Porous poly (L-lactic acid) scaffolds are optimal substrates for internal colonization by A6 mesoangioblasts and immunocytochemical analyses.

In this study, mouse mesoangioblasts were seeded onto bidimensional matrices within three-dimensional porous scaffolds of poly (L-lactic acid) (PLLA), in the presence or absence of a type I collagen coating. The cells were observed under a scanning electron microscope and tested for their adhesion, survival and proliferation. Immunolocalization of heat shock protein (Hsp) 70, an abundant and ubiquitous intracellular protein in these cells, was also performed in sectioned cell-containing scaffolds under a confocal fluorescence microscope to determine if in situ analysis of intracellular constituents was feasible. The data show that PLLA films allow direct cell adhesion and represent an optimal support for cell growth, and that the internal surfaces of PLLA polymeric sponges can be colonized by mesoangioblasts, which can be submitted for in situ confocal microscopic analyses for possible monitoring of timedependent expression of differentiation markers.

Midregion parathyroid hormone-related protein inhibits growth and invasion in vitro and tumorigenesis in vivo of human breast cancer cells.

Parathyroid hormone-related protein (PTHrP) is critical for normal mammary development and is overexpressed by breast cancers. PTHrP is a peptide hormone that undergoes extensive post-translational processing, and PTHrP(38-94)-amide is one of the mature secretory forms of the peptide. In this study, we explored the effect of PTHrP(38-94)-amide in a panel of six breast cancer cell lines "in vitro" and in MDA-MB231 cells "in vivo" specifically examining cell viability, proliferation, invasiveness, and growth in nude mice. PTHrP(38-94)-amide markedly inhibited proliferation and also caused striking toxicity and accelerated cell death in breast cancer cells. In addition, direct injection of PTHrP(38-94)-amide into MDA-MB231 breast cancer cells passaged in immunodeficient mice produced a marked reduction in tumor growth. These studies (i) indicate breast cancer cells are one of the few tissues in which specific effects of midregion PTHrP have been established to date, (ii) support a role for midregion secretory forms of PTHrP in modulating not only normal but also pathological mammary growth and differentiation, (iii) add further evidence for the existence of a specific midregion PTHrP receptor, and (iv) provide a novel molecule for modeling of small molecule analogues that may have anti-breast cancer effects.

Regulation of PTHrP and PTH/PTHrP receptor by extracellular Ca2+ concentration and hormones in the breast cancer cell line 8701-BC.

It was previously reported that 8701-BC breast tumour cells express the gene for parathyroid hormone-related peptide (PTHrP) and PTH/PTHrP receptor (PTHrP-R) and release immunoreactive PTHrP (iPTHrP) into the extracellular medium. Since the regulation of PTHrP and PTHrP-R by breast cancer cells has been poorly investigated so far, we have chosen the 8701-BC cell line as a model system to investigate whether alterations in the extracellular Ca2+ concentration ([Ca2+]e) and treatment with some well-known differentiation agents for breast cells, such as dimethyl sulfoxide, hydrocortisone, progesterone, prolactin, all-trans retinoic acid and transforming growth factor-beta1 might (i) modulate quantitatively the release of iPTHrP, (ii) affect the PTHrP promoter usage and mRNA splicing patterns, and (iii) modify the expression of PTHrP-R. The data obtained indicate that 8701-BC cells are potentially able to utilise different start sites and mRNA splicing patterns for PTHrP transcription, and respond to variations of [Ca2+]e and to the addition of two hormones, hydrocortisone and progesterone, with modifications in the extracellular amount of iPTHrP. Moreover, expression of PTHrP-R is also modulated by changes of [Ca2+]e or treatment with hydrocortisone. This indicates that the 8701 -BC cell line is a suitable in vitro model for further studies on the complex molecular regulation of the PTHrP/PTHrP-R pair in breast cancer.

Extracellular matrix regulation of PTHrP and PTH/PTHrP receptor in a human breast cancer cell line.

