Host-supplied connective tissue as a guide for proliferating tumor cells in human tumor xenografts

The morphologic alterations of 7 human tumors of different origin and various histologic types, heterotransplanted to athymic nude mice, were investigated in the present study. Constant patterns of histologic and ultrastructural changes were observed in all 7 tumors. Following the initial dying of most inoculated tumor cells, host-supplied inflammatory cells invaded the xenografts and phagocytosed necrotic tumor cells. Fibroblasts which vivaciously produced collagenous material invaded the xenografts and built up solid strands of connective tissue which tightly contacted surviving tumor cells. These stands were used as guide-rails for ingrowing blood vessels. Immediately after their immigration, the first mitoses of tumor cells occurred in close proximity to capillary-conducting strands of connective tissue resulting in a revival of tumor cell proliferation near to the fibrous cords and a spreading of newly formed tumor cells along the strands of connective tissue. These results point to the host-supplied connective tissue as playing an important role for tumor proliferation and local tumor expansion.     

Development of the basal lamina in xenografted human carcinomas: an ultrastructural and immunohistochemical study

Summary The development of the basal lamina (BL), the key structure of the basement membrane (BM), was investigated in three xenografted human carcinomas of the sigmoid colon (CA 1), the lung (L 261), and the hypopharynx (H-Stg 1) following heterotransplantation to athymic mice. The study involved the use of electron microscopy and indirect immunofluorescence techniques employing highly specific antibodies against the intrinsic BL components, heparan sulfate proteoglycan, laminin and type-IV collagen. Following transplantation, the extracellular matrix material of the transplanted tumors decomposed and was phagocytozed by invading macrophages within 1 to 2 days. During this stage, no specific binding of the applied antibodies to BL components could be detected within the xenografts. Following the ingrowth of host-derived connective tissue between days 2 to 6, small fluorescence-positive granules appeared within the cytoplasm and around those tumor cells that were located close to the invaded strands of connective tissue. Ultrastructurally, typical secretory granules were detectable in the cytoplasm of many xenografted carcinoma cells. Thereafter, a tannic acid-positive, patchy material appeared in the extracellular space of CA 1 and L 261 and aggregated to form small fragments of a discontinuous BL. In the H-Stg 1 xenografts, this material assembled to form continuous mono-, bi- and multilayered structures. Large amounts of excess BL material remained accumulated in the L 261 and H-Stg 1 xenografts until the end of the observation period (day 24). These findings reveal that discontinuities of the BL occur independent of the active invasion processes of tumor cells, since xenografted human carcinomas neither grow invasively nor metastasize in nude mice. Moreover, they confirm that these discontinuities are not caused by a quantitatively insufficient production of BL material, but rather arise from qualitative imbalances of the composition of the synthesized BL material.     

Enzymic composition and growth rate of human pleural mesothelioma transplants in nude mice.

The enzymic composition of 7 human mesothelioma lines propagated in nude mice was compared with 4 of the original and 15 additional mesotheliomas sampled during the patients' surgery. The xenografts exhibited several-fold higher thymidine kinase (TK), uridine kinase (UK), phosphoserine phosphatase (PSP) and peptidyl proline hydroxylase (PPH) concentrations than the fresh human samples, while their DNA, gamma-glutamyl transpeptidase (GGT) and beta-galactosidase (Bgal) contents remained similar. The volume growth rate of the xenografts (doubling time, DT = 9.23 +/- 1.25 days) was much faster than that of tumors in the human host, and the decline of this rate with increasing nodule size was accompanied by decreases in TK and PSP concentrations. This first quantitative biochemical study of xenografted human neoplasms indicates that 1) pleural mesotheliomas, though preserving their histological characteristics after heterotransplantation, show considerable increases of enzymes in nucleic acid, collagen, and nonessential amino acid synthesis, and that 2) the concentration of TK is a good indicator of the different growth properties of tumors in a mouse rather than in the human host.     

Anticancer effects of a plant lignan 7-hydroxymatairesinol on a prostate cancer model in vivo

Clinical intervention studies and experimental studies with lignan-rich diets suggest that lignans may have inhibitory effects on prostate cancer, but no clinical or experimental studies with purified lignans have been published. The purpose of this study was to investigate the effect of a plant lignan 7-hydroxymatairesinol (HMR) on LNCaP human prostate cancer xenografts in athymic mice. Athymic nude male mice were injected subcutaneously with LNCaP cells. Starting 3 days after tumor cell injections, a control diet or a control diet supplemented with 0.15% or 0.30% of HMR was administered to mice and the tumor take rate and growth was observed for 9 weeks. HMR diet inhibited the growth of LNCaP tumors. Mice treated with HMR had smaller tumor volume, lower tumor take rate, increased proportion of nongrowing tumors, and higher tumor cell apoptotic index compared with controls. Furthermore, the cell proliferation index was reduced in mice receiving the 0.30% HMR diet compared with mice receiving the control diet. Our results suggest that dietary HMR started at the early phase of the tumor development inhibits the growth of the LNCaP human prostate cancer xenografts in athymic male mice.     

Determination of stromal signatures in breast carcinoma

Many soft tissue tumors recapitulate features of normal connective tissue. We hypothesize that different types of fibroblastic tumors are representative of different populations of fibroblastic cells or different activation states of these cells. We examined two tumors with fibroblastic features, solitary fibrous tumor (SFT) and desmoid-type fibromatosis (DTF), by DNA microarray analysis and found that they have very different expression profiles, including significant differences in their patterns of expression of extracellular matrix genes and growth factors. Using immunohistochemistry and in situ hybridization on a tissue microarray, we found that genes specific for these two tumors have mutually specific expression in the stroma of nonneoplastic tissues. We defined a set of 786 gene spots whose pattern of expression distinguishes SFT from DTF. In an analysis of DNA microarray gene expression data from 295 previously published breast carcinomas, we found that expression of this gene set defined two groups of breast carcinomas with significant differences in overall survival. One of the groups had a favorable outcome and was defined by the expression of DTF genes. The other group of tumors had a poor prognosis and showed variable expression of genes enriched for SFT type. Our findings suggest that the host stromal response varies significantly among carcinomas and that gene expression patterns characteristic of soft tissue tumors can be used to discover new markers for normal connective tissue cells.     

Androgen inhibits the growth of carcinoma cell lines established from prostate cancer xenografts that escape androgen treatment

Most prostate cancers escape endocrine therapy by diverse mechanisms. One of them might be growth repression by androgen. We reported that androgen represses the growth in culture of MOP cells (a sub-line of LNCaP cells) and that of MOP cell xenografts, although tumor growth becomes androgen-independent (AI). Here we explore whether AI tumors contain androgen-responsive cells. ME carcinoma cells were established from AI tumors. The responses to androgen were examined by cell counting, DAPI labeling, flow cytometry, PSA immunoassay and tumor size follow-up. Androgen receptors (AR) were analyzed by western blotting and DNA sequencing. The pattern of responses of these cells to androgen was compared to that of MOP cells and that of JAC cells established from LNCaP-like MOP cells. R1881, a synthetic androgen: (1) repressed the growth of all the six ME cell lines obtained, MOP and JAC cells, (2) augmented the secretion of PSA, (3) induced spectacular cell bubbling/fragmentation and (4) blocked the cell cycle and induced a modest increase of apoptosis. All the androgen-repressed cells expressed the same level of mutated AR as LNCaP cells. In nude mice, the growth of ME-2 cell xenografts displayed transient androgen repression similar to that of MOP cells. In culture neither fibroblasts nor extra-cellular matrix altered the effects of R1881 on cell proliferation. These results demonstrate that androgen-independent tumors contain androgen-responsive cells. The apparent discrepancy between the responses to androgen of tumors and those of carcinoma cells in culture suggests that microenvironmental factors contribute to the androgen responsiveness of tumor cells in vivo. These modifications, albeit unspecified, could be suitable targets for restoring the androgen responsiveness of AI tumors.     

Colorectal cancer desmoplastic reaction up-regulates collagen synthesis and restricts cancer cell invasion

During cancer cell growth many tumors exhibit various grades of desmoplasia, unorganized production of fibrous or connective tissue, composed mainly of collagen fibers and myofibroblasts. The accumulation of an extracellular matrix (ECM) surrounding tumors directly affects cancer cell proliferation, migration and spread; therefore the study of desmoplasia is of vital importance. Stromal fibroblasts surrounding tumors are activated to myofibroblasts and become the primary producers of ECM during desmoplasia. The composition, density and organization of this ECM accumulation play a major role on the influence desmoplasia has upon tumor cells. In this study, we analyzed desmoplasia in vivo in human colorectal carcinoma tissue, detecting an up-regulation of collagen I, collagen IV and collagen V in human colorectal cancer desmoplastic reaction. These components were then analyzed in vitro co-cultivating colorectal cancer cells (Caco-2 and HCT116) and fibroblasts utilizing various co-culture techniques. Our findings demonstrate that direct cell-cell contact between fibroblasts and colorectal cancer cells evokes an increase in ECM density, composed of unorganized collagens (I, III, IV and V) and proteoglycans (biglycan, fibromodulin, perlecan and versican). The desmoplastic collagen fibers were thick, with an altered orientation, as well as deposited as bundles. This increased ECM density inhibited the migration and invasion of the colorectal tumor cells in both 2D and 3D co-culture systems. Therefore this study sheds light on a possible restricting role desmoplasia could play in colorectal cancer invasion.     

T-helper-cell-specific monoclonal antibody inhibits growth of B-cell lymphomas in syngeneic SJL/J mice

Transplantable follicular center cell lymphomas of SJL/J mice are B-cell tumors that stimulate proliferation of host T-helper (TH) cells and which grow progressively in the peripheral lymphoid tissues of immunocompetent recipients. However, tumor growth is compromised in immunosuppressed syngeneic recipients, suggesting that the host response to SJL follicular center cell (SJL/FCC) lymphoma cells is required for optimal tumor growth. In vitro studies indicate that the host TH cells (Lyt-1+, 2-, L3T4a+) which respond to the major histocompatibility complex (MHC) class II (I-As) surface determinants on the SJL/FCC lymphoma cells produce a variety of lymphokines, some of which may promote tumor growth in vivo. The results of this study demonstrate that treatment of lymphoma-injected mice with L3T4a-specific mAb inhibits the growth of the SJL/FCC lymphoma cells, despite the fact that these tumor cells do not express L3T4a determinants. Thus, in this model, mAb therapy targeting host immune cells rather than the tumor cells is an effective means to control tumor growth. Long-term observation of SJL/FCC lymphoma-injected, anti-L3T4a mAb-treated mice reveals prolonged survival of the majority of these animals with periodic recurrence of tumor growth. During periods of remission, LN cells from these long-term surviving animals were unable to mount the characteristic in vitro host response to irradiated SJL/FCC lymphoma cells. These results provide direct evidence that SJL/FCC lymphoma cells fail to retain their characteristic neoplastic properties in a microenvironment that is initially devoid of tumor-responsive TH cells.     

Contribution on the physiological heart growth. (Experimental autoradiographic studies in mice)]

After injections of 3H thymidine or 3H proline, the physiological hearth growth in mice of the CBA strain belonging to various age groups was studied by means of autoradiography. The most important results are the following: The duration of the postnatal growth period is determined by the degree of maturity of the heart at the time of birth. It varies from species to species. 2. In the perinatal developmental phase the percentage of the 3H thymidine-labelled connective-tissue nuclei is higher than that of the muscle nuclei. In this period the connective supporting tissue is considerably strengthened. 3. During the postnatal developmental phase the DNA synthesis in the muscle nuclei aids the preparation of mitoses. After the postnatal duplication of cells the mitotic genes are repressed. The further growth is effected by the increase in weight of the individual fibres. 4. The process of growth is substantially determined by the intracardiac or intramyocardiac pressure and thus by the extension of the muscle fibre. Prior to birth the percentage of the labelled nuclei of muscle cells and connective tissue cells in the right ventricle was higher than in the left ventricular wall. In the postnatal period we observed a shift in the percentage of the labelled cells towards the left ventricular wall. The basis and the median section of the ventricular wall. The basis and the median section of the ventricular wall contain a higher percentage of labelled cells than does the apex cordis. During the first two weeks of live most of the DNA synthesising nuclei of muscle and connective tissue cells are localized in the two inner muscle shells. Later in life no clear distinctions can be demonstrated between the individual ventricular layers.     

Inhibition of Tumor Vasculogenic Mimicry and Prolongation of Host Survival in Highly Aggressive Gallbladder Cancers by Norcantharidin via Blocking the Ephrin Type a Receptor 2/Focal Adhesion Kinase/Paxillin Signaling Pathway

Vasculogenic mimicry (VM) is a newly-defined tumor microcirculation pattern in highly aggressive malignant tumors. We recently reported tumor growth and VM formation of gallbladder cancers through the contribution of the ephrin type a receptor 2 (EphA2)/focal adhesion kinase (FAK)/Paxillin signaling pathways. In this study, we further investigated the anti-VM activity of norcantharidin (NCTD) as a VM inhibitor for gallbladder cancers and the underlying mechanisms. In vivo and in vitro experiments to determine the effects of NCTD on tumor growth, host survival, VM formation of GBC-SD nude mouse xenografts, and vasculogenic-like networks, malignant phenotypes i.e., proliferation, apoptosis, invasion and migration of GBC-SD cells. Expression of VM signaling-related markers EphA2, FAK and Paxillin in vivo and in vitro were examined by immunofluorescence, western blotting and real-time polymerase chain reaction (RT-PCR), respectively. The results showed that after treatment with NCTD, GBC-SD cells were unable to form VM structures when injecting into nude mouse, growth of the xenograft was inhibited and these observations were confirmed by facts that VM formation by three-dimensional (3-D) matrix, proliferation, apoptosis, invasion, migration of GBC-SD cells were affected; and survival time of the xenograft mice was prolonged. Furthermore, expression of EphA2, FAK and Paxillin proteins/mRNAs of the xenografts was downregulated. Thus, we concluded that NCTD has potential anti-VM activity against human gallbladder cancers; one of the underlying mechanisms may be via blocking the EphA2/FAK/Paxillin signaling pathway.     

Daily rhythms are retained both in spontaneously developed sarcomas and in xenografts grown in immunocompromised SCID mice

The circadian clock generates and regulates many daily physiological, metabolic and behavioral rhythms as well as acute responses to various types of stresses including those induced by anticancer treatment. It has been proposed that modulatory function of the clock may be used for improving the therapeutic efficacy of established anti-cancer treatments. In order to rationally exploit this mechanism, more information is needed to fully characterize the functional status of the molecular clock in tumors of different cellular origin; however, the data describing tumor clocks are still inconsistent. Here we tested the status of clock in two models of tumors derived from connective tissue: sarcomas spontaneously developed in p53-deficient mice and human fibrosarcoma cells grown as xenografts in immunocompromised severe combined immunodeficient (SCID) mice. We show that both types of tumors retain a functional clock, which is synchronized in phase with normal tissues. We also show that spontaneously developed tumors are not only oscillating in the context of an organism where they receive hormonal and metabolic signals but continue oscillating ex vivo in tissue explants demonstrating that tumors have functional clocks capable of timing all their functions. We also provide evidence that similar to liver, tumors can be synchronized by food availability independent of the central pacemaker in the suprachiasmatic nuclei (SCN). These data provide the basis for the design of anticancer therapies that take into account the circadian metabolic and physiological patterns of both the tumor and normal tissues.     

Regorafenib: Antitumor Activity upon Mono and Combination Therapy in Preclinical Pediatric Malignancy Models

The multikinase inhibitor regorafenib (BAY 73–4506) exerts both anti-angiogenic and anti-tumorigenic activity in adult solid malignancies mainly advanced colorectal cancer and gastrointestinal stromal tumors. We intended to explore preclinically the potential of regorafenib against solid pediatric malignancies alone and in combination with anticancer agents to guide the pediatric development plan. In vitro effects on cell proliferation were screened against 33 solid tumor cell lines of the Innovative Therapies for Children with Cancer (ITCC) panel covering five pediatric solid malignancies. Regorafenib inhibited cell proliferation with a mean half maximal growth inhibition of 12.5 μmol/L (range 0.7 μmol/L to 28 μmol/L). In vivo, regorafenib was evaluated alone at 10 or 30 mg/kg/d or in combination with radiation, irinotecan or the mitogen-activated protein kinase kinase (MEK) inhibitor refametinib against various tumor types, including patient-derived brain tumor models with an amplified platelet-derived growth factor receptor A (PDGFRA) gene. Regorafenib alone significantly inhibited tumor growth in all xenografts derived from nervous system and connective tissue tumors. Enhanced effects were observed when regorafenib was combined with irradiation and irinotecan against PDGFRA amplified IGRG93 glioma and IGRM57 medulloblastoma respectively, resulting in 100% tumor regressions. Antitumor activity was associated with decreased tumor vascularization, inhibition of PDGFR signaling, and induction of apoptotic cell death. Our work demonstrates that regorafenib exhibits significant antitumor activity in a wide spectrum of preclinical pediatric models through inhibition of angiogenesis and induction of apoptosis. Furthermore, radio- and chemosensitizing effects were observed with DNA damaging agents in PDGFR amplified tumors.     

Local cellular responses associated with dormancy and regression of a syngeneic C3H mammary carcinoma

Summary Histological examination of subcutaneous implants of a C3H mammary carcinoma regressing after a period of growth in syngeneic female recipients showed that regression was concomitant with a local cellular reaction that covered the tumor without incursion by effector cells into the tumor. Regressing tumors and tumors in arrested growth appeared to be avascular. There was no evident tendency for responding host cells to make contact with tumor cells, and where close contact between lymphocytes and tumor cells existed at the periphery of the tumor, there were no signs of direct toxic effect on the tumor cells. When tumor pieces that included significant numbers of plasma cells were implanted into normal mice, the local cellular reaction was unusually rapid and abundant. This type of reaction did not develop against similar tumor pieces implanted into presensitized mice.     

Role of Constitutive Behavior and Tumor-Host Mechanical Interactions in the State of Stress and Growth of Solid Tumors

Mechanical forces play a crucial role in tumor patho-physiology. Compression of cancer cells inhibits their proliferation rate, induces apoptosis and enhances their invasive and metastatic potential. Additionally, compression of intratumor blood vessels reduces the supply of oxygen, nutrients and drugs, affecting tumor progression and treatment. Despite the great importance of the mechanical microenvironment to the pathology of cancer, there are limited studies for the constitutive modeling and the mechanical properties of tumors and on how these parameters affect tumor growth. Also, the contribution of the host tissue to the growth and state of stress of the tumor remains unclear. To this end, we performed unconfined compression experiments in two tumor types and found that the experimental stress-strain response is better fitted to an exponential constitutive equation compared to the widely used neo-Hookean and Blatz-Ko models. Subsequently, we incorporated the constitutive equations along with the corresponding values of the mechanical properties - calculated by the fit - to a biomechanical model of tumor growth. Interestingly, we found that the evolution of stress and the growth rate of the tumor are independent from the selection of the constitutive equation, but depend strongly on the mechanical interactions with the surrounding host tissue. Particularly, model predictions - in agreement with experimental studies - suggest that the stiffness of solid tumors should exceed a critical value compared with that of the surrounding tissue in order to be able to displace the tissue and grow in size. With the use of the model, we estimated this critical value to be on the order of 1.5. Our results suggest that the direct effect of solid stress on tumor growth involves not only the inhibitory effect of stress on cancer cell proliferation and the induction of apoptosis, but also the resistance of the surrounding tissue to tumor expansion.     

Erratum to: Chemokine CXCL14/BRAK transgenic mice suppress growth of carcinoma cell transplants

We reported previously that the forced expression of the chemokine BRAK, also called CXCL14 in head and neck squamous cell carcinoma (HNSCC) cells decreased the rate of tumor formation and size of tumor xenografts compared with mock-vector treated cells in athymic nude mice or in severe combined immunodeficiency mice. This suppression occurred even though the growth rates of these cells were the same under in vitro culture conditions, suggesting that a high expression level of the gene in tumor cells is important for the suppression of tumor establishment in vivo. The aim of this study was to determine whether CXCL14/BRAK transgenic mice show resistance to tumor cell xenografts or not. CXCL14/BRAK cDNA was introduced into male C57BL/6 J pronuclei, and 10 founder transgenic mice (Tg) were obtained. Two lines of mice expressed over 10 times higher CXCL14/BRAK protein levels (14 and 11 ng/ml plasma, respectively) than normal blood level (0.9 ng/ml plasma), without apparent abnormality. The sizes of Lewis lung carcinoma and B16 melanoma cell xenografts in Tg mice were significantly smaller than those in control wild-type mice, indicating that CXCL14/BRAK, first found as a suppressor of tumor progression of HNSCC, also suppresses the progression of a carcinoma of other tissue origin. Immunohistochemical studies showed that invasion of blood vessels into tumors was suppressed in tumor xenografts of CXCL14/BRAK Tg mice. These results indicate that CXCL14/BRAK suppressed tumor cell xenografts by functioning paracrine or endocrine fashion and that CXCL14/BRAK is a very promising molecular target for tumor suppression without side effects.     

Chemokine CXCL14/BRAK transgenic mice suppress growth of carcinoma cell xenografts

We reported previously that the forced expression of the chemokine BRAK, also called CXCL14 in head and neck squamous cell carcinoma (HNSCC) cells decreased the rate of tumor formation and size of tumor xenografts compared with mock-vector treated cells in athymic nude mice or in severe combined immunodeficiency mice. This suppression occurred even though the growth rates of these cells were the same under in vitro culture conditions, suggesting that a high expression level of the gene in tumor cells is important for the suppression of tumor establishment in vivo. The aim of this study was to determine whether CXCL14/BRAK transgenic mice show resistance to tumor cell xenografts or not. CXCL14/BRAK cDNA was introduced into male C57BL/6 J pronuclei, and 10 founder transgenic mice (Tg) were obtained. Two lines of mice expressed over 10 times higher CXCL14/BRAK protein levels (14 and 11 ng/ml plasma, respectively) than normal blood level (0.9 ng/ml plasma), without apparent abnormality. The sizes of Lewis lung carcinoma and B16 melanoma cell xenografts in Tg mice were significantly smaller than those in control wild-type mice, indicating that CXCL14/BRAK, first found as a suppressor of tumor progression of HNSCC, also suppresses the progression of a carcinoma of other tissue origin. Immunohistochemical studies showed that invasion of blood vessels into tumors was suppressed in tumor xenografts of CXCL14/BRAK Tg mice. These results indicate that CXCL14/BRAK suppressed tumor cell xenografts by functioning paracrine or endocrine fashion and that CXCL14/BRAK is a very promising molecular target for tumor suppression without side effects.     

Modeling human osteosarcoma in mice through 3AB-OS cancer stem cell xenografts

Osteosarcoma is the second leading cause of cancer‐related death for children and young adults. In this study, we have subcutaneously injected—with and without matrigel—athymic mice (Fox1nu/nu) with human osteosarcoma 3AB‐OS pluripotent cancer stem cells (CSCs), which we previously isolated from human osteosarcoma MG63 cells. Engrafted 3AB‐OS cells were highly tumorigenic and matrigel greatly accelerated both tumor engraftment and growth rate. 3AB‐OS CSC xenografts lacked crucial regulators of beta‐catenin levels (E‐cadherin, APC, and GSK‐3beta), and crucial factors to restrain proliferation, resulting therefore in a strong proliferation potential. During the first weeks of engraftment 3AB‐OS‐derived tumors expressed high levels of pAKT, beta1‐integrin and pFAK, nuclear beta‐catenin, c‐Myc, cyclin D2, along with high levels of hyperphosphorylated‐inactive pRb and anti‐apoptotic proteins such as Bcl‐2 and XIAP, and matrigel increased the expression of proliferative markers. Thereafter 3AB‐OS tumor xenografts obtained with matrigel co‐injection showed decreased proliferative potential and AKT levels, and undetectable hyperphosphorylated pRb, whereas beta1‐integrin and pFAK levels still increased. Engrafted tumor cells also showed multilineage commitment with matrigel particularly favoring the mesenchymal lineage. Concomitantly, many blood vessels and muscle fibers appeared in the tumor mass. Our findings suggest that matrigel might regulate 3AB‐OS cell behavior providing adequate cues for transducing proliferation and differentiation signals triggered by pAKT, beta1‐integrin, and pFAK and addressed by pRb protein. Our results provide for the first time a mouse model that recapitulates in vivo crucial features of human osteosarcoma CSCs that could be used to test and predict the efficacy in vivo of novel therapeutic treatments. J. Cell. Biochem. 113: 3380–3392, 2012. © 2012 Wiley Periodicals, Inc.     

Chemotactic migration of normal dermal fibroblasts towards epidermal growth factor and its modulation by platelet-derived growth factor and transforming growth factor-beta

During the repair phase of wound healing, fibroblasts migrate to the site of injury where they proliferate and synthesize constituents of the extracellular matrix of connective tissue. Their activity is regulated by mediators originating from cells of the blood clotting and inflammatory stage such as platelet-derived growth factor, epidermal growth factor, transforming growth factor-beta and other cytokines. This communication shows that chemotactic migration of normal dermal fibroblasts is elicited by epidermal growth factor in vitro and that platelet-derived growth factor and transforming growth factor-beta can down-regulate this activity. This suggests that in vivo these growth factors are part of an intricate network which connects and coordinates proliferation, protein synthesis and chemotactic migration of fibroblasts.