recent developments in the field regarding exon AD1.

The expression of syndecan-1, syndecan-4 and decorin in healthy human breast tissue during the menstrual cycle

BACKGROUND

In order to unravel the interactions between the epithelium and the extra cellular matrix (ECM) in breast tissue progressing to cancer, it is necessary to understand the relevant interactions in healthy tissue under normal physiologic settings. Proteoglycans in the ECM play an important role in the signaling between the different tissue compartments. The proteoglycan decorin is abundant in the breast stroma. Decreased expression in breast cancer tissue is a sign of a poor tumor prognosis. The heparane sulphate proteoglycans syndecan-1 and syndecan-4 promote the integration of cellular adhesion and proliferation. The aim of this study was to investigate the gene expression and location of decorin, syndecan-1 and syndecan-4 in the healthy breast during the menstrual cycle.

METHODS

Tissue from healthy women undergoing breast reduction plastic surgery was examined using immunohistochemistry (n = 38) and Real-Time RT-PCR (n = 20). Both parous and nulliparous women were eligible and the mean age of the women was 34(+/- 10 years) with regular menstrual cycles (28 +/- 7 days). None of the women had used hormonal treatment the last three months. The women were randomized to needle biopsy two months before the operation in the follicular or luteal menstrual phase and for another biopsy at the operation in the opposite phase. Serum samples were obtained to characterize the menstrual phase. The Wilcoxon signed rank test and Mann Whitney test were used for statistical analyses.

RESULTS

By real time-RT-PCR the gene signal for all three proteoglycans; decorin (p = 0.02) and syndecan-1 (p = 0.03) and syndecan-4 (p = 0.02) was significantly lower among parous women in the luteal phase than in the follicular phase. Immunohistochemistry confirmed the identification of the proteins but no significant difference between menstrual phases was observed. Serum samples verified the menstrual phase.

CONCLUSIONS

Our study shows, for the first time in the healthy breast, a significantly lower expression of the genes for the three proteoglycans, decorin, syndecan-1 and syndecan-4 in the luteal phase during the menstrual cycle. These changes were registered under normal physiologic conditions. Since ECM molecules appear to be involved in tumor progression, these findings in the normal breast could constitute a base for further studies in women receiving hormonal therapy or those with breast cancer.

Interlobular and intralobular mammary stroma: genotype may not reflect phenotype

Background

The normal growth and function of mammary epithelial cells depend on interactions with the supportive stroma. Alterations in this communication can lead to the progression or expansion of malignant growth. The human mammary gland contains two distinctive types of fibroblasts within the stroma. The epithelial cells are surrounded by loosely connected intralobular fibroblasts, which are subsequently surrounded by the more compacted interlobular fibroblasts. The different proximity of these fibroblasts to the epithelial cells suggests distinctive functions for these two subtypes. In this report, we compared the gene expression profiles between the two stromal subtypes.

Methods

Fresh normal breast tissue was collected from reduction mammoplasty patients and immediately placed into embedding medium and frozen on dry ice. Tissue sections were subjected to laser capture microscopy to isolate the interlobular from the intralobular fibroblasts. RNA was prepared and subjected to microarray analysis using the Affymetrix Human Genome U133 GeneChip^®. Data was analyzed using the Affy and Limma packages available from Bioconductor. Findings from the microarray analysis were validated by RT-PCR and immunohistochemistry.

Results

No statistically significant difference was detected between the gene expression profiles of the interlobular and intralobular fibroblasts by microarray analysis and RT-PCR. However, for some of the genes tested, the protein expression patterns between the two subtypes of fibroblasts were significantly different.

Conclusion

This study is the first to report the gene expression profiles of the two distinct fibroblast populations within the human mammary gland. While there was no significant difference in the gene expression profiles between the groups, there was an obvious difference in the expression pattern of several proteins tested. This report also highlights the importance of studying gene regulation at both the transcriptional and post-translational level.

Stromagenesis: the changing face of fibroblastic microenvironments during tumor progression

During tumorigenesis, reciprocal changes in stromal fibroblasts and tumor cells induce changes to the neoplastic microenvironmental landscape. In stromagenesis, both the complex network of bi-directional stromal fibroblastic signaling pathways and the stromal extracellular matrix are modified. The presence of a 'primed' stroma during the early, reversible stage of tumorigenesis is optimal for stromal-directed therapeutic intervention. Three-dimensional (3D) cell culture systems have been developed that mimic the in vivo microenvironment. These systems provide unique experimental tools to identify early alterations in stromagenesis that are supportive of tumor progression with the ultimate goal of blocking neoplastic permissiveness and restoring normal phenotypes.

Mammary ECM composition and function are altered by reproductive state

To address whether reproductive state alters mammary gland extracellular matrix (ECM) composition and function, ECM was isolated from nulliparous, pregnant, lactating, involuting, and regressed rat mammary glands. The ECM composition of fibronectin, tenascin, laminin, clusterin, and MMPs was found to vary dramatically with reproductive state. In 3-dimensional (3-D) culture, we identified novel effects of these endogenous mammary matrices on mammary epithelial cells. Specifically we found that (1) matrix isolated from nulliparous animals promoted the formation of epithelial ducts with bifurcation, (2) matrix isolated from mid-involuting mammary glands induced cell death, (3) matrix isolated from late-stage involuting glands restored glandular development, while (4) matrix isolated from parous animals restricted glandular morphogenesis. Our data were consistent with mammary gland ECM facilitating epithelial cell proliferation, differentiation, death, and glandular reorganization that occur during the pregnancy and involution cycle. Further, we show that the parous gland has persistent changes in ECM function. Cumulatively, our data demonstrated that the microenvironment of the normal adult mammary gland is highly plastic, which has important implications for mammary tumor cell progression and dormancy. These data also raised the possibility of targeting mammary matrix production with preventive or therapeutic interventions.

Immunohistochemical expression of extracellular matrix components tenascin, fibronectin, collagen type IV and laminin in breast cancer: their prognostic value and role in tumour invasion and progression

The immunohistochemical expression of the extracellular matrix (ECM) components tenascin (TN), fibronectin (FN), collagen type IV (Coll) and laminin (LN), and their possible relationships were studied in a series of 134 operable breast cancer cases. Their expression was also compared with the expression of the proteolytic enzyme cathepsin D (CD), the adhesion molecule CD44 standard form (CD44s) and other known factors to clarify the prognostic value and role of these molecules in tumour progression and metastasis. TN expression in the tumour stroma was positively correlated with tumour grade and size, CD44s expression, tumour and stromal CD expression as well as with FN, laminin and Coll expression in the same areas. TN expression was inverse correlated with ER status. Its expression at the invasion front was only positively correlated with the lymph node status. Survival analysis showed an increased mortality risk associated with high levels of TN expression. In multivariate analysis, among the ECM proteins, only TN expression was independently correlated with patients' survival. FN expression was positively correlated with lymph node involvement, with the proliferation-associated index Ki-67 and stromal CD expression. Survival analysis showed an increased mortality risk associated with a high level of FN expression. Coll expression was positively correlated with the tumour size and LN expression. An inverse relationship of Coll expression with ER and PgR receptor status was also found. LN expression was positively correlated with tumour and stromal CD expression, with the proliferation-associated index Ki-67 and inversely with ER receptor status. The observed alterations in the expression of ECM proteins in breast cancer tissue and their correlations with the proteolytic enzyme CD and the adhesion molecule CD44s, suggest an involvement in cancer progression. In addition, overexpression of stromal TN and FN seems to have negative prognostic value in breast cancer patients.

Tenascin expression in normal, hyperplastic, dysplastic and neoplastic canine mammary tissues

Mammary tumours are the most common neoplasias of female dogs and may have a complex histological pattern with both epithelial and spindle cells participating in the transformation process. A frequent feature of these tumours is chondroid or bone metaplasia of the extracellular matrix, which mainly occurs in areas of proliferated spindle-shaped cells, probably of myoepithelial origin. The present study evaluates immunohistochemically the expression of tenascin in 186 surgical samples of canine mammary tissues, ranging from normality to neoplasia. Tenascin was present in all mammary tissues studied, with an increased expression in remodelling situations and in neoplastic lesions. Basement membrane was the most frequently labelled structure, but stromal tissue was more often and widely labelled in neoplastic lesions. The extracellular matrix was positive in solid and anaplastic carcinomas as well as in spindle cell proliferation areas. Tenascin expression in extracellular matrix was also abundant in areas of initial chondroid metaplasia and, with variable extension, in almost all cartilage islands of mixed tumours. In well differentiated secretory areas only apical granules of luminal cells were positive, suggesting a different pattern of tenascin expression during secretory differentiation. The digestion of chondroitin sulphate significantly improved the labelling for tenascin when a co-expression of these two molecules was present. Although our results suggest that tenascin cannot be used as a marker of transformation or of malignancy in canine mammary oncology, it is clear that this molecule plays an important role in proliferation and differentiation processes in the canine mammary gland.

Tenascin-A marker for the malignant potential of preinvasive breast cancers

OBJECTIVE

Up to now, the mechanisms responsible for progression from noninvasive to invasive breast cancer have remained obscure. Tenascin is an extracellular matrix glycoprotein, present in embryonal and fetal tissues, which is also found in the stroma of various benign and malignant pathologies. We studied the expression and immunohistochemical behavior of tenascin in specimens of invasive and preinvasive breast cancer in order to assess its potential role as a marker for tumor invasion.

MATERIALS AND METHODS

Sixty-eight specimens including 29 noninvasive ductal cancers, 12 invasive ductal cancers, 5 adenoses, 7 fibroadenomas, and 15 samples of normal human breast tissue were evaluated. An immunofluorescent microscopic technique was used for analysis of the localization and distribution of tenascin. Paraffin-embedded biopsies were incubated with primary monoclonal anti-tenascin antibodies (1:25, Dako-tenascin, TN2). Subsequently, trimethylrhodamine-isothiocyanate-conjugated secondary antibodies (rabbit anti-mouse immunglobulins (Dakopatts, Denmark) were added to visualize the protein.

RESULTS

A significant tenascin expression was observed around the ducts in all samples of patients with preinvasive breast cancers. Intensive staining was also found in the periductal stroma of all specimens of patients with invasive breast cancers. Benign breast lesions showed weaker reactivity. No tenascin expression was detectable in normal human breasts, while tissue samples of in situ cancers presented variable staining intensities positively correlating with the degree of differentiation.

CONCLUSION

Tenascin immunofluorescence may prove a suitable and helpful adjunct for diagnosing malignant disease and for predicting the invasive potential of premalignant breast lesions.

The tenascin family of ECM glycoproteins: structure, function, and regulation during embryonic development and tissue remodeling

The determination of animal form depends on the coordination of events that lead to the morphological patterning of cells. This epigenetic view of development suggests that embryonic structures arise as a consequence of environmental influences acting on the properties of cells, rather than an unfolding of a completely genetically specified and preexisting invisible pattern. Specialized cells of developing multicellular organisms are surrounded by a complex extracellular matrix (ECM), comprised largely of different collagens, proteoglycans, and glycoproteins. This ECM is a substrate for tissue morphogenesis, lends support and flexibility to mature tissues, and acts as an epigenetic informational entity in the sense that it transduces and integrates intracellular signals via distinct cell surface receptors. Consequently, ECM-receptor interactions have a profound influence on major cellular programs including growth, differentiation, migration, and survival. In contrast to many other ECM proteins, the tenascin (TN) family of glycoproteins (TN-C, TN-R, TN-W, TN-X, and TN-Y) display highly restricted and dynamic patterns of expression in the embryo, particularly during neural development, skeletogenesis, and vasculogenesis. These molecules are reexpressed in the adult during normal processes such as wound healing, nerve regeneration, and tissue involution, and in pathological states including vascular disease, tumorigenesis, and metastasis. In concert with a multitude of associated ECM proteins and cell surface receptors that include members of the integrin family, TN proteins impart contrary cellular functions, depending on their mode of presentation (i.e., soluble or substrate-bound) and the cell types and differentiation states of the target tissues. Expression of tenascins is regulated by a variety of growth factors, cytokines, vasoactive peptides, ECM proteins, and biomechanical factors. The signals generated by these factors converge on particular combinations of cis-regulatory elements within the recently identified TN gene promoters via specific transcriptional activators or repressors. Additional complexity in regulating TN gene expression is achieved through alternative splicing, resulting in variants of TN polypeptides that exhibit different combinations of functional protein domains. In this review, we discuss some of the recent advances in TN biology that provide insights into the complex way in which the ECM is regulated and how it functions to regulate tissue morphogenesis and gene expression.

Apoptosis in the estrous and menstrual cycles

In the absence of pregnancy, the adult mammary gland is subjected to cyclic fluctuations of hormonal stimulation that constitute the estrous and menstrual cycles. The mammary epithelium responds to these systemic hormonal changes by regional proliferation, differentiation and cell death by apoptosis. The fact that the mammary epithelial response involves only a minor subset of the epithelial cells implies a delicate local control of epithelial cell fate resulting in either cell death or survival. Evidence gleaned from descriptive data suggests that the apoptosis-related genes of the Bcl-2 gene family, tissue remodeling genes, protein tyrosine kinases and master genes of the homeotic gene cluster may be involved in determining epithelial cell fate during the estrous cycle.

Tenascin-C expression in invasion border of early breast cancer: a predictor of local and distant recurrence

We have recently demonstrated an association between distant metastasis and the expression of the extracellular matrix glycoprotein tenascin-C (Tn-C) in the invasion border of small axillary node-negative breast carcinomas. Our purpose was to assess the relationship between the expression of Tn-C in the tumour invasion border and several histopathological and biological variables and to compare their usefulness in predicting local and distant disease recurrences. The original patient group consisted of 143 women with axillary node-negative breast cancer (one bilateral) treated with breast-conserving surgery and post-operative radiotherapy, and followed for a median of 8 years. Because of the small number of recurrences an additional group of 15 similarly treated women with recurrent breast cancer was also studied. The size of the tumour, its histology, including a possible intraductal component, and grade were re-evaluated. The expression of erbB-2, p53, Ki-67 and Tn-C was evaluated by immunohistochemistry. Ploidy and S-phase fraction (SPF) were assessed by flow cytometry. The only statistically significant prognostic factor for local recurrence was Tn-C expression in the invasion border. For metastasis Ki-67 positivity, tumour size and Tn-C expression in the invasion border were statistically significant, but Ki-67 positivity was the only independent prognostic factor. Tn-C expression in the invasion border was associated with a higher proliferation rate measured by Ki-67 and SPF, which is consistent with the suggested growth-promoting activity of Tn-C. Tn-C may be a useful marker in selecting patients for adjuvant therapies to reduce the rate of both local and distant cancer recurrences.

Plasticity of mammary epithelia during normal development and neoplastic progression

The functional unit of the mammary gland is the epithelium. It consists of luminal epithelial cells and myoepithelial cells that are generated from self-renewing stem and progenitor cells. The latter two cell types are scattered throughout the mammary epithelium and are concentrated in specialized structures, the end buds. In transplantation studies the pluripotency of mammary stem cells has been confirmed by demonstrating that they can regenerate a complete mammary gland. The ability of mammary epithelial cells to produce an elaborate ductal system during puberty and to differentiate into milk-producing alveoli during pregnancy is not only influenced by their genetic make-up, but is also governed by local molecular signals. Recent studies suggest that the transdifferentiation of epithelial cells into tumor cells is under microenvironmental control, despite the prominence of genetic mutations in breast cancer. Consequently, disturbances of tissue homeostasis can alter mammary gland development or result in preneoplastic and neoplastic pathologies. The plasticity of mammary epithelia is not limited to the entry of cells into differentiation and transdifferentiation pathways, but extends to their ability to regain facets of their preceding stage of functionality. Deciphering the molecular cues that determine cell plasticity is prerequisite for establishing a unifying concept of mammary gland development and breast tumor progression.Key words: branching morphogenesis, lactogenic differentiation, stem cells, epithelial-to-mesenchymal transition, cancer.

Breast development gives insights into breast disease

AIMS

Studies of developing human breasts are essential for understanding the organogenesis as well as molecular pathogenesis of benign and malignant breast diseases. In this study we have examined the distribution of TGF-alpha, TGF-beta 1, tenascin-C and collagen type IV with the aim of starting to build a picture of the profile of molecules that may be involved in the development of the human breast.

METHODS AND RESULTS

Ten fetal breasts (16 to 23 weeks of gestation) and 45 infant breasts, ranging in age from newborn to 2 years, were used in this study. Paraffin sections from these samples were immunostained with antibodies for these proteins and for Ki67 to elucidate the level of proliferative activity in different stages of breast development. TGF-alpha immunoreactivity was observed both in the stromal and the epithelial cells within fetal and infant breasts up to 25 days. TGF-beta 1 immunoreactivity was localized in the extracellular matrix. Tenascin-C was found around the neck of the developing breast bud and in the extracellular matrix of the infant with peaks in the newborn at 6-12 weeks. The immunoreactivity for type IV collagen was more intense in the region of the breast bud neck in the fetal breasts and reduced around the tips of lobular and terminal-end buds within the infant breasts.

CONCLUSIONS

The distribution of the growth factors and extracellular matrix proteins within the developing human breast indicates that they play a significant role in different cellular compartments during morphogenesis and provides insights into breast disease.

Estrogen responsiveness and control of normal human breast proliferation

Our understanding of the hormonal control of the proliferation of normal human breast epithelium is still surprisingly meager. However, the results of a number of recent studies have confirmed that estrogen is the major steroid mitogen for the luminal epithelial cell population (the usual targets for neoplastic transformation). Estrogen seemingly exerts its effects on cell division indirectly as there is complete dissociation between the population of luminal epithelial cells expressing the estrogen receptor (ER)4 and those that proliferate. We suggest that the ER-negative proliferating cells represent a precursor or stem cell population that differentiates to ER-containing, nonproliferative cells. In turn, these ER-positive cells act as 'estrogen sensors' and transmit positive or negative paracrine growth signals to the precursor cells depending on the prevailing hormonal environment. As yet there is no direct evidence supporting this hypothesis but we suggest ways in which it may be obtained. The implication of these studies is that inhibition of luminal epithelial proliferation with tamoxifen or pure antiestrogens or by preventing ovarian steroid secretion should be an effective strategy for the prevention of breast cancer. In addition, we may be able to predict the risk of breast cancer in an individual by measuring the intrinsic estrogen sensitivity of her breast epithelium. Finally, study of the paracrine mechanisms of growth control in the normal human breast may provide new, more specific, therapeutic targets for breast cancer prevention.

Expression of tenascin-C by human endometrial adenocarcinoma and stroma cells: heterogeneity of splice variants and induction by TGF- b

Localization of tenascin-C in vivo and cell culture experiments in vitro have provided evidence for stromal production of tenascin-C in malignant tumors of a variety of organs. Here we raised the question of whether the mesenchymal stroma in the case of endometrial adenocarcinoma is the unique source of tenascin-C. Therefore, the expression of tenascin-C mRNA by human endometrial adenocarcinoma cells and endometrial stroma cells was investigated. Several preparations of endometrial stroma cells produced tenascin-C mRNA. Using a serum-free defined cell culture medium, production of tenascin-C mRNA could be increased by adding either serum or 20 ng TGF- beta /mL to the cell culture medium. Reverse transcriptase polymerase chain reaction analysis revealed that five out of six endometrial adenocarcinoma cell lines produced tenascin-C mRNA. Northern blot experiments and ribonuclease protection assays provided evidence that the number of copies of tenascin-C mRNA was small. Analysis of expressed splice variants by reverse transcriptase polymerase chain reaction analysis revealed the abundance of one major splice variant that lacked all potential alternatively spliced fibronectin type-III-like repeats. Regarding larger splice variants, all fragment sizes that could theoretically originate from seven alternatively spliced fibronectin type-III-like repeats were observed. Evaluating relative signal intensities, the splice variants containing a single fibronectin type-III-like repeat and the variant possessing all but one alternatively spliced repeats were most frequent. In summary, evidence is provided that tenascin-C can originate from both tissue compartments of the human endometrium stroma and (tumor) epithelium. Splice variant analysis revealed a high number of splice variants and a relative high proportion of variants that have so far been regarded as minor constituents of expressed tenascin-C. Key words: gene expression, splice variant analysis, extracellular matrix, endometrial cancer, growth factors.

The change in tenascin expression in mouse uterus during early pregnancy

PURPOSE

Our aim was to examine the changes in spatiotemporal tenascin (TN) expression in mouse uterus during early pregnancy, when the uterine tissue undergoes a tremendous restructuring.

METHODS

Using immunohistochemistry and in situ hybridization, the changes in distribution of TN protein in mouse uterine tissues in pregnancy Day 0 through Day 5 were analyzed.

RESULTS

Immunoreactive TN and TN mRNA were expressed in the basement membrane of the epithelium as well as in the smooth muscle layer, and their distribution shifted from the subbasement region on Day 0-3 to the smooth muscle layer on Days 4 and 5.

CONCLUSIONS

These results indicate that TN expression in the uterus during early pregnancy is spatiotemporally different and may be regulated by a different mechanism.

Expression of tenascin in invasion border of early breast cancer correlates with higher risk of distant metastasis

Tenascin (Tn) is an extracellular matrix glycoprotein transiently expressed in epithelial-mesenchymal interaction areas during embryogenesis. Tn is expressed in a limited manner in adult tissues but emerges during wound healing and tumorigenesis. We have studied Tn expression by immunohistochemistry in 137 small node-negative breast cancers treated with breast-conserving surgery and post-operative radiotherapy during 1985-1989. None of the patients had undergone any adjuvant hormonal therapy or chemotherapy. Stromal Tn expression itself could not predict distant metastasis. However, Tn staining in the area of the invasion border seemed to be a strong predictor of distant metastasis, with an estimated 5-year metastasis-free survival (MFS) of 85% in Tn-positive cases compared to 98% in Tn-negative ones. The prognostic impact of Tn in the invasion border on MFS was stronger than that of tumour size and grade. This staining appears to be a useful adjunct for the estimation of breast-cancer metastasis.

Expression of the extracellular matrix protein tenascin in malignant and benign ovarian tumours

The extracellular matrix protein tenascin (TN) is overexpressed in a number of solid tumours. Thi however, is the first study to examine TN expression in ovarian tumours. TN protein was examined in froze sections of 50 human ovarian tumours by immunohistochemistry. Malignant and borderline tumours showed significantly greater incidence and intensity of stromal staining than benign tumours (P < 0.0001 and P = 0.038 respectively). Seven omental metastases were also examined and showed a strikingly similar protein distribution to their primary tumour counterparts. The expression pattern of different RNA isoforms, created by alternative splicing of the primary transcript, was identified using reverse transcription-polymerase chain reactions (RT-PCR). The smallest TN RNA splice variant (284 bp) was found in all tumours examined, while the appearance of larger molecular weight transcripts (approximately 490 and 556 bp), as major forms, was predominantly limited to malignant tumours, with 9/12 malignant tumours showing this pattern compared with 1/6 benign tumours. These data suggest that malignant ovarian tumours have increased expression of TN compared with benign tumours and this may be associated with induction of specific isoforms.

Mammary epithelial cell differentiation in vitro is regulated by an interplay of EGF action and tenascin-C downregulation

Expression of the extracellular matrix glycoprotein tenascin-C in the mammary gland is associated with cellular proliferation and cell motility during organogenesis and tumorigenesis. Because the source and the regulation of tenascin-C in these tissues are unclear, we have used tenascin-C cDNA, FITC-immunofluorescence and immuno-precipitation to examine tenascin-C expression of mammary epithelial cells. Using several mammary epithelial cell lines we could show that tenascin-C can be produced and secreted by epithelial cells. However it was found that tenascin-C synthesis was inversely correlated with the polarized epithelial phenotype. Among three mouse mammary epithelial cell clones, tenascin-C expression was most abundant in HC-11 cells, the least differentiated cell type. Expression levels were high during the growth phase but were nearly abolished when cells were grown to confluence and induced to express milk proteins. Downregulation of tenascin-C by EGF apparently commits HC-11 cells to respond to lactogenic hormones and consequently, hormone induced levels of beta-casein mRNA decreased significantly when HC-11 cells were grown on a tenascin-C substrate. On the other hand, TGF-beta, another growth factor involved in coordinated growth and differentiation of the mammary gland in vivo was found to be a very potent inducer of tenascin-C. The generation of fully polarized and tight epithelium affected the levels of tenascin-C expression. In contrast to HC-11 cells, which do not form epithelial domes in vitro, highly polarized and dome forming EpH4 and Fos-ER cells nearly lacked tenascin-C. Similarly, induction of dome formation in the rat mammary stem cell line Rama 25 by the differentiation inducer dimethylsulfoxide caused a loss of TN-C-transcripts. The inability of Fos-ER cells to develop domes in the presence of soluble tenascin-C also suggests its interference with induction and maintenance of mammary epithelial cell differentiation.

Quantitative variation of proto-oncogene and cytokine gene expression in isolated breast fibroblasts

Transcripts coding for transcription factors (RB, P53, FOS, MYC, MYB, ERBA, REL), growth factors (FGF1, FGF2, INT2, TGFA, TGFB, PDGF, IGF1, IGF2), interleukins, (IL1, IL2, IL3, IL4, IL6, TNF), growth-factor receptors or cytosolic protein kinases (RAF, PIM, FES, MET, SRC, ROS, TRK, KIT, CSFR, IGFR, PDGFR, EGFR, NEU) were quantified in cultured human mammary fibroblasts from normal tissues, benign tumours, carcinomas and post-radiation fibrosis lesions by slot-blot autoradiography and image analysis. The effects of a differentiating agent (cholera toxin) and of a tumour promoter (12-O-tetradecanoyl-phorbol-13-acetate) were also examined. The drugs modulated the levels of the anti-oncogene transcripts (RB, P53) and of ERBA, REL, RAF, MET, ROS, TRK, CSFR, EGFR, NEU, FGF1, INT2, IGF1, IL1, IL2, IL4 and IL6. Apart from this variation, there were multiple differences in gene expression among normal and pathological cells (concerning all but P53, TGFB and interleukin transcripts) and between sub-types defined by the presence of alpha-sm-actin (myofibroblasts) or EDB-fibronectin (RAF, ROS, FES, KIT, IGFR, NEU, INT2, TGFB, PDGF, IGFs, ILs). It appears, therefore, that mammary stroma progress irreversibly along with the epithelium during tumoral development, and that breast cancer is not only a multi-gene but also a multi-tissue phenotype.

Tenascin in breast cancer development--is epithelial tenascin a marker for poor prognosis?

(1) In mouse mammary gland development, immunoreactive tenascin (TN) is expressed in the dense mesenchyme surrounding the epithelial component of 14-day embryos, endbuds at puberty, and tumors. (2) Cells that produce TN are myofibroblastic and are characterized by nuclear invaginations, rough endoplasmic reticulum, and pinocytotic vesicles. These cells are not normally present in the stroma of mammary glands but present in cancer stroma, originating probably from fibroblasts differentiated under the influence of TGF-beta 1 stimulation. (3) Breast cancer cells are capable of synthesing TN under certain conditions. TN-non-producing MCF7 cells can produce TN when co-cultured with embryonic fibroblasts or with their conditioned medium. (4) Nine primary human breast cancers were examined for TN expression by in situ hybridization. TN mRNA was expressed in all nine cases in the stroma and in four cases in carcinoma cells as well. (5) Immunohistochemistry for TN was performed in human breast cancers, and it was found that the five-year survival after surgery was markedly lower in the group whose cancer cells were positive [corrected] for TN. TN expression in cancer cells appears to indicate poor prognosis.

Selective interactions between mammary epithelial cells and fibroblasts in co-culture

Paracrine interactions between breast-cancer cells (MCF7) and stromal fibroblasts were studied in relation to the presence of steroid hormones, using co-cultures in which the 2 populations were separated by a microporous membrane. Densities and DNA-synthesis rates of the co-existing populations were interrelated. Proliferation was, therefore, viewed as the cumulative result of several factors, some of which are non-specific, e.g., are density-dependent, and some are specifically related to the feeders' origin and/or to culture conditions. Specific effects were measured and evaluated by stepwise analysis of covariance. MCF7 stimulated proliferation of fibroblasts differentially. Malignant-tumour fibroblasts were stimulated more than non-pathological ones. The magnitude of these effects was dependent on the presence of steroids. A similar analytical method was used for evaluating differential stromal influences on 4 epithelial phenotypic characters commonly used as prognostic markers. The estrogen-receptor, progesterone-receptor, pS2 and cathepsine-D phenotypes of MCF7, as well as their interrelations, were dependent on the origin of the fibroblasts, i.e., embryonic or adult, normal or tumoral.

Phenotypic heterogeneity in breast fibroblasts: functional anomaly in fibroblasts from histologically normal tissue adjacent to carcinoma

Histologically normal breast tissue was obtained from women undergoing surgery for benign breast lesions (n = 12) and mammary carcinomas (n = 15). Four fibroblast subpopulations (FI, FII, FIII and FIV) were isolated from these specimens by differential digestion and centrifugation. FI cells were the first to be released from the tissue digest and consequently assumed to be derived from the interlobular stroma; FIV fibroblasts were tightly associated with the epithelial organoids and are therefore believed to be of intralobular origin. These cells were characterised in terms of their migratory phenotype (classified as either foetal- or adult-like) and the production of motility factors according to previously described techniques. FI fibroblasts obtained from patients with benign breast lesions displayed a foetal migratory phenotype (10/11) and secreted detectable quantities of motility factors (11/11). In contrast, none of the FIV fibroblasts (0/10) obtained from these same patients displayed a foetal-like migratory phenotype or secreted motility factors. In the case of fibroblasts obtained from cancer patients, both FI (13/13) and FIV (13/13) fibroblasts displayed a foetal-like migratory phenotype and secreted motility factors. Fibroblasts were also derived from skin (n = 12) and breast fat tissue (n = 4) of certain patients. In agreement with our previously published observations, skin fibroblasts obtained from non-cancer and cancer patients also differed in terms of their migratory behaviour: none of the skin fibroblast lines (0/5) obtained from non-cancer patients were foetal-like, compared to 3/7 lines from cancer patients. All fat-derived fibroblasts (1 non-cancer and 3 cancer patients) were also foetal-like. Our results indicate (i) functional heterogeneity between FI and FIV fibroblasts of normal breast, and (ii) the presence of functionally aberrant (i.e., foetal-like) FIV fibroblasts in histologically normal breast tissue adjacent to a carcinoma.

Tenascin distribution in articular cartilage from normal subjects and from patients with osteoarthritis and rheumatoid arthritis

OBJECTIVE

To determine whether tenascin is present in normal and diseased human cartilage.

METHODS

Immunohistochemical and biochemical assays with a monoclonal antibody against all tenascin isoforms (BC-4) were used.

RESULTS

Cartilage samples from osteoarthritis and rheumatoid arthritis patients contained increased amounts of tenascin compared with the levels in normal cartilage. Human fetal cartilage was also found to contain tenascin. In normal cartilage explants treated with interleukin-1 beta, tenascin was present in pericellular areas of all layers. Immunolocalization studies revealed that tenascin was most abundant in the superficial layers of osteoarthritic cartilage. Western blot analysis performed from dissociative extracts of diseased cartilage confirmed the presence of subunits of the native molecule.

CONCLUSION

Tenascin is increased in arthritic cartilage and is weakly expressed in normal cartilage.

Laminin and tenascin assembly and expression regulate HC11 mouse mammary cell differentiation

HC11 is a normal mouse mammary epithelial cell line that requires certain growth factors, such as EGF or bFGF, to respond optimally to lactogenic hormones and produce the differentiation marker beta-casein. Growth in insulin (Ins) or PDGF does not produce cells competent to respond to lactogenic hormones. Here we show that competency for differentiation is due at least in part to the modulation of extracellular matrix components. In particular we have studied laminin and tenascin. EGF alters endogenous laminin assembly. In addition, promotion of competency can be partially mimicked by plating HC11 cells on the E8 laminin fragment, which is able to induce lactogenic responsiveness in cells grown in the absence of EGF or bFGF. The production and assembly of tenascin is also dependent upon the growth conditions of the HC11 cells. EGF- or bFGF-grown competent cells produce tenascin but do not assemble it at the extracellular matrix as efficiently as Ins- or PDGF-grown, non-competent cells. This alteration apparently leads to a change in the cellular microenvironment that supports beta-casein production. In addition, when competent cells are plated on dishes coated with tenascin, lactogenic hormone induction of beta-casein is inhibited. The data suggest that tenascin assembly and beta-casein production are opposing features of a coordinated differentiation program of HC11 cells.

Stromal expression of tenascin is inversely correlated to epithelial differentiation of hormone dependent tissues

We were previously investigating the expression of the extracellular matrix glycoprotein tenascin in normal and malignant endometrial tissues of humans and rodents. These studies suggested that the expression of tenascin was induced by proliferating epithelia (normal and particularly malignant) and was downregulated with their differentiation. The aim of this study was to investigate the hormone dependency of tenascin expression in (a) the transplantable EnDA endometrial tumor model with or without estrogen deprivation (ovariectomy) of the animals, (b) DMBA-induced rat mammary tumors with or without a hormonal treatment of the animals [ovariectomy, antiestrogen (tamoxifen) or antiprogestin (ZK 98299) treatment] and (c) in the rat prostate of untreated or androgen deprived animals (orchiectomy, flutamide-, casodex- or cyproterone acetate (CPA)-treatment). 1. Estrogen withdrawal by ovariectomy did not affect tenascin expression in transplantable EnDA endometrial adenocarcinoma, meaning the entire extracellular space of the stromal mesenchyme was decorated by tenascin immunoreactivity. 2. In untreated DMBA-induced rat mammary tumors almost the entire extracellular space of the stroma was stained by tenascin immunoreactivity. Ovariectomy and antiestrogen treatment did not affect tenascin expression. In contrast, antiprogestin treatment induced terminal differentiation of mammary tumor cells and in parallel downregulated tenascin expression. 3. In the normal rat prostate no tenascin was detectable by immunocytochemistry. However, following androgen deprivation we found tenascin expression in the stroma of the prostate. The most prominent expression was observable after CPA-treatment, possibly due to its progestagenic potency. In conclusion, the hormones and antihormones tested show no direct effect on the stromal expression of tenascin. However, proliferative activity and a low degree of differentiation of the epithelium induces tenascin expression, whereas epithelial differentiation apparently shuts down tenascin expression. Preliminary in vitro studies suggest that paracrine acting growth factors trigger the hormonal regulation of tenascin expression.

Evaluation of quantitative variation in gene expression

We investigate the behaviour of the gene-expression rate as a statistical variable using autoradiographic data for 39 transcripts from a heterogeneous set of 80 breast-tissue cultures. Despite standardization, the data distributions of all transcripts showed intervals of normality and intervals of systematic departure from normality which most frequently resulted in a significant skewness and/or kurtosis. Non-normal shapes are attributed to modulation of gene expression. This statistical particularity creates difficulties in the evaluation of differences among specimens. Using classical parametric and non-parametric procedures for normal and non-normal variation, respectively, we demonstrate that large differences in optical density are neither necessary nor sufficient for associating expression rates with biological factors. The transcripts coding for the metalloprotease stromelysin-3 (ST3) and for the receptor to insulin-like growth factors (IGFR) are used as examples and their variation is presented in detail. ST3 expression appeared to be specifically associated with mammary stroma fibroblasts derived from post-radiation fibrosis lesions. IGFR was expressed at higher rates in mammary gland and skin fibroblasts than in mammary epithelial cells and was subject to frequent and strong modulation.

Tenascin is an important component of the glomerular extracellular matrix in normal and pathologic conditions

Tenascin (TN), a large oligomeric glycoprotein, is a recently described component of the extracellular matrix (ECM). Previous reports focusing largely on the role of TN in nephrogenesis have documented the strong expression of TN in embryonic kidney tissue and implied an important role for TN in nephrogenesis. However, the expression of TN in normal and pathologic kidneys in adults has not been systematically evaluated. In this study immunohistochemical staining for TN was applied to 184 renal specimens diagnosed as: normal kidney (23 cases); minimal change disease and its variants (8); mesangial proliferative glomerulonephritis (GN) including IgA nephropathy and mesangial proliferative lupus nephritis (9); endocapillary proliferative GN including membranoproliferative GN, lupus nephritis, and post-infectious GN (25); crescentic GN (11); membranous GN (19); focal segmental sclerosis (15); thrombotic microangiopathy (8); amyloidosis (5); diabetic nephropathy (9); primary tubulointerstitial nephritis (14); transplant rejection (14); and ischemia (24). It was found that: (a) there was unequivocal global diffuse staining limited to the mesangium in normal kidney; (b) regardless of the etiologies and the morphologic types of glomerular disease, whenever there was expansion of the ECM, whether in the mesangial, endocapillary, or extracapillary spaces, there was a concomitant and proportional in situ increase in the TN staining; (c) globally sclerotic glomeruli, regardless of causes, showed diffuse, strong staining, especially in the subcapsular fibrous deposition seen in ischemic sclerosis; (d) non-sclerotic glomeruli showing early ischemic change uniformly displayed a marked decrease or complete loss of staining; (e) in cases of thrombotic microangiopathy, there was segmental or global staining of the capillary wall, probably corresponding to the enlarged lamina rara interna; (f) all nodular lesions in diabetic glomerulosclerosis showed strong staining, but in several of them this staining was much more pronounced in the periphery than in the center of the lesion. Our study proves that TN is probably a component of the normal mesangial matrix, that TN is an ubiquitous component of the expanded glomerular ECM in pathologic conditions regardless of morphologic subtypes, and that further studies on the cell types and mechanisms responsible for TN synthesis may provide a new venue for the understanding of the process of glomerular sclerosis.

Tenascin: a modulator of cell growth

The large, multidomain extracellular matrix protein tenascin displays a markedly restricted tissue distribution during embryogenesis and remains present only in a few adult tissues. The protein is reexpressed, however, during wound healing and in the stroma of malignant tumours. While a variety of studies have dealt with the important role of tenascin in the development of neural and non-neural tissues, there is growing evidence that tenascin expression may be associated with proliferation of cells lining these tissues. The presence of repeating domains in tenascin similar to those in epidermal growth factor prompted us to investigate the ability of tenascin to modulate the growth of different cell types. Tenascin was actually found to be mitogenic for several cell types. This mitogenic activity, however, appears to be associated with a region in the fibronectin type III domains. The mitogenic mechanism is clearly distinct from pathways used by peptide growth factors such as epidermal growth factor and platelet-derived growth factor, which activate the intrinsic tyrosine kinase activity of their cell-surface receptors. However, we show that this large extracellular matrix molecule is efficiently internalised and may be processed by responding cells.

Expression of human tenascin in synovitis and its regulation by interleukin-1

OBJECTIVE

Tenascin is an extracellular matrix glycoprotein with effects on cell adhesion, cell migration, and lymphocyte activation. We proposed to identify the expression of human tenascin messenger RNA (mRNA) and protein in inflammatory synovitis and in normal synovium, and to identify potential regulatory cytokines.

METHODS

Immunohistochemistry and in situ hybridization were used to identify the expression of tenascin in synovium. Northern blot analysis of RNA and both immunoblot analysis and enzyme-linked immunosorbent assay of proteins were used to identify tenascin in synovial cell cultures.

RESULTS

Tenascin was found along the synovial lining layer and in perivascular areas of normal synovium. In inflammatory synovitis, tenascin protein and mRNA expression were shown to be increased in the synovial lining layer, in perivascular areas, in lymphoid aggregates, and in areas of fibrosis. Interleukin-1, a major mediator of tissue injury in inflammatory synovitis, induced tenascin expression and deposition in primary synovial fibroblast cultures.

CONCLUSION

Tenascin mRNA and protein are increased in inflammatory synovitis, and interleukin-1 is an inducer of tenascin in synovial fibroblasts. This identifies a new pathway by which interleukin-1 alters the extracellular matrix composition in synovitis. Since tenascin has effects on lymphocyte activation and cell adhesion, the induction of tenascin in inflammatory synovitis may play a role in the pathophysiology of arthritis.

Changes in the extracellular matrix of the normal human breast during the menstrual cycle

The normal human mammary gland undergoes a well defined sequence of histological changes in both epithelial and stromal compartments during the menstrual cycle. Studies in vitro have suggested that the extracellular matrix surrounding the individual cells plays a central role in modulating a wide variety of cellular events, including proliferation, differentiation and gene expression. We therefore investigated the distribution of a number of extracellular matrix molecules in the normal breast during the menstrual cycle. By use of indirect immunofluorescence, with specific antibodies, we demonstrated that laminin, heparan sulphate proteoglycan, type IV collagen, type V collagen, chondroitin sulphate and fibronectin undergo changes in distribution during the menstrual cycle, whereas collagen types I, III, VI and VII remain unchanged. These changes were most marked in the basement membrane, sub-basement membrane zone and delimiting layer of fibroblasts surrounding the ductules where basement membrane markers such as laminin, heparan sulphate proteoglycan, and type IV and V collagens appear greatly reduced during the mid-cycle period (days 8 to 22). These results suggest that some extracellular matrix molecules may act as mediators in the hormonal control of the mammary gland, whereas others may have a predominantly structural role.

Immunohistochemical staining patterns of tenascin in invasive breast carcinomas

Eighty-two cases of primary invasive breast carcinoma and adjacent "normal" mammary glands were examined immunohistochemically for tenascin expression and distribution. Formalin-fixed tissues pretreated with actinase were processed by the avidin-biotin complex method using anti-human tenascin monoclonal antibody (RBC1). In normal mammary glands, tenascin was distributed around the ducts and ductules but not around the acini. In carcinomas, a high incidence of tenascin-positive cases (greater than 67%) was seen with various histological appearances, with the exception of lobular carcinoma where a low incidence was found (25%). Although intense staining was seen around cancerous foci when compared with normal mammary glands, tenascin was often expressed at cancer-mesenchymal junctions with dense fibrotic stroma, but not at junctions with active inflammatory change and a loose fibrotic stroma. Tenascin, expression is not an all-or-none marker for mammary malignancy and the staining pattern suggests either a role in stimulating cancer cells or a host defence mechanism accompanied by a desmoplastic response to them.

Characterization of a newt tenascin cDNA and localization of tenascin mRNA during newt limb regeneration by in situ hybridization

We previously showed that tenascin, a large, extracellular matrix glycoprotein, exhibits a temporally and spatially restricted distribution during urodele limb regeneration. To further investigate the role of tenascin in regeneration, we cloned a newt tenascin cDNA, NvTN.1, that has 70% homology to the chicken tenascin sequence. A deduced amino acid sequence of NvTN.1 showed a modular structure unique to tenascin characterized by epidermal growth factor-like and fibronectin type III repeats. To determine the cellular origin of tenascin protein during limb regeneration, we localized tenascin transcripts by in situ hybridization using a riboprobe synthesized from NvTN.1. Transcripts could not be detected in normal limb tissues but first became detectable in the wound epithelium at 2 days and in the distal mesoderm at 5 days after amputation. These wound epithelial cells are probably the source of tenascin protein found within and immediately underneath the wound epithelium. At preblastema stages, hybridization was seen in cells associated with most of the distal mesodermal tissues but not in dermis. At blastema stages, essentially every mesenchymal cell contained tenascin transcripts. Thus, regardless of origin, blastemal mesenchymal cells may share a common regulatory mechanism that results in tenascin gene transcription. Finally, during redifferentiation stages of regeneration, tenascin gene transcription was associated with both differentiation and growth. The results show that initiation of tenascin gene expression is an early event in regeneration and continued tenascin gene transcription is associated with some of the important processes of regeneration, namely wound epithelial-mesenchymal interactions, dedifferentiation, initiation of cell cycling, blastema outgrowth, and cellular differentiation.

Differentiation of pericytes in culture is accompanied by changes in the extracellular matrix

We have previously reported that pericytes derived from retinal and brain microvessels aggregate into nodules soon after reaching confluence. Nodule formation involves a reorganization of the cells resulting in the presence of sparse cells, confluent monolayers, multilayers, sprouts, and nodules within the same culture dish. Extracellular calcification occurs only within the nodules, demonstrating that pericytes are capable of undergoing osteogenic differentiation in culture and that this differentiation is related to nodule formation. Using immunofluorescence we have now studied the distribution of laminin, type IV collagen, type X collagen, and tenascin in pericyte cultures during nodule formation. These matrix macromolecules were also identified by a combination of biochemical techniques, including Northern blot hybridization, immunoblotting and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A molecule that seems to be related to type X collagen was demonstrated by the presence of a pepsin-resistant, collagenase-sensitive polypeptide of molecular weight approximately 45 kDa. The production of laminin, type X-related collagen, and tenascin by pericytes has not been previously reported. Our results suggest that the synthesis or distribution or both of these molecules is dependent on the state of pericyte differentiation. The expression of laminin, type IV collagen, and type X-related collagen was maximal in multilayer areas, sprouts, and nodules. Tenascin appeared homogeneously distributed in monolayer and multilayer areas; when calcified nodules were present, the anti-tenascin serum preferentially decorated a discrete area circumscribing the nodules. Tenascin and type X collagen have been found transiently in vivo preceding calcification; their possible role in this process is not known. Our results also suggest an association between laminin, type IV collagen, and calcification. The in vitro experimental system described here may help to clarify the role of matrix macromolecules in the calcification process.

Tenascin in tissue perturbation repair

Tenascin is an extracellular matrix glycoprotein consisting of six disulfide linked subunits with molecular masses of 190-250 kDa. The cDNAs of chicken, mouse and human tenascins were cloned and their amino acid sequences were determined. Molecular analysis of the tenascin gene revealed that it contains a region homologous to the fibrinogen gene, and repetitive sequences of the type III fibronectin and epidermal growth factor genes. Several isoforms of the tenascin gene as splicing variants have also been found. Culture studies have shown that tenascin has multiple functions including cell attachment and detachment, promotion and inhibition of neural crest cell migration, cell growth stimulation and hemagglutination. Immunohistochemistry of a variety of tissues, both normal and abnormal, from various animals has shown that the distribution of tenascin is characteristic, and spatially and chronologically restricted. Immunoreactive tenascin was demonstrated in the dense mesenchyme present around growing epithelia during embryogenesis and oncogenesis. Besides its oncofetal expression, tenascin was also found in many tissues with inflammation such as healing wounds, regenerating tissue and irritated tissue. These findings suggest that tenascin probably functions as a homeostatic factor in the repair of tissue perturbation.

A novel metalloproteinase gene specifically expressed in stromal cells of breast carcinomas

A gene has been identified that is expressed specifically in stromal cells surrounding invasive breast carcinomas. On the basis of its sequence, the product of this gene, named stromelysin-3, is a new member of the family of metalloproteinase enzymes which degrade the extracellular matrix. The suggestion is that stromelysin-3 is one of the stroma-derived factors that have long been postulated to play an important part in progression of epithelial malignancies.