It was previously reported that 8701-BC breast cancer cells express the gene for parathyroid hormone-related peptide (PTHrP) and its cognate receptor (PTHrP-R), and release immunoreactive PTHrP in the extracellular medium; it was also found that PTHrP, in turn, exerts a role on the proliferative and invasive behavior in vitro of the same cell line. On the other hand, evidence has been produced that adhesion of 8701-BC cells onto different collagen substrates influences in various ways a number of phenotypic expressions, such as cell growth, motility, invasion of reconstituted basement membrane and production of lytic enzymes of the extracellular matrix (ECM). In light of these previous data, we have examined whether substrates of either reconstituted basement membrane or representative collagen components of the breast tumor stroma (type I, V and OF/LB) might (i) regulate the PTHrP promoter usage and mRNA splicing patterns, (ii) modulate quantitatively the extracellular release of immunoreactive PTHrP (iPTHrP), and (iii) affect the expression of PTHrP-R. The results obtained give evidence that (i) 8701-BC cells are able to utilize different start sites and mRNA splicing patterns for PTHrP transcription; (ii) 'structural' components of the stroma, such as collagens, are by themselves capable of controlling both the expression pattern of the PTHrP gene and the extent of extracellular release of iPTHrP, and (iii) PTHrP-R expression can be up- or down-regulated in response to the ECM substrate present. These data demonstrate that PTHrP and PTHrP-R expression by 8701-BC neoplastic cells can be modulated by ECM molecules, indirectly supporting the active participation of stromal collagen composition in the regulation of PTHrP-controlled circuits which may play a role in carcinogenesis.

Tissue inhibitor of metalloprotease (TIMP)-1 and proliferative behaviour of clonal breast cancer cells.

In the present paper, we have examined whether human tissue inhibitor of metalloprotease-1 (hTIMP-1) is able to exert a growth factor-like effect on two clonal cell lines (BC-3A and BC-61), isolated from a parental line of human breast carcinoma cells (8701-BC), and endowed with different growth and invasive behaviour 'in vitro' and in nude mouse. The data obtained indicate that only the more tumorigenic clonal cell line (BC-61) is responsive to hTIMP-1 treatment by increasing its proliferative rate in a dose-dependent manner. It was also found that BC-61 cells selectively express a transmembrane protein of about 80 kDa able to bind hTIMP-1 'in vitro' and 'in vivo' with high affinity (Kd of 0.07 +/- 0.004 nM), and that treatment of BC-61 cells with a proliferation-promoting concentration of hTIMP-1 is able to stimulate tyrosine-targeted phosphorylation. The cumulative results obtained strongly support the hypothesis that hTIMP-1, 'classically' regarded as a collagenase inhibitor, may be a crucial element of the extracellular signalling network during breast cancer development by controlling cell growth phenotype in autocrine and paracrine manner, and that intratumoural heterogeneity for the biological response to TIMP-1 may exist within the composite cell population of the primary tumour site.

Absence of regular alpha2(I) collagen chains in colon carcinoma biopsy fragments.

The extracellular matrix (ECM) is known to play an active role in numerous biological processes such as differentiation, apoptosis and cancer. Extensive alterations of epithelial basement membranes and of interstitial ECM are known to occur during the progression of most invasive carcinomas. Collagen, which represents the major component of the interstitial ECM, is primarily involved in the stromal changes at the site of tumor cell invasion. We have previously described the occurrence in breast and colon cancer ECM of an oncofetal form of collagen, characterized by an acidic chain distinct from those of type I and III collagen. In the present paper, we bring evidence that alpha2(I) collagen chains in colon cancer tissues expressing the acidic chains, are either overmodified or absent, both as protein and as regular mRNA transcripts. The results obtained strongly suggest that: i) the disorganisation of the collagen architecture and the phenomenon of fibril dispersion, which accompanies the lysis of basement membrane, is not only due to the enzymatic degradation of the collagen fibres, but presumably also to changes of the collagen molecules deposited in the stroma; ii) the neosynthesis of collagen occurring at tumor-host interface is deeply deregulated, and therefore to be considered the result of altered collagen gene expression correlated with the tumor progression, rather than as a mere defensive reaction of the host cells.

Intratumoral heterogeneity for hsp90beta mRNA levels in a breast cancer cell line.

BC-3A and BC-61 are two breast cancer cell lines that have been cloned from parental 8701-BC cells and exhibit different biosynthetic, proliferative, and invasive properties in vitro. In the attempt to search whether alterations in the profiles of gene expression could be detected, we have submitted both cytotypes to identification of differentially expressed cDNAs. In addition, steroid hormone receptor mRNA arrays and in vivo tumorigenesis of the two lines have been checked. The technique used allowed identification of changes in the expression of the 90-kD heat shock protein-beta (hsp90beta) which is prominently down-regulated in BC-61 cells. Because we have also found that these cells, which lack estrogen receptor mRNA synthesis, display a more invasive behavior in vitro and increased tumorigenesis in vivo, we propose that evaluation of hsp903 transcript levels may be taken into consideration for screening as a novel molecular marker of breast cancer progression.

Clonal heterogeneity of the growth and invasive response of a human breast carcinoma cell line to parathyroid hormone-related peptide fragments.

It has been previously reported that 8701-BC cells, derived from a primary carcinoma of the breast, constitutively express parathyroid hormone (PTH)-related peptide (PTHrP) and PTH/PTHrP receptor (PTH/PTHrP-R) genes, that N-terminal, mid-regional and C-terminal immunoreactive PTHrP can be found in cell conditioned medium and, furthermore, that exogenously added PTHrP (1-34), (67-86) and, to a minor extent, (107-139) are anti-mitogenic but promote Matrigel invasion by this cell line. It has also been reported that PTHrP gene expression is selectively switched on in those 8701-BC clonal lines endowed with a higher proliferation rate and invasive ability in vitro. Here we have first examined the presence of PTH/PTHrP-R transcript in the different 8701-BC clones by PCR and Southern blot analysis. Second, we have studied the growth and invasive response in vitro to PTHrP fragments by some of these clones, i.e. BC-3A, BC-61 and BC-66, selected on the basis of their lower (BC-3A) or higher (BC-1 and BC-66) Matrigel invasion ability and their expression of PTHrP (positive for BC-61 and BC-66) and PTH/PTHrP-R (positive for BC-61). Our data show the existence of clonal heterogeneity for PTH/PTHrP-R mRNA and for the proliferative and invasive responses elicited by treatment with diverse PTHrP fragments. In particular: (i) the sensitivity to PTHrP (1-34) is restricted due to the uneven expression of PTH/PTHrP-R; (ii) BC-3A cells (the less 'aggressive' clone) are resistant to the anti-mitogenic effect of the PTHrP domains and, most noticeably, exhibit a growth-potentiating response to PTHrP (67-86) opposite to that found for both the parental 8701-BC cells and the two other clones; (iii) all PTHrP fragments tested induced the expression of a growth-restraining and invasion-promoting phenotype by BC-61 cells (one of the more 'aggressive' clones). Present data in vitro support the hypothesis that in vivo PTHrP may be a key element in local control of the invasive process during breast carcinoma development and that its role may be, in turn, dependent upon the biological characteristics and the level of malignancy of the target cells within the multiclonal population of a primary tumour.

In vitro anti-proliferative and anti-invasive role of aminoterminal fragment of urokinase-type plasminogen activator on 8701-BC breast cancer cells.

8701-BC cells, derived from a primary carcinoma of the breast, constitutively express mRNA for urokinase-type plasminogen activator (uPA). In this paper, we demonstrated the presence of uPA in the conditioned medium, and of uPA-receptor (uPAR) on the cell surface of 8701-BC cells, which therefore have the potential for an autocrine mechanism of uPA-mediated stimulation. We examined whether exogenous addition of either intact uPA, or its amino-terminal fragment (uPA-ATF), which lacks catalytic activity but retains the uPAR binding site and a growth factor-like domain, or immunoneutralisation of endogenous uPA-uPAR interactions could exert any effect on the proliferative and invasive behaviour of 8701-BC cells. The data demonstrate that, while uPA promotes growth and invasion of 8701-BC cells, its effect reversed by blocking uPA-uPAR interactions, uPA-ATF not only fails to impart growth factor-like signals, but also restrains cell invasion in vitro. In the light of these and other data, an active participation of ATF in the complex cell-ECM network of interactions underlying cancer progression can be postulated. In addition, it appears worth considering the possibility of testing the effect of this uPA fragment in vivo for the therapy of breast (and possibly other) human invasive carcinomas.

Parathyroid hormone-related peptide and 8701-BC breast cancer cell growth and invasion in vitro: evidence for growth-inhibiting and invasion-promoting effects.

It has been previously reported that 8701-BC cells, derived from a primary carcinoma of the breast, constitutively express parathyroid hormone-related peptide (PTHrP) gene and that N-terminal PTHrP immunoreactivity can be found in cell medium. Here we have firstly measured immunoreactive PTHrP in 8701-BC cell medium using antibodies raised against midregion and C-terminal fragments, and also demonstrated the expression of PTH/PTHrP receptor by 8701-BC cells. Secondly, we have examined the role, if any, elicited by diverse PTHrP domains on 8701-BC cell proliferation, and invasive behaviour in vitro related to production of extracellular proteolytic enzymes. Our data show that PTHrP [1-34], and, to a minor extent, [67-86] and [107-139], are anti-mitogenic but 'invadogenic' for 8701-BC cells, and suggest that diverse enzymatic activities may contribute to cell invasion in response to different PTHrP fragments. In light of the present data on a chemoattractive role for PTHrP in vitro, we hypothesize that this protein might intervene in local control of the invasive process in breast carcinoma.

Of/Lb collagen promotes chemoinvasion of breast-cancer cells and directs epithelial-cell migration into granulation-tissue of experimental dermal wounds.

OF/LB collagen is a recently described once-fetal form of collagen, with laminin-binding properties, composed of three alpha(1)(I)-sized chains, one of which displaying an unusually acidic pI. This collagen appears able to direct the migration of breast cancer cells through Matrigel, and of injury-activated epithelial cells into the underlying granulation stromal tissue. The effect exerted by OF/LB collagen in vitro appears preferentially linked to its acidic chain. The data reported strongly support the hypothesis that the presence and accumulation of OF/LB collagen in cancer may play a fundamental role in the invasive growth.

Transforming growth factor-beta 1, beta 2, and beta 3, urokinase and parathyroid hormone-related peptide expression in 8701-BC breast cancer cells and clones.

8701-BC is a recently characterized cell line isolated from a primary ductal infiltrating carcinoma of the breast (d.i.c.), showing some pleomorphism in cell microanatomy at an ultrastructural level. We have obtained different sublines of 8701-BC cells by cloning in soft agar at different concentrations (0.3% and 0.6%), and we have characterized the cloned lines by some morphological and growth parameters. 8701-BC cells and clones have been submitted to analysis by reverse transcriptase-linked polymerase chain reaction to detect mRNAs of various cytokines (transforming growth factor-beta s, tumour necrosis factors, interleukin 1s, interleukin 6, parathyroid hormone-related peptide, gamma interferon) and of urokinase, which are bioactive molecules commonly involved in cell-cell and cell-stroma interactions at primary and/or secondary sites of invasion. The aims of the present investigation were to determine: (a) if the corresponding genes are active in 8701-BC cell line and (b) if the sublines tested exhibit transcriptional heterogeneity. The results obtained show that 8701-BC cells express transcripts of transforming growth factor-beta s, urokinase and parathyroid hormone-related peptide (PTHrP), the latter product being responsible for the cancer-associated humoral hypercalcemic syndrome. Moreover, while the first two mRNAs are detectable in all the sublines tested, PTHrP is expressed almost uniquely by the clones isolated in 0.6% agar which exhibit a peculiar morphological appearance, a higher growth rate and a more active invasive behaviour in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)

A new form of tumor and fetal collagen that binds laminin.

Human breast and colon carcinoma tissues contain a form of collagen, not described before, composed of alpha 1 chains of similar size (approximately 100 kDa) but different charge. The three constitutive chains, separated by two-dimensional electrophoresis, are a unique acidic component, undetectable in other collagen types, with an apparent isoelectric point of 4-5, and two more basic components displaying the same electrophoretic behavior as alpha 1(III) and alpha 1(I), respectively. The acidic chain is structurally distinct from alpha 1(I) and displays a cyanogen bromide-derived fragment of similar size to CB5(III). This collagen in its native state is resistant to trypsin and metalloproteinase 3, while it is fully degraded by metalloproteinases 1 and 9. Moreover, this collagen appears able to bind to laminin, as tested by affinity chromatography. The biological significance of our data is related to the finding of this collagen form not only in the tumor tissue tested but also in embryonic-fetal tissues (bovine skin and intestine and human umbilical cord). For its peculiar laminin-binding ability and occurrence in tumoral and embryonic-fetal tissues, we propose to temporarily term this new collagen form OF/LB collagen (onco-fetal, laminin-binding collagen). The presence of OF/LB collagen during development and cancer, and its absence in normal adult tissues, make this protein a potential stromal marker of malignancy.

Adhesion of 8701-BC breast cancer cells to type V collagen and 67 kDa receptor.

Ductal infiltration carcinomas (d.i.c.) of the breast are potentially highly metastatic tumours, associated with drastic alterations of the architecture and molecular composition of the extracellular matrix at the tumour-host interface. 8701-BC, a recently characterized cell line, isolated from primary d.i.c., was used to study different aspects of tumor cell-substratum interactions. Since type V collagen deposition is augmented in d.i.c. we have examined the ability of 8701-BC cells to interact with this collagen species. We have found that cell binding to type V collagen was mediated by protein homologous to the 67 kDa laminin receptor (67-R). This conclusion is substantiated by the following observations: (a) a major band having an apparent molecular mass of 67 kDa and immunoreactive to the anti-67 R antibody was detectable by SDS-PAGE of the membrane proteins; (b) the antibody inhibited cellular adhesion to type V collagen in a dose-dependent way; (c) membrane proteins purified by affinity chromatography on type V collagen were immunoreactive to anti-67 R antibody, but not to anti-VLA1, VLA2 and VLA3 integrin antibodies. This receptor appears to have prominent carbohydrate-binding properties, since lactose competes with cell adhesion to type V collagen.

A comparison of spreading and motility behaviour of 8701-BC breast carcinoma cells on type I, I-trimer and type V collagen substrata. Evidence for a permissive effect of type I-trimer collagen on cell locomotion.

Ductal infiltrating carcinoma (d.i.c.) of human breast is a highly invasive neoplasm characterized by enhanced deposition of collagen. Paradoxically, enhanced collagen deposition is not correlated with inhibition of the migration of tumour cells into the host tissue. d.i.c. is characterized by the reappearance of 'embryonic' type I-trimer collagen and an increase in type V collagen content in the matrix. The effects of these two collagen types were compared with type I collagen as culture substrata on the spreading pattern, cytoskeletal organization and motile behaviour of 8701-BC breast carcinoma cells using rhodamine-phalloidin staining, a DNAase I-competition assay, scanning electron microscopy and time-lapse video-microscopy. Cells grown on type I collagen were stationary, showing a well-spread morphology and an extensive stress fibre pattern. Cells grown on type V collagen were also stationary, but displayed a poorly spread and elongated morphology. In contrast, cells grown on trimer collagen were motile and displayed a compact morphology and a reduced content of stress fibres. Both single-cell and group motility were detectable on trimer collagen substratum. These data are consistent with the existence of two opposite local signals, type I-trimer and type V collagens, which may confer a more or a less metastatic phenotype on breast carcinoma cells. Moreover, the synthesis of trimer collagen in d.i.c. is conceivably instrumental in providing new stromal pathways permitting tumour cells to infiltrate the host tissue.

Type V/type I collagen interactions in vitro and growth-inhibitory effect of hybrid substrates on 8701-BC carcinoma cells.

Different ratios of type V and I collagens were submitted to mixed fibrillogenesis followed by localization of type V collagen within the aggregates by immunoelectron microscopy. At lower concentrations (10-30%), type V collagen segregates into aperiodic filamentous material, peripheral to the cross-banded type I fibrils but making contact in an apparently random manner. Increasing the ratio of type V collagen up to 50% causes the disappearance of collagen fibrils and the formation of a sticky gel composed of weakly immunoreactive long-spacing structures, interspersed with intensely labeled amorphous material. Hybrid type V/type I matrices changed the growth behaviour of 8701-BC carcinoma cells, with inhibition of cell growth being directly related to type V content. This restraining influence on growth was partially reversed when substrates were pre-incubated with low dilutions of anti-type V serum, prior to cell seeding. These findings suggest that the high concentrations of type V collagen, known to exist in vivo in some scirrhous tumors like ductal infiltrating carcinoma of the breast, perturb the normal fibrous architecture of the stroma and concurrently inhibit neoplastic cell growth.

Adhesion, growth and cytoskeletal characteristics of 8701-BC breast carcinoma cells cultured in the presence of type V collagen.

Type V collagen is one of the minor components of the extracellular matrix (ECM) whose content is increased in cases of ductal infiltrating carcinomas of the breast. In order to clarify its biological role, we have investigated the effect of this molecule, both as substrate and as soluble factor, on the behaviour of a breast carcinoma cell line (8701-BC) grown in vitro. Cell-collagen adhesion was monitored for 24 h from plating in the absence or presence of serum. The influence of type V collagen on cell growth was followed during 9 days of culture, and the actin-vinculin arrangement was studied by simultaneous fluorescent immuno-staining. The results indicate that type V collagen is not a permissive substrate for neoplastic cell proliferation and dissemination in vitro